Inuoduction
This book puts a wealth of information at your fingertips. It represents an exhaustive compilation of data on how chemicals and other exposure environments affect the properties and characteristics of thermoplastic elastomers, thermosets and rubbers. How a plastic will perform in its end use environment is a critical consideration and the information presented here gives useful guidelines. However, this or any other information resource should not serve as a substitute for actual testing in determining the applicability of a given part or material in a given end use environment. Chemical Resistance Volume II - Thermoplastic Elastomers, Thermosets And Rubbers from the PDL Handbook Series is an update to the original Chemical Compatibility and Environmental Stress Crack Resistance published by Plastics Design Library in 1990. This volume contains information not previously published by Plastics Design Library. It provides new data on thermoplastic elastomers and introduces information on thermosetting elastomers (i.e. rubbers) and thermoset materials. Permeation data is included for the first time covering permeation rate, breakthrough time (BTT), and lower detection limit (LDL). Additional result of exposure fields include hardness change and maximum recommended continuous service temperature (Max.Temp.). Other features include Section Two in which data is sorted by exposure environment, CAS Registry Numbers and use of the PDL Resistance Rating throughout the product.
If you require detailed information on how a specific exposure environment influences the properties and characteristics of a specific thermoplastic elastomer, thermoset or rubber, Section One is the appropriate reference. On the other hand we recommend Section Two for an indication of how various thermoplastic elastomers, thermosets and rubbers are influenced by given exposure environments. More detailed information can then be found in Section One. In compiling this data, the philosophy of Plastics Design Library is to provide as much information as is available. This means that complete inform.ation for each test is provided. At the same time, an effort is made to provide information for as many exposure environment and material combinations as possible. Therefore, even if detailed test results are not available (i.e. the only information available is that a material is resistant or has limited resistance), information is still provided. The belief is that some limited information serves as a reference point and is better than no information. Flexibility and ease of use were also carefully considered in designing the layout of the book. You'll find this reference publication to be a valuable resource and an asset in your work.
Introduction
ii
How To Use This Book SECTION ONE Section One provides detailed chemical resistance information on thermoplastic elastomers, thermosets and rubbers. Each of the 42 chapters in Section One represents a single generic family or generic family group. Thermoplastic elastomers are covered in chapters 1 to 8, rubbers in chapters 9 to 25 and thermosets in chapters 26 to 42. Within each chapter, records are arranged alphabetically by exposure environment. When complete chemical resistance data for a single material is desired, Section One is the best reference. Each row in this section represents one specific chemical reagent and associated test conditions for the given material. Information varies from chapter to chapter since different information is available for each generic family. The following table outlines different fields found in Section One of Chemical Resistance Volume II. FIELD HEADING
DESCRIPTION
REAGENT
environment to which the plastic was exposed
REAGENT NOTE
provides additional information about the exposure medium and conditions of exposure
CONC.
%concentration of the given reagent
TEMP.
exposure temperature in degrees C
TIME
exposure time in days
LOAD
exposure stress on sample in Mpa; exposure strain on sample in %or other note on any stress or strain to which the sample may have been subject during exposure
PDL RATING
based on ascale of 0to 9 (with 9 as the highest resistance) developed by POL; details of how rating is ca.lculated are given later in this section
Ok CHANGE Weight
%change from weight before exposure
Length
%change 'from length before exposure
Thickness
%change 'from thickness before exposure
Diameter
%change from diameter before exposure
Volume
%change from volume before exposure
% RETAINED
Tensile Strength
%of original tensile strength retained
Modulus
%of original modulus retained
Elongation
%of original elongation retained
Flexural Strength
%of original flexural strength retained
Impact Strength
%of original impact retained
HARDNESS CHANGE
shore hardness units change (Shore Aor Shore Dhardness scales are indicated)
PERMEATION
BTT
Breakthrough Time: time 'from initial chemical contact to detection; reported in minutes
LDL
Lower Detection Limit: minimum level detected with analytical test equipment; reported in parts per million (PPM) detected at breakthrough time maximum rate at which a reagent passes through a material; reported in ~g/cm2/min. (to convert 'from mglm2/sec.
Permeation Rate
to ~glcm2/min. multiply by 6) MAX. TEMP.
Maximum Recommended Continuous Service Temperature: temperature data is not necessarily the maximum service temperature; aresin may be suitable for higher temperature operation but additional information would be required in order to establish such performance
RESISTANCE NOTE
gives additional information about the resistance of the plastic to the reagent (Le. observed changes, specimen details, cautionary notes, etc.)
MATERIAL NOTE
gives details on the speci'fic material tested, this includes, if available, supplier, trade name/ grade, filler
How To Use This Book
iii
SECTION TWO The information presented in Section One is recompiled and condensed in Section Two. Section Two provides an easy to use overview of how different thermoplastic elastomers, thermosets and rubbers are influenced by a specific exposure environment. Using the PDL Resistance Rating, the user can quickly determine which thermoplastic elastomers, thermosets and/or rubbers mayor may not be suitable for use with a reagent. Users are then referred to Section One for more detailed information. In compiling Section Two, the following guidelines were used:
Regent Concentration • Reagents were grouped by concentrations of <5%; >5-10%; >10-20%; >20-30%; >30%-40%; >40-50%; >50-75%; >75-97% or, if no concentration is listed with a reagent, it means that the concentration is >97% or not specified.
Temperature • Two temperature levels are used in Section Two - room temperature and elevated temperature. Room temperature is used to classify tests conducted between 15°C and 27°C. Tests conducted at temperatures of 45°C or above are classified under elevated temperature.
PDL Rating· The PDL Rating is used extensively in Section Two. If more than one entry (and often there are many) for a reagent / material combination in a specific concentration and temperature group is listed in Section One, the range of PDL Ratings are provided. It is possible that the PDL Rating listed in Section Two corresponds to a single test from Section One, multiple tests having the same PDL Rating or two or more tests with a range of PDL Ratings.
How To Use This Book
iv
POL Resistance Rating
The PDL Resistance Rating is determined using a weighted value scale developed by PDL and reviewed by experts. Each of the ratings is calculated from test results provided for a material after exposure to a specific environment. It gives a general indication of a material's resistance to a specific environment. In addition, it allows the user to search for materials most likely to be resistant to a specific exposure medium. After assigning the weighted value to each field for which information is available, the PDL Resistance Rating is determined by adding together all weighted values and dividing this number by the number of values added together. All numbers to the right of the decimal are truncated to give the final result. If the result is equal to 10, a resistance rating of 9 is assigned. Each reported field is given equal importance in assigning the resistance rating since, depending on the end use, different factors playa role in the suitability for use of a material in a specific environment. Statistically, it is necessary to consider all available information in assigning the rating. Supplier resistance ratings are also figured into the calculation of the PDL Resistance Rating. Weighted values assigned depend on the scale used by the supplier. The following table presents the values and guidelines used in assigning the PDL Resistance Rating. The guidelines - especially in the case of visual observations - are sometimes subject to an educated judgement. An effort is made to maintain consistency and accuracy. The information on which a PDL Resistance Rating is based is available to the user in Section One of this volume.
Weighted Value
Weight* Change
Diameter* Length Change
Thickness* Change
Volume* Change
Mechanical** Property Retained
Visual *** Observed Change no change
10
0-0.25
0-0.1
0-0.25
0-2.5
>=97
9
>0.25-0.5
>0.1-0.2
>0.25-0.5
>2.5-5.0
94-<97
8
>0.5-0.75
>0.2-0.3
>0.5-0.75
>5.0-10.0
90-<94
7
>0.75-1.0
>0.3-0.4
>0.75-1.0
>10.0-20.0
85-<90
6
>1.0-1.5
>0.4-0.5
>1.0-1.5
>20.0-30.0
80-<85
(min.)
Permeation Rate
Hardness Change
(J.lWcm21min.)
(unns)
S1=O
SO.9
BTT
>2·5=3>2S5
sti9htly discolored; slightly bleached
>5·1Q--4>5S10
discolored;
>10·30--5>10S30
~ellows;
0-2 >2-4
>1·2=2.>1S2 >0.9·9
>4-6 >6·9
>9·90
>9·12
slig 'Ily flexible
5
>1.5-2.0
>0.5-0.75
>1.5-2.0
>30.0-40.0
75-<80
possible stress crack agent; flexible; possible oxidizing agent; slightly crazed
>30· 120=6>30S12O
4
>2.0-3.0
>0.75-1.0
>2.0-3.0
>40.0-50.0
70-<75
distorted; warped; softened; sli{jlt swelling; blistered; known stress crack agent
>120· 240=7>12OS240
3
>3.0-4.0
>1.0-1.5
>3.0-4.0
>50.0-70.0
60-<70
cracking; crazing; brittle; plasticizer; oxidizer; softened; swelling; surface hardened
>240480=9>240S480
2
>4.0-6.0
>1.5-2.0
>4.0-6.0
>60.9-90.0
50-<60
severe distortion; oxidizer and plasticizer; deteriorated
>480·960=9>480· S960
1
>6.0
>2.0
>6.0
>90.0
>0-<50
decomposed
>960=10>960
0
solvent dissolved; disintegrated
* All values are given as percent change from original. ** Percent mechanical properties retained include tensile strength, elongation, modulus, flexural strength and impact. greater than 100%, a value of 200 minus the % property retained is used in the calculations.
***
Due to the variety of information of this type reported, this table can be used only as a guideline.
How To Use This Book
>12-15
>90-900
>15·18
>18-21
>900·9000
>21·25
>25 >9000
If the % retention is
v
eAS Beglstrv NUDlblrs
Chemical Abstracts Service (CAS), a division of American Chemical Society, began the CAS Chemical Registry in 1965. The CAS Chemical Registry is a computer-based system that automatically identifies structural diagrams and assigns to each a unique CAS Registry Number. This number, which has no chemical significance, is then used within a larger processing system to link the molecular structure with its CA index name and other data. Registry numbers, even in the absence of names, therefore furnish an efficient means of substance identification in technical publications and scientific communications. Many non-CAS publications have adopted CAS Registry Numbers to identify chemical substances. PDL provides CAS Registry Numbers for chemicals and plastics used in this volume for two reasons. First is to provide a means of cross referencing like reagents which are listed under different names. For instance, suppose one is interested in the resistance of various plastics to glutaraldehyde. Some information will be found by looking under glutaraldehyde. However, if the CAS Registry Number found in the Appendix is used as a cross reference, it will be found that Cidex 7 and Sporicidin have the same CAS Registry Number as glutaraldehyde. Therefore, one would want to look under these reagent names for additional information. The second reason PDL lists CAS Registry Numbers is to provide a means to find additional information on chemicals and plastics listed in this book. By cross referencing using the CAS Registry Number, a world of information opens up including the ability to easily search the world's literature through computer databases. For this purpose, PDL refers you to: Chemical Abstracts Services, 2540 Olentangy River Road, P.O. Box 3012, Columbus, Ohio 43210 Telephone 800-848-6538 toll free in the continental U.S., 614-447-3663 outside the U.S. Telex 684-2086 TWX 810-482-1608 Telefax 614-447-3751 Cable CHEMABS
How To Use This Book
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Chemical Resistance - Polyamide Thermoplastic Elastomer
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Chemical Resistance - Polyamide Thermoplastic Elastomer
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Chemical Resistance - Polyamide Thermoplastic Elastomer
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Chemical Resistance - Polyamide Thermoplastic Elastomer
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Huls Vestamid E40·S3 Huts Vestamid E47M·S3 Huts Vestamid E62M·S3 Huls Vestemid E40-S3 Huls Vestamid E47M·S3 Huls Veslamid E62M-S3
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100 100 100
63.7 34.9 15.4
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Pebax Pebax Pebax Pebax Pebax Pebax Pabax
Atochem Pebax 2533 Atochem Pebax 3533 Atocham Pebax 4033 Atochem Pebax 5512 Atochem Pebax 5533 Alochem Pebax 6312 Atochem Pebax 6333 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vastamid E62M-S3 Atochem Pebax 2533 Atocham Pebax 3533 Atochem Pebax 4033 Atochem Pebax 5533 Atochem Pebax 6333 Huls Vastamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3
1.1 151uel
ARAL premium
2533 3533 4033 5512 5533 6312 6333
DuPont lytel FN 726; 15.9x305xl mm hose Atochem Atochem Atochem Atochem Atochem Alochem Atochem
ARAL premium
Pabax Pabax Pabax Pebax Pebax Pebax Pebax
9.3 6.9 2.9 27.5 8.6 4.6
97.5 86.5 109.6 32.9 81.4 88.1
100 100 100 100 100 100
DuPont lytel FN 714; 3.2 mm plaques DuPont lytel FN 716; 3.2 mm plaques DuPont lyte' FN 718; 3.2 mm plaques Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M·S3 Huls Vestamid E40-S3 Hu.ls Vestamid E47M-S3 Huls Vestamid E62M-S3
10 6.9 1.9 11.7 8.2 2 29.5 13
89.9 84 94.3 87.3 17.6 92.6 17.2 61.5
100 100 100 100 100 100 100 100
Huls Vestamid E40-S3 Huls Vestamid E47M·S3 Huls Vestamid E62M-S3 Huls Vaslamid E40-S3 Huls Vastamid E47M-S3 Huls Vestamid E62M-S3 Huls Vastamid E40-S3 Huls Vastamid E47M-S3
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Chemical Resistance - Polyamide Thermoplastic Elastomer
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Hydraulic Fluids
Lockheed
Pydraul 150
Hydraulic Oils
Skydrol
Hydrochloric Acid
1 moVI
Isoamyl Alcohol
Isooctane
Kerosine
~
IKOH Baume
FN FN FN FN
714; 716; 718; 726;
3.2 3.2 3.2 3.2
mm mm mm mm
106.3 105.1 108.5 57 50 81.9
100 100 100
Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3
34 22.5 8
50.6 52.6 80.2
100 100 100
71 18.5
12.2 47.3
100 100
Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3
34 degree
Atochem Atochem Atochem Atochem Atochem Atochem Atochem
Pebax 2533 Pebax 3533 Pebax 4033 Pebax 5512 Pebax 5533 Pebax 6312 Pabax 6333
t::l (J)
tS ;:l paraffin
plaques plaques plaques plaques
0.7 0.7 2.8 2.2 2.5 1.4
Pebax Pebax Pebax Pebax Pebax Pebax Pebax
Cll
II:
lytel lytel lytel lytel
Atochem Atochem Atochem Atochem Atochem Atochem Atochem
(J)
ILamp Oils
DuPont DuPont DuPont DuPont
paraffin
0-
.,0: .,I:l
1 1 1 0
Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3
Pebax 2533 Pebax 3533 Pebax 4033 Pebax 5512 Pebax 5533 Pebax 6312 Pebax 6333
~
t"'
66 83.6 63.3 70.5 87.3 43 58.3 87
100 100 100 100 100 100 100 100 100 100
Atochem Atochem Atochem Atochem Atochem Atochem Atochem
@
'tl
153 67.1
1.5 18.5 12.2 5.8 19 12.7 6.2 47.1 24.7 7.8
2533 3533 4033 5512 5533 6312 6333
Atochem Pebax 2533 Atochem Pebax 3533 Atochem Pebax 4033
@
:E i=l
~
r;' en
~ en
<E' ;:s
t""
0: ...
Lockheed H55
...i=l
\t::
Methyl Alcohol
19.8 16 10.2 61.6 27.2 14.3 wilh 50% waler
51.9 50.6 75.1 15.2 42.3 56.1
2 2 3 3
50 50 50 50
Methyl Ethyl Ketone
5 1
58.2 60.3 92.4 36.7 44.9 84.1
28.4 18.6 7.9 48.4 26.5 9.8
Methylene Chloride
100 100 100 100 100 100
100 100 100 100 100 100
53 43 34
Atochem Atochem Alochem Atochem
Pebax 5512 Pebax 5533 Pebax 6312 Pebax 6333
Atochem Alochem Atochem Alochem Atochem Alochem Alochem
Pebax 2533 Pebax 3533 Pebax 4033 Pebax 5512 Pebax 5533 Pebax 6312 Pebax 6333
Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 DuPonl lylel FN 714; 3.2 mm plaques DuPont lytel FN 716; 3.2 mm plaques DuPont lylel FN 718; 3.2 mm plaques DuPont lytel FN 726; 3.2 mm plaques DuPont lytel FN 714; 3.2 mm plaques DuPont lylel FN 716; 3.2 mm plaques DuPont lylel FN 718; 3.2 mm plaques Alochem Pebax 2533 Alochem Pebax 3533 Alochem Pebax 4033 Alochem Pebax 5512 Alochem Pebax 5533 Alochem Pebax 6312 Alochem Pebax 6333 Huls Veslamid E40-S3 Huls Vestamid E47M-S3 Huts Vestamid E62M-S3 Huls Veslamid E40-S3 Huls Vestamid E47M-S3 Huls Veslamid E62M-S3 DuPont lylel FN 714; 3.2 mm plaques DuPont lytel FN 716; 3.2 mm plaques DuPont lytel FN 718; 3.2 mm plaques Alochem Pebax 2533 Alochem Pebax 3533 Alochem Pebax 4033 Alochem Pebax 5512 Alochem Pebax 5533 Atochem Pebax 6312 Alochem Pebax 6333
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Mineral Oils
DuPont DuPont DuPont DuPont
Motor Oils
10W·30
Nitric Acid
1 molll 2.4
91.5
Perchloroethylene
Propyl Alcohol
1·propanol
R 502
Refrigerants
at sal. vap. pres. DuPont ternary blend
~
>l
~
0' til
<S ;:l
t"'
0: .,
.,
>l It::
714; 716; 718; 726;
3.2 3.2 3.2 3.2
mm mm mm mm
plaques plaques plaques plaques
DuPont lytel DuPont lytel DuPont lytel DuPont lytel
FN FN FN FN
714; 716; 718; 726;
3.2 3.2 3.2 3.2
mm mm mm mm
plaques plaques plaques plaques
Huls Vestamid E40·S3 Huls Vestamid E47M·S3 Huls Vestamid E62M·S3 Huls Vestamid E40·S3 Huls Vestamid E47M·S3 Huls Vestamid E62M·S3 Atochem Atochem Atochem Atochem Atochem Atochem Atochem
Pebax Pebax Pebax Pebax Pebax Pebax Pebax
Atochem Atochem Atochem Atochem Atochem Atochem Atochem
Pebax 2533 Pebax 3533 Pebax 4033 Pebax 5512 Pebax 5533 Pebax 6312 Pebax 6333
Atochem Atochem Atochem Atochem Atochem Atochem Atochem
Pebax Pebax Pebax Pebax Pebax Pebax Pebax
Atochem Atochem Atochem Atochem Atochem Atochem Alochem
@
Soap
FN FN FN FN
Ivory, in water
2533 3533 4033 5512 5533 6312 6333
2533 3533 4033 5512 5533 6312 6333
DuPont lytel FN 726; 15.9x305x1 mm hose
Skydrol
15' til
100
lytel lytel lytel lytel
10 10 10 10
2 2
3 3
DuPont lytel DuPont lytel DuPont lytel DuPont lytel
FN FN FN FN
Pebax 2533 Pebax 3533 Pebax 4033 Pebax 5512 Pebax 5533 Pebax 6312 Pebax 6333 714; 716; 718; 726;
3.2 3.2 3.2 3.2
mm mm mm mm
plaques plaques plaques plaques
:[1
@
'~"
Reagent Note
~
n' (J)
tl
Sodium Hydroxide
Conc.
(,,!
solution, 2mol/I
Temp.
Time
POL
Weight
('C)
(clays)
Rating
23
50 50 50 12.5 12.5 12.5
8
0.7 0.7 1.1 2.8 2.2 1
111.4 101.3 104 69.6 66 102.8
100 100 100 100 100 100
50 50 50 12.5 12.5 12.5 7 7 7
8 9. 8 7 7
0.8 0.7 1 1.1 1 1.1
111.4 96.8 109.9 87.3 84.6 93.5
100 100 100 100 100
23
(1) (J)
to· ;:l
,23 , .60
t'"
60
0: .,
.,p
60
Sulfuric Acid
'23
0.5 mol/I
It::
2~,
aqueous solution
Toluene
10 10 10 10 10 10 10 20 20 20 20
.23 60 60 60 ·23'
'2's 23
23.··.· . 23 .
23
23:
.23
23 {.
23
.' ?3 23 23 ;,j!3.
23
r~~
;)'66 ':6' Transmission Fluids
Trichloroethylene
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Dexron ATF
1~., 10Q "100
100 '23'",. 23
9 8 5
5 9
~ 8
2
7 7
8 2 8 6 7
7
7 7 7 7
7 7 7 50 50 50 12.5 12.5 12.5
3 3 3 3 7 7 7 7 7 7 7 50 50 50 12.5 12.5 12.5
Huls Vestamid E40-S3 Huls Veslamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 :~~
. impab stiL,reduced 10,5.3 0'sq'm . little or .no· eiteCI ';;;:;~,~
8 .", 8
7
';'.~
u (-
.";
.;.:
"
severe'attack
'i~~v::en:;~~~CI flUle or no eUecl 21 18 6
8
o 5 7 9 .4
5 8. 4 ,4 5 7
51.9 80.8 91.5
32.9 59.6 77.3
100 100 100 100 100 100
15 10 1 6
8_ 9 8
DuPont lylel OuPont lytel DuPont lytel OuPont lytel seVere attack;
2
::~.:::
2
~.
2
5 5 5 5 ',4
.:. 4>} 6 4
4 4
moderaleeffeci
184.8 102.3 35.1 317 133.7 36.8
:~
Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3 Atochem Pebax 2533 Atochem Pebax 3533 Atochem Pebax 4033 Atochem Pebax 5512 Atochem Pebax 5533 Atochem Pebax 6312 Atochem Pebax 6333 DuPont lytel FN 714; 3.2 mm plaques DuPont lytel FN 716; 3.2 mm plaques DuPont lytel FN 718; 3.2 mm plaques OuPont lytel FN 726; 3.2 mm plaques DuPont lytel FN 714; 3.2 mm plaques DuPont lytel FN 716; 3.2 mm plaques DuPont lytel FN 718; 3.2 mm plaques Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Veslamid E62M-S3 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Vestamid E62M-S3
33 12 4 62.8 37.5 13.7 104 52.7 17.3
Material Note
Resistance Note '.
Impact Strength.
40.5 53.8 85.3 21.5 48.7 68.8
100 100
100 100 100 100
FN FN FN FN
714; 716; 718; 726;
3.2 3.2 3.2 3.2
mm plaques mm plaques mm plaques mm plaques
Atochem Pebax 2533 Atochem Pebax 3533 Atochem Pebax 4033 Alochem Pebax 5512 Atochem Pebax 5533 Atochem Pebax 6312 Atochem Pebax 6333 Huls Vestamid E40-S3 Huls Vestamid E47M-S3 Huls Veslamid E62M-S3 Huls Vestamid E40-S3 Huls Veslamid E47M-S3 Huls Vestamid E62M-S3
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Reagent
:<
Reagent No'te
:;~~.
Water
Cone.
deionized
9
9 9 8
boiling water
Material Note
:":=}{{::::::;::;":
J%),
DuPont lylel FN 714; 3,2 mm plaques DuPonl lytel FN 716; 3.2 mm plaques DuPont lylel FN 718; 3.2 mm plaques Aloehem Pebax 2533 Atochem Pebax 3533 Aloehem Pebax 4033 Alochem Pebax 5512 Atochem Pebax 5533 Aloehem Pebax 6312 Aloehem Pebax 6333
1 1 2
.linl. or no'eff.et
8
8 ,lJ!9derate,elleet iiltl. or no effeet moderate effect little or no .Ileel
5
8 5 8
Xylene
8 7
9
Zinc Chloride
50 50 50 50 50 50 50
@
"tl
po ~
n°en ~
en
t-<
c;: ...
...
I=l tr:
DuPont DuPonl DuPont DuPonl
29 20 4 15
8
8 8
2 8
2 .} 8
}~
lylel lylel lylel lylel
FN FN FN FN
Alochem Alochem Aloehem Aloehem Aloehem Aloehem Aloehem
714; 3.2 mm plaques 716; 3.2 mm plaques 718; 3.2 mm plaques 726; 3.2 mm plaques
Pebax p.bax Pebax Pebax Pebax Pebax Pebax
2533 3533 4033 5512 5533 6312 6333
@ '\:l
P ~
R~.!gent
~ CJl
Acetic Acid
n'CJl
Cone.
Reagent Note
Time.1 (d~yS).
(%) glacial
POL
Rati~g
Material Note
I Welghl '. f[uld ~.as n.~i8 to n9 effe~\ ·\.lIuid has minoito moderate 811eet
8
tEl·
7 7 28 7 7
;:s
t
5 5 5 20 30
~
..,
p
Ie:
:,~.
.... 6 '5
8 3
39 16
85 93
<1 <1
107 128
74
88 100
\:H1;~-::r:·::'-··
.::¥:\" .~:.:
.·.8· 7
96
.-.-
stron~1y swoll~~'
113 112
22··'
.:-}. ~"'-:
fluid has Ihtle 10 no effect
DuPont Hytrel DuPont Hytrel 55D DuPont Hytrel 72D Eastman Eedel DuPont Hytrel 72D DuPont Hytrel 55D Du Pont Hytrel
22
Acetic Anhydride Acetone
'~
Acetylene Acidic Clays Aluminum Chloride Aluminum Sulfate Ammonium Chloride Ammonium Hydroxide Ammonium Sulfate
Eastman Eedel GE Lomod B0100 GE Lamad B0150 GE Lamad B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0100 GE Lomod B0150 GE Lamod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0100 GE Lamad B0150 GE Lomod B0200 GE Lomod B0320 GE Lamod B0500 GE Lamod B0520 GE Lamad B0800 GE Lomod B0852
79 89 85 88 100 96 100 78 94 100 80 92 89 95 86 93 74 88 83 87 100 89 100 78
DuPont Hytrel pigments, lube, additives·pH 4.5 to 5.5
....
:i':::':~id has Iiltle 10 no efle.el
fll~~~Y9
have,;';'fnor elleet
:';;~~~i~h~s,zI?6~Jo~~wite
.lIeet
. . . .:. "ruii~h:snl1l~'\o ;;;'~ffeel ""U
Amyl Acetate Amyl Alcohol
',r'fluld h~'s)xere elleel .,g'!'U]d'hasfu,18ta nO effect
DuPont Hytrel40D DuPont Hytrel55D DuPont Hylrel 72D DuPont Hytrel
o
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..,
I
I
:ri IReagent .' m',~
I
I·'
Reagent Note
I
I
I
I,
I C911 C•.. "'1. T~1T'P. I Tim. e I.. . POL . (%1,
(l$a,y~t, Rating
('C)
i,22
Aniline
Asphalt ASTM 011 No.1
,
8 1 6
.'211'>
7
22
9 8
}'".,
I Welahl Ij(olum~E )'.iislii]lIodulus I flona.tlon I i
93 31
I
9
,,'
1.:'U"
lubricating oil
"
'100 ''100
DuPont Hytrel DuPont Hytrel 550 DuPont Hytrel 720
.< '"
<1 2 2
100 83 94
99 111
2 <1
100 83
109 62
1 2 <1
98 97 79
88 125 148
DuPont Hytrel
101 103 100
DuPont Hytrel40D DuPont Hytrel 550 " DuPont Hytrel72D DuPont Hytrel DuPont Hytrel 720 DuPont Hytrel 550 DuPont Hytrel 5555HS DuPont Hytrel 5556
linle t01\O effect
a
7 7
'.;.',,'dail~in 10 days
8 7
7 13
108 100
105 100
DuPont
. "" """ •.•..• ,.•. ".
.,., ..,. v \ ; rt· '.\ lOa 7 6 5 80 100 .,,'. :j:" " ".,.'"
7
7
10
100
1oo~,.,;,
7
7
10
100
100
.: 100'(
7
7
4
100
100
2
100
100
7···· !
8 11
105 95
109 118
I ! \'j!
8 23
99 78
95 100
107 96
DuPont Hytrel 400 "
11
104 100
101
107 100
DuPont Hytrel 550 EniChem Pibiflex 35M; block copolymer EniChem Pibiflex 40EM; block copolymer
••;.
I
.~
... . .
;!
30
~
.'! . ,
EniChem Pibillex 40M; block copolymer EniChem Pibillex 46M; block copolymer EniChem Pibillex 56M; block copolymer EniChem Pibillex 59M; block copolymer DuPont Hytrel 550
I
1,00' , .
7
2
,;
10
70
50
lPO
7
7
~
20
100
100
EniChem Pibillex 40M; block copolymer EniChem Pibillex 46EM; block copolymer EniChem Pibiflex 46M; block copolymer EniChem Pibillex 528E; block copolymer EniChem Pibiflex 56M; block copolymer EniChem Pibillex 59M; block copolymer EniChem Pibillex PDE56E; block copolymer DuPont Hytrel 550 DuPont Hytrel 720 DuPont Hytrel DuPont Hytrel 720
I
'.
100
7
6
6
90
90
'100
7
7
16
100
100
6
@
"1:l
7
4
90
90
l!:.
n'
7
6
100
100
en
7
4
100
100
~
7
1
90
90
;:l
~
7 7
~
7
13 5
102 92
6
83
102
109 62
Sf u::
I ~
8
;};22'
;
lEi'
I I
f
,',' ' ,
'l.g1;' lS!!
'~,
tl
." ..
,:.... ;;.
"·,C'·.
> :-':"
""8' 7
S'
added
DuPont Hytre' 550 EniChem Pibillex 35M; block copolymer EniChem Pibillex 40EM; block copolymer
'100"
lubricating o i l ' } " -
"
'
".•,'.
~~\~~ 5;n~f~S~tn~st
;"1.00. .
;.~:;
ASTM 011 No.3
Material Note
'~U;d hasJlttle 10 no e.ffect
64 I,.' 88'
oi;;,Lj,'.
21
ASTM 011 No.2
44
I
;, .1il<~,IYJohavemino!effeCI
9 6 8 9 8 5
7 .< 7 '21 21
51 82
. Resistance Note
~"
31
@
~
l=l
....
n''"
'"
DuPont Hytrel55D DuPont Hytrel 5555HS DuPont Hytrel 5556 DuPont Hytrel 5556; wi post added amine antioxidant
~
'" to' ;:l
~
.., ..,
0-
ASTM Oil No.5
7
100
100
2
70
70
5
100
100
4
100
100
2
100
100
100
100
5
85
85
2
90
90
l=l
It:
ASTM Reference Fuel A ASTM Reference Fuel B
ASTM Reference Fuel C
DuPont Hytrel 28 4 9 36
100 102 94 78
84
50 24 9
62 93 99 93 94 97 100 100 92 100 83 100 83 94
67 91
93
104 104 101 96
50% isooctane. 50% toluene 110 94 104
93 94 97 92 99 75
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EniChem Pibiflex 35M; block copolymer EniChem Pibiflex 40EM; block copolymer EniChem Pibiflex 40M; block copolymer EniChem Pibiflex 46M; block copolymer EniChem Pibiflex 56M; block copolymer EniChem Pibiflex 59M; block copolymer EniChem Pibiflex PDE56E; block copolymer
80 86 90 100 86 100 81
DuPont Hytrel 400 DuPont Hytrel 720 DuPont Hytrel 400 DuPont Hytrel DuPont Hytrel 400 DuPont Hytrel 550 DuPont Hytrel 720 GE Lomod 80100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0800 GE Lomod B0852 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852
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~
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en
CD ~
-c m
Reag!!n,
Reagent Note
Cone. (%)
ASTM Reference Fuel C
R~g~9
50% isooctane. 50% toluene
~~h,~nQ~ Weight
"/Retalned
Volume
s~1~~~f~
12
104
.......,.'.
1 0 3 ' < ·••• ".•••
47 105
53 92
89 102
Barium Hydroxide Beer Benzene
IMlijil6"illNe'iiilnor"elleci
JNJ!jM~@J~'9 no efj~cl •. I!pldil~mJniifion\~d~!8Ie eUect
Benzyl Alcohol Borax Boric Acid Brake Fluids
'p"o ;:l
t'""
Bromine Butane Butyl Acetate
anhydrous liquid
Butyl Alcohol
n·butanol
0: .,
.,
l=l
u:
Calcium Chloride
400 550 400 550
DuPont Hytrel DuPont Hytrel 400 DuPont Hylrel 550 DuPont Hytrel 720
DuPont Hylrel
lIuld has minor 10 mOd.e.rate eileci
DuPont Hytrel 400 DuPont Hytrel 550 DuPont Hylrel 720
.,:.
2 18 11
108 82 116
91 80
.u"
ha~iiiil~lo no ~lleCI
/12 113 100
DuPont Hytrel 400 DuPont Hytrel 550 swelled should riOI be used since they are . d~lrlm~nI8.llo Hytrel
cadmium based color pigments
8
BD100 BD150 BD200 80320 BD500 80520 BD800 BD852 BD520 BD800 BD852 BD100 B0150 B0200 B0320 B0500 B0100 B0150 B0200 B0320 B0500 B0520 B0800 B0852
likely'lo ha...e severe eUect fluid has little to JIll, effect
.J,uid
Butyrolactone (y-) Cadmium
Hylrel Hylrel Hylrel Hytrel
GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod
91 81 100 92 98 98 100 87 91 100 85 90 88 96 84 100 87 82 98 83 100 93 100 58
?6' VI
tEo
DuPont DuPont DuPont DuPont
Eastman Ecdel DuPont Hytrel
~
o'VI
Material Note DuPonl Hylrel 720
)( 'li~;d lias little'to no elfect !lti~tlii~in~; 10 mod~r8ie ell.eet 88 31
@
Re~istance ~ote
Elongation,'
.!(!iI~~~;!\W~19 .no~~ecl ....
Eastman Ecdel DuPont Hytrel
i:i ~
t
Reagent
Fi' VI
~
VI
15' ;J
I, .
I
@
'tl
Reagent Note
Cone.'
Calcium Hydroxide Calcium Hypochlorite Carbon Bisulfide
tl:
'('C)
5
.,22''''',. ',"'."22/
I
'22,.
il
,8 ';'8
22
7
2~
7
Chlorine
dry gas moisl gas
Chloroacetic Acid Chlorobenzene Chloroform
22·.
.
',.1;81)' to ha~e mlnQr eUecl ' :~(~~~;~~;i'mjan:mOdeiale '~"
~ 7 32
109 94
69
Algerian
7
8
7
7
6 19
104 95
80
112 94
6
22,
2"
7
8
22' 22 70.
8 8 8
3
-.-.-.~.-.-.-.-.-
diesel oil
28
~~."
DuPont Hylrel 720 DuPont Hylrel 550
.
22 ';23
28
0
'f1uki'h¥.l11lno(l51.Rloderate eUecl jiiiid'hasseyere ellect I ffJld has flltle to no effect ;' . :'~Ia;lic is;tain,ed by reagenl <1 <1 <1
101 90 98
102 87
110 102 94
,,
"
DuPonl Hylrel
::,'
21
108
"
101 fWid has
DuPont Hytrel 400
I~Ue
to no ellecl ~trongly swollen
.fluid has fdUe 10 no elleci 12 <1
110 98
83
97 112 ·······im~MW~~
"~
30
90
5
90
90
25
90
100
100
100
6
5
90
90
100
6
16
90
100
\:\:l~ ~ ~~{\t:: "'
?.
;>;;,-~
DuPonl Hylrel Eastman Ecdel
!
DuPonl Hylrel DuPont Hylrel 550 DuPonl Hylrel 720 Eastman Ecdel
.................~;;;:;::};~::; ...
"tJ
o
Easlman Ecdel DuPont Hylrel 720 DuPonl Hylrel 400 DuPont Hylrel 550
,::'::',-,"
6:,:
'<
DuPont Hylrel
:.:.:.:;~
-:::
6
""6'"
DuPonl Hylrel 400 DuPonl Hylrel 550 DuPonl Hylrel72D
"
8 7 9
DuPonl Hylrel
.Uuid hes severe effect
3
7 7
100.,
DuPont Hytrel 400
"
8
22
)
DuPont Hytrel 550 t':~
1I~,i'ly to heve severe eUect
9 9 9
22
22
DuPont Hytrel 400 DuPont Hylrel 550 DuPonl Hytrel 720
3 2 2
22.
Dibutyl Phthalate
Uuid has minortO'moderate eUect
,3
22
23
DuPonl Hylrel 400 DuPont Hytrel 720
ffl!f~M~li!!''''!9:no effect 110
5
Copper Chloride Copper Sulfate Cottonseed Oil Crude Oils Cyclohexane
.;" lIui!! has seyere effect fluid has fillle to no effect
~,,:,.
78
3
DuPonl Hytrel
109 94
83
3
~:~.u
"
40
7 7
DuPont Hylrel 400 DuPont Hylrel 550 DuPonl Hytrel 720
eUecl
fluid tia~ IdUe to no eUect
"6
22"""
22
DuPont Hytrel
';c!rui9~~~,~tl'~t~.no effeet
8 Wesson, all vegetable
Maferial Note
.
7
22.
0
2 8 8 6
,22 22 22,":
22 22
Dichloroethane (1,2 Diesel Fuels
...
6 8
2{
Chlorosulfonic Acid Citric Acid Coffee Cooking Oils
.
"6
22 ethylene glycol monoethyl elher acelale
:~':::::'"
6"
,22
2~ 22
'~esistanc~ Note
welg;;1 VOlumi.(I:' Tenlile "llIodulu,"Elon 91110n ",,;;, Strength
Rating
1
'•.22"':' 22:·;
Cellosolve Acetate
I,
% Retained;,
7
22/
Castor Oil
I
8 ~
22..:....
Carbon Dioxide Carbon Monoxide Carbon Tetrachloride
,POL
Ti'me
",. (clays)
2it
t""'
.,0: .,p
Temp.
(~l
'0/0 'Change
EniChem Pibiflex 35M; block copolymer EniChem Pibiflex 40EM; block copolymer EniChem Pibiflex 40M; block copolymer EniChem Pibiflex 46EM; block copolymer EniChem Pibiflex 46M; block copolymer
en
CD ..... -l
"tJ
m
Chemical Resistance - Polyester Thermoplastic Elastomer
01
Chemical Resistance - Polyester Thermoplastic Elastomer
""U
o
0)
'< CD
rn (j)
....
--I
""U
m
diesel oil
',100
Diethyl Sebacate Diethylene Glycol Diisocyanate Toluene (2,4-) Dimethylformamide
5
90
90
1
7
100
100
1
6
100
100
EniChem Pibiflex 59M; block copolymer
5
90
90
EniChem Pibiflex PDE56E; block copolymer
97
DuPont Hytrel 55D
:"'~:
7 7
~, ,.", ":B";o; ".;;
22
7
)6',
22 .
7
:7
19
2~
1
101
6
110
39
85
82
111
98
76
94
79
104
7
22
DuPont Hytrel 55D Uuid lias lillie
3
121
91
112
,..B"".",..
22
3
22
6';'"
DuPont Hytrel 40D
•••••••••••••
,.;.,B 7
DuPont Hytrel 72D
...... , ..".
5 herbicide, metolachlor
EniChem Pibiflex 56M; block copolymer
.
DuPont Hytrel
22 . "22
22
EniChem Pibiflex 52BE; block copolymer
'~@t~i?g
22, .
Dioctyl Phthalate Disinfectants Dual Epichlorohydrin Ethyl Acetate
1
to no';;',:ettecl
DuPont Hytrel DuPont Hytrel 55D
plas1ic is. stained by reagent ..;
;;
Eastman Ecdel
. lIuicih.~$ !illie to.,nOef!eW;,t
.
DuPont Hylrel
!!Mlt\gM)(e~evere ellect "jliliif~afmiiiOdi)iiioderate sffect .
DuPont Hytrel 40D
.. ~::;:.:.~.:
.. w
DuPont Hytrel 55D DuPont Hytrel 72D Eastman Ecdel
Ethyl Alcohol
22. 23
in water
.f1ilill has, littliltii.j)o et/ect;., .. ~1I9his;"#liing ?'h,
:j:;t!
28
DuPont Hytrel Eastman Ecdel
50
Ethyl Chloride
IIUllliia:s1j1liloiloiji9!lerale;~lte,ct
22',
DuPont Hytrel 72D DuPont Hytrel 40D DuPont Hytrel 55D
..
Ethylene Dichloride
22
114 ~,.;.;
::::"
:'.::::.-
"':",. ,,::~ .;.......>:-".> '.
<2pt
,",
DuPont Hytrel 40D DuPont Hytrel 55D
;'}2t"
Ethylene Glycol
,})i
DuPont Hytrel 72D
tl}'·,;
U~~I~liaslli~i~;1O'noe~~~\;.//H <1
@
"1:l
Ethylene Oxide Ferric Chloride Fluosilicic Acid Formaldehyde Formic Acid
S~
n' Cb
CIl
tE' ;:l
t'"'
.,
p
u:
Freon 11
~"
,"
82
<1
101
86
<1
100
102 94
\:.:
114
;';~O';islblechange .:::::::::~
\B...· "c'
'::':~:~~::~~1::,:,
fluid: lias Ii\lle tei' nc(eflect ..
DuPont Hytrel DuPont Hytrel 40D DuPont Hytrel 55D DuPont Hytrel 72D Eastman Ecdel DuPont Hytrel
40 concentrated
57
47
49
94
"
31
82
74
89
2
71
86
114
10
2
100
88
109
25
5
72
85
110
10
'tl" 0: .,
22,
76
25
4
95
86
105
50
11
58
66
108
50
8
84
70
111
DuPont Hytrel 40D ~ ~
"';:~
:~
,.
\~;
DuPont Hytrel 55D
t
DuPont Hytrel 40D DuPont Hytrel 55D DuPont Hytrel 40D DuPont Hytrel 55D DuPont Hytrel 40D DuPont Hytrel 55D
(
DuPont Hylrel
,
@
Ei' ~
Ul
tl
Reagent Note
Re~9,ent
r;'
,
..
Conc.c' Temp. (%r'-
.,
.,P <.c:::
I
Volume
Freon 114 Freon 12 Gasoline
T~~;lIe IlolodUlustEIO~gallon .. '.
22;.,
7
7
19
99
67
107
22
7
,-8
7
102
91
106
2.2
7
9
<1
106
5.5.
8
22
:ll
. ..
·22 28
60
7
r7
60'
7
" 7
60
7
7
flO
7
60 60 60' 60,.
DuPonl Hylrel 400
,::
DuPonl Hylrel 550 ,.
110
,
'~:.,
7
,. '
.
"':u
.
7
v:,:
Eastman Ecdel ,.
15
lOa
100
EniChem Pibiflex 35M; block copolymer
4
100
100
EniChem Pibiflex 40EM; block copolymer
13
100
100
4
100
100
10
100
100
"
2
100
100
7
5
100
100
7
4
100
100
7
2
100
100
EniChem Pibiflex 40M; block copolymer
,
EniChem Pibiflex 46EM; block copolymer EniChem Pibiflex 46M; block copolymer
'.
~.
8
.
.. ..
'
~"
~.
DuPonl Hylrel
"'\
4
, 7
DuPont Hylrel72D
fluid lias little 10 no elfect
.80,
23
Materia.! Note
." ~.
,';.'
)8
22
.1'" Resistance NQie~
Slr8~.9lh
(days)
":'::":i"
Freon 113
Ul ~' ;:l
t
, Weight
. Riiting
I'C) ','
."
C1l
0-
POL
Time
."
%Retalri~d
% Change
'I:l
EniChem Pibiflex 52BE; biock copolymer
,
:
":-:.
'.'
60'/'
>8
70
Glues Glycerin Grape Juice Heptane Herbicides Hexane Hydraulic Fluids
22 '. 22 23
28
"
resists staining
Easlman Ecde'
6
slighl"swelllng
"
8
fluid has little to no elfect
DuPont Hylrel
n-Hexane
22
8
Pydraul312
22
7 28
Houghto-Safe 620
~3 70
6 ': 8
7
9
70
14
Pydraul312
100
7
.. ..
100 "121 121
14
Harmony 41
100
7
9
3
121
7
9
,
4
150...
7
3
i· ,
-3
35
8
..
90
<1
95
9
<1
95
3
110
50
7
7
31
7
6
40
6
41
80
',:
.
" 40
78
,.
112
DuPont Hytrel40D
no visible change ;
Easlman Ecdel
96
DuPont Hytrel 550
103
..
44
104
DuPont Hylrel 400
90
98
91
DuPont Hylrel 550
77
93
91 101
..
101
98
.-'"':
104
103
2
20
22
6, .
25
25..
7
9
25
25
7
9
95
25
25
7
9
lao
25
25
7
9
100
"'U
25
25.
7
9
100
-<
25
25
7
9
25
25
7
9'""
en
DuPont Hytrel
".
8
22
(!)
EniChem Pibiflex; block copoiymer
fluid has little 10 no elf eel
22'
.
o
excelle!'1 resislance till ,.70 .deg-C
Dual, Melolachlor
.
Hydrazine Hydrochloric Acid
EniChem Pibiflex PDE56E; block copolymer
.8
..
Hydraulic Oils
8
EniChem Pibiflex 56M; block copolymer EniChem Pibiflex 59M; block copolymer
.. .. .. .. ..
i'
.,.
~: .
DuPont Hytrel
fluid has severe e!fect
..
fluid has minor 10" mo~erale effect 95
~,.
~
95
.'.
100
GE lomod 80100 GE lomod 80150 GE lomod B0200
.
GE lomod B0320 GE lomod B0500 GE lomod B0520
:.
,,'
GE lomod B0800
(j)
....
-i
"'U
m
Chemical Resistance - Polyester Thermoplastic Elastomer
-.,J
Chemical Resistance - Polyester Thermoplastic Elastomer
"1J
o
~
00
'< CD
en
(j)
"'"'
--i "1J
m
"
~i~le:.~
Reagent Note
25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 37
Hydrochloric Acid
Hydrocyanic Acid Hydrofluoric Acid
Cone. ('Yo)
w ••••••. '.
anhydrous 48
75
Hydrogen Hydrogen Sulfide Inks Iodine Isooctane
Isopropyl Alcohol Jet Aircraft Fuels
@
'i:l
SCI> ..... c:;. CI>
~ CI>
~.
;:l
t"-
o:., .,p
Lactic Acid Linseed Oil Lipstick Lubricating Oils Magnesium Chloride Magnesium Hydroxide Margarine Mercuric Chloride Mercury Methyl Alcohol Methyl Cellosolve
I Temp, 1Time ('C)
Rating
7 30 30 30 30 30 30 30 30 90 90 90 90 90 90 90 90
7 9 9 9 9 8 9 7 9 8 7 9 6 9 6 9 5
2~'
25 25 25 25 25 25 25 25 25 25 25 25 ~: 25 25 25 25' 22' ,':e' 22'" 2? 22 , 22 22 22
Ii
% Retained
we,gh'l",::.',~,:: • '•. • ~~:~~~'~~::I~:,
POL
,,(days)
Resistance' Note
Material Note
89
GE Lomod 80852 GE Lomod 80520 GE Lomod 60800 GE Lomod 60852 GE Lomod 60100 GE Lomod 60150 GE Lomod 60200 GE Lomod 60320 GE Lomod 60500 GE Lomod 60100 GE Lomod 60150 GE Lomod 60200 GE Lomod 60320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 DuPont Hytrel
94 100
97 98 91 99
88 98 90 88
96 81 100
82 100
76
2
,. ,!,~mM~~~t~t~~!i~~!
'"1i~mt@@nfuJiWM!f~C!,'••••••,
t'
"'!i~,jfiohav~~n~!e
'3'
eileel'"
3 3 8 8 5
black
Eastman Ecdel
5
isopropanol JP 4
Kerosine Lacquers
% Change
lacquer solvents
22 22 22 22 22 22 22' 38
':,
7 7 7
6 9 8 9
DuPonl Hytrel DuPont Hytrel 400 DuPont Hytrel 550 DuPont Hytrel 720 DuPonl Hytrel
7 7
8 8 9 8
~ 22," 22 22 22 ' 22
DuPont Hytrel
7 I
red
.:?? " 22.,
.,22 '22", 22 2? 23 ?3,'
DuPont Hytrel72D
28 28
6 6 8 7 7 8 8 7 '7 8 7 8 8 6 6
DuPont Hytrel 400 DuPont Hytrel 550 DuPont Hytrel 720
~
DuPont Hytrel
;~sJiMs1~jnir\g
Easlman Ecdel DuPont Hytrel
fluid hasl~llelo;;~:~flact
li~ein~fi~~;';'l~or~ifeci ' ~
. ::::'
.". u
<:~
"0··
~
,? ;~slsl1'Maitl;ng (]illfy t~, ha1(~ minor effect
Eastman Ecdel DuPont Hytrel
fluid lias 'Unle to no'effect
•
~1;9hl'~W~m~1l e' ..
~:
:
Eastman Ecdel
@
"tl
S ~
Reagent
en
~
Reagent Note
Resi~t~nce Note
: Cone; (%)
r;-
Methyl Ethyl Ketone
(Pllj~ has l1It1eJ~noeJiecl
8 6
en
iU~jd'ha,sminorlo mo.d~(al~ ellect
tE-
/.\76:.
0: ..,
'S 6' 6 7 9
..,
100
9
100
S. 9
100
9'';
100
;:s t-'
..,
p
.25'
tl::
;'25 ".25.
2S> .25
Methyl Ethyl Ketone
Methyl Isobutyl Carbinol Methyl Isobutyl Ketone
75 84 84 ~:~::
88 86 78
6
82
~
84
8
91
9 '8
97 100
Ii
80
71
8
91
9
96
3
68
7
88
9 5
100 78
Eastman Ecdel 6
109
112
42
57
81
81
19
108
80
97
Methylene Chloride a a a 60
a 86 98 69 91 93 64
a a a
"'U
o
'<
CD
au Pont Hylrel 720 DuPont Hytrel 400 DuPont Hytrel 550 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852
90
9 4·
Material Note
53
a a
en
DuPont Hytrel 720 DuPont Hytrel 400 DuPont Hytret 550 Eastman Ecdel DuPont Hytrel GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0100
(j)
.....
-i
"'U
m
Chemical Resistance - Polyester Thermoplastic Elastomer
(C)
Chemical Resistance - Polyester Thermoplastic Elastomer
""0
o
!'J
C>
'<
en
'o/JS~~~~~. POL Temp•. '1 Time r e) ·.··JMy~h •. . Rating !iI;~J9ht I.:olume
CD ..... -i
""0
m
~eagent
.
Reagent Note
Cone. ('to)
;2$
Methylene Chloride
2.5 25"..
25 .••. 25 ·25 25
Metolachlor Mineral Oils Motor Oils
herbicide, Dual SAE10
22
SF.SE.CC
.23 25 25
,
25 25 25 25
••••. ;!~
Motor Oils 25 25 25
25 25
25 25 25
25' 25
°'25 . 25 25
25 25,·
~
'"t l ~
to· '" ;:l
Nitrobenzene Nitromethane
t""'
0: -, p -,
It:
red fuming
10 30 60 70
n'
Oils
I
0
1
0 18
5 1
0 ' 91 77 39
'
:r
28 7
..
30 30 30 30 30 30 30 30 90 90 90 90 90 90 90 90
~.
22 22 22 22 22 22 22.
GE Lomod 80200 GE Lomod 80320
. ,.... . ~
GE Lomod GE Lomod GE Lomod GE Lomod fluid has little to no effect
DuPont Hytrel
no visible change
Eastman Ecdel GE Lomod 80100 GE Lomod 80150 GE Lomod 80200 GE Lomod 80320 GE Lomod 80500 GE Lomod 80520 GE Lomod 80800 GE Lomod 80852
100 95 100 100 100 94 100 96 97 100 98 98 98 100 96 100 96 95 100 99 100 100 100 77
9 9 9 9 9 9 9 9 9 9 9 9 9 5
GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod GE Lomod
8
jiliistiiHs$iiimed by reagent fluid has little to no effect
6
fluiii~as:mii\orto'iiioderale elleel
80520 80800 80852 80100 80150 80200 80320 80500 80100 80150 80200 80320 80500 80520 80800 80852 Eastman EcdeJ DuPont Hytrel
OuPont Hytrel 400 DuPont Hytrel 550 DuPont Hylrel 720
6
8
lIuid has linle to no effect
2
lIuld'has severe eflecl fluid has minor to moderale effect tluid has severe eflect
6 2 2'
5 4
DuPont Hytrel
,
2 2 8
80500 80520 80800 80852
."
8 9 9 9 9 9 9 9 9 9 9
,,
7 7 28
Material Note GE Lomod 80150
o
o
.~I
7 7 7 7 7 7 7
Resistance Note
Elongation
l
22.
@
P
Tensile Illodulus Strength
5
Mustard Naphtha Naphthalene
Nitric Acid
[
22.' 22
115'
"tl
90 90 90 90 90 90 90
% Retained
33 17
65 100
59 89
103 109 s!'elled
········9~R¢!~s~\~%Mnl)~deg·C
DuPont Hytrel 400 DuPont Hytrel 550 Eastman Ecdel EniChem Pibiflex; block copolymer
I
~'G~!riije
© "0
~ ~
";:.~.,
Reagent
Reagent Note
r;'
Conc.
Temp.·
Time
('10)
('C)/
(days)
C/)
tl C1l
C/)
cEo ;:s t"'
Oleic Acid Oleum Palmitic Acid Perchloroethylene
20-25
8
2~ :""22
2
22 22 22"
tr::
22
Petroleum Oils
Ursa Oil
22 100
Phenol Pickling Solutions Potassium Dichromate Potassium Hydroxide Pyridine Sea Water Shoe Polish Silicone Grease Skydrol 5008
17-20% nitric acid, 4% HF
22. 22
1 5
58
98
84
100
100
110
93
110
104
~as mi';.~.r to mQ
DuPonl Hytrel40D DuPont Hytrel 550 .",
,,{,,:,~.,
DuPonl Hytrel 400
, ;.;
7 7
25;
7
"'9
lS
'25
9
15
25
15
7
8 9 7
15
25 25 25
7 7 7 30
1
15
2S
30
15
30
15
25 25 25
15
2S
30
15
25 2~:
30
9 9 9 9 9 1 9 l)" S 9
30 30
30
90 90 90 90 90 90 90
o
Du Pont Hytrel
fluid has flttle 10 no effect fluid
ha~ litt!e to no ,Uect
Eastman Ecdel
'resists slainin9 ·nuld has Iiltle 10 no effect"
95
DuPont Hytrel
.
80 <10
8 '8 7 28
.>
likely t; ~~v. severe effect
72
8
DuPont Hytrel 720
lilce~ 10 haye minor effect
<10
, 8
DuPont Hylrel 400
104
112
32
15
15
73 96
22
7
-<
;
81
32
2
25 25'
15
j
102
"8 6
15
15
fluid 10
8 8
7
i
,
DuPont Hytrel 550
:'8
7 7
.
ttuid has,~'evere elfeci
.S
9 9 9
"'U
en
8
25
15
(l)
8
15
15
o
4
7,
23
15
>: \'f1uld has little to 0'0 ~ilect
\
9
10
15
DuPont Hytrel
Uuid has seV"6re effect
fluid has severa elfeel
22
15
fiuld has jitU~.lono effeel .
'Iikely to liava severe effect
22
15
Material Note
2
22
15
Resistance Note
3 7 8
22 .
15
Tensile Strength
22
~oo
Sodium Hydroxide
7 7
black
10
'
6 7 7 7
2~ 22
20
.::::::]~.
'2:
22
solutions
WelghiN9i~;;;~ ~~~
22
•• ...•• \!21
Soap Sodium Chloride Sodium Dichromate Sodium Hydroxide
j8 ·2
22
aircralt hydraulic fluid
..
2?
~:>,f ./····22:
.,0: .,>:l
POL Rating
t.~
y'
nuld has ifltle )0 no 'ffect
..
DuPont Hytrel 550 DuPont Hytrel
.....rn(llly. lohav!. ~'!l%el'eFl· <1
109
DuPonl Hylrel72D
110 no visible change
95 97 97 97 97 90 97 89 37 100 96
Eastman Ecdel GE lomod BOI 00 GE lomod B0150 GE lomod BD200 GE lomod BD320 GE lomod B0500 GE lomod B0520 GE lomod B0800 GE lomod B0852 GE lomod 80520 GE lomod B0800 GE lomod B0852
100
GE lomod B0100
94
GE lomod B0150
100
GE lomod B0200
23
GE lomod B0320
100
GE lomod B0500
100
GE lomod B0100
75
GE lomod B0150
100
o
GE lomod B0200
.:;"<
GE lomod B0320
.9
98
~O
o
GE lomod B0520
100
GE lomod B0800
.>ll
GE lomod B0500
~
--l
"'U
m
Chemical Resistance - Polyester Thermoplastic Elastomer
N
-'-
Chemical Resistance - Polyester Thermoplastic Elastomer
"'U
o
N N
-< en
(j)
....
-I
"'U
m
Reagenf :.~>/:::: .: .: . Sodium Hydroxide
15 20 20 20 20 46.5
Sodium Hypochlorite bleaches
Soybean Oil Stannous Chloride Steam Stearic Acid Styrene Sulfur Sulfur Dioxide Sulfuric Acid
7 7 7
<1 <1 <1
100 95 90
"is" ~
ri' C/)
1? C/)
tEo ;:l
t""
.,0: .,~
It:
103 106 104
Eastman Ecdel DuPont Hytrel
15
molten
-
gas liquid fuming, 20% oleum <1 <1 <1 <1
7 7 7 7 28
102 110 91 92
74 100
110 117 100 106
DuPont Hytrel 72D
" DuPont Hytrel 40D DuPont Hytrel 55D Eastman Ecdel DuPont Hytrel
-
10
'I~~)I(
'JJi;~j¥i~#~W;~liii(!i!~~ii;·
T
" DuPont Hytrel 40D DuPont Hytrel 55D DuPont Hytrel 72D
Toluene
@
77 95
5 5
10 20 20 20 20 <50 >50
Sulfurous Acid Tannic Acid Tartaric Acid Tetrahydrofuran
.;···."8·'.···'" .,
GE Lomod B0852 DuPont Hytrel DuPont Hytrel 40D DuPont Hytrel 55D DuPont Hytrel 72D DuPont Hytrel
"
80 87 90 89 68 89 100 80 99 100 80 78 89 89 91
DuPont Hytrel 40D DuPont Hytrel 55D Eastman Ecdel GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0520 GE Lomod B0800 GE Lomod B0852 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320
@
:.,
.
~(;~'!ri.ge . . . . . . . . '. ~ . B~~'!.!r.~~
"1J
P ~
n'
'~" '" <E'
Reagent Note
Fleagent
Conc.
Temp.
Time
('1.1
('CI
(days)
POL Rating
25
30
9
Wel~lllrV~i~;;;;
Toluene
25· 25
:-,.
100
90
1
43
90
2
52
5
90
..,o: p ..,
t-
25
90
4
74
25
90
9
100
25
90
6
80
lC::
25
90
9
25.-.
90
4
22
7
6
Toluene Oiisocyanate Tomato Juice Transmission Fluids
mixed isomers
CO
7B
,
,
, 67
GE Lomod B0800 GE Lomod B0852 DuPont Hytrel 550
90 ...•.. .. r~.~I~I~ ~!aJnln9 no visible change
7
GE Lomod B0200
GE Lomod B0520
8 '
;
GE Lomod B0500
73 97
GE Lomod B0100
GE Lomod B0320
100 41
,
GE Lomod B0150
,, ,
8 7
,.
Eastman Ecdel
,
"
5
109
130
5
104
100
"
1
97
70
DuPont Hytrel 720
DuPont Hytrel 550
100
7
9
121
7
8
"
1.21 121
7
8
2
98
74
"
type A
7
8
6
110
109
DuPont Hylrel 550
type F
121
7
6
101
103
automatic
150
7
9 9
2
101
96
150
7
9
150
7
7
type F
150
7
6
type A
150.
14
6
trilluralin
Treflan
hot
en
,
type F
"
Triethanolamine Trifluralin Trisodium Phosphate Tung Oil Water
[16%;"
..• GE Lomod B0500
,.
automatic
type A
Treflan Trichloroethylene
~
28 type A
'<
Material Note ...
25
o
Resistance Note
~
;:l
"'U
"'
····Tenslle ··IU~du;~~II:l~~gauo~ Strenglh .:
,
., I
2
99
94
8
105
123
8
92
131
9
60
B9
. ,
..,
" DuPont Hytrel 720
"
.,
DuPont Hytrel 550
~
" "
22,
6
fluid has mlpor 10 mOderal.e effe~t
DuPont Hytrel
22
2
lIuld has severe effeci
DuPont Hylrel 400
"
DuPont Hytrel 550
22
2
22
6
,.
tluid has minor to moderate elfect
DuPont Hytrel 720
22.
7
6
67
99
22
7
8
25
98
22
7
0
dissolved
DuPont Hytrel40D
22
2
lIuid has s,evere effect
OuPonl Hytrel
2?:... 22
6
ffuid has minor to moderate effect
" "
,
8
77
106
DuPont Hytrel 550
93
DuPont Hytrel 720
I
lIuid has tillie 10 no elieci
22
7
likely 10 have minor elfect
22
8
lIuld has lillie to no ellecl
23 66'
28
8
7
7
B7
,
" "
nO visible change
Eastman Ecdel GE Lomod B0100
" " " " "
66 '66
7
7
87
GE Lomod B0150
7
9
97
GE Lomod B0200
66
7
9
100
GE Lomod B0320
66
7
9
100
GE Lomod B0500
66
7
9
95
"
66
7
9
100
"
66 66·'
7
9
97
30
9
98
66;;
30
100
30
9 9
100
30
5
77
66'
30
6
80
66
30
8
90
" " " " " "
6€! 66
:~
GE Lomod B0520
. ,
GE Lomod B0800 GE Lomod B0852
\
GE Lomod B0520 ~
,
,.
GE Lomod B0800 GE Lomod B0852 GE Lomod B0100
I
,
, ..
GE Lomod B0150 GE Lomod B0200
CO ...... -l "'U
m
Chemical Resistance - Polyester Thermoplastic Elastomer
'" W
Chemical Resistance - Polyester Thermoplastic Elastomer
IJ
o
'" ~
'< CD
!a.
CD ...... -I
IJ
m
99 100 68 74 67
.".,
Water
d:d
·····:·6
fluid'has m)nor'lomOdaiB1a e,ieti::·
:0:/100,·. ,....
"·'\2','
flUid -haiseY&r' affect;
..'<100{ .", ,........
: ;.;.:.:.:.. -... -..:;.... :.;.:'_.,.-.
:··:~::,::r::··:·'·
:/:::::::~::~:
Xylene
86 86 90 68 93
'l5~}
'i~r:.)
...." .
:-.::::~:::
":-:'
good
2
90
90
4
50
50
2
90
90
6
60
40
1,5
90
90
5
50
40
1.5
90
90
90
90
80
80
9
6
,i\~~! 36 13 88
Zinc Chloride
@
"1:l
S
'" n' .....
1?'" ';:s" tE' t'"
0: ... p
...
It::
108 99 57
77 75
97 101 74
:fsi~ft~~m~~~~*f~:i(~llar
GE Lomod B0320 GE Lomod B0500 GE Lomod B0100 GE Lomod B0150 GE Lomod B0200 GE Lomod B0320 GE Lomod B0500 GE Lomod B0520 GE Lomod B0800 GE Lomod 80852 DuPont Hytral DuPont Hytrel EniChem Pibillex; block copolymer EniChem Pibiflex 35M; block copolymer EniChem Pibiflex 40EM; block copolymer EniChem Pibillex 40M; block copolymer EniChem Pibillex 46EM; block copolymer EniChem Pibillex 46M; block copolymer EniChem Pibiflex 52BE; block copolymer EniChem Pibillex 56M; block copolymer EniChem Pibillex 59M; block copolymer EniChem Pibillex PDE56E; block copolymer DuPont DuPont DuPont DuPont DuPont DuPont
Hytrel 40D Hytrel 55D Hytrel 72D Hytrel 55D Hytrel 72D Hytrel40D
DuPont Hytrel
25
Chemical Resistance - Styrenic Thermoplastic Elastomer %chaog:
.:~
~eag!lnt~ Acetaldehyde Acetate
Weight,
F!eagent .Note
low molecular weight
Acetic Acid 2
>90
2
>90
Acetic Anhydride
Shell Kraton 01101; 0.25·0.3 mm Hlms Cone. Pol. C-Flex Shell Kraton 01101; 0.25-0.3 mm films Cone. Pol. C-Flex
Acetone Acetonitrile Acetyl Bromide Acetyl Chloride Air Alcohols Aliphatic Hydrocarbons Alum Aluminum Chloride Aluminum Sulfate Ammonia Ammonium Acetate Ammonium Carbonate Ammonium Chloride Ammonium Hydroxide
liquid or gas
3.4
>90
Shell Kraton 01101; 0.25-0.3 mm Hlms
100
Cone. Pol. C-Flex Shell Kraton 01101; 0.25-0.3 mm films
Ammonium Nitrate 50
0
Ammonium Phosphate Ammonium Sulfate Amyl Acetate Amyl Alcohol Amyl Chloride Aniline Aniline Hydrochloride Animal Oils Antimony Salts Aqua Re la Aromatic Hydrocarbons Arsenic Salts Barium Salts Beer Benzaldehyde Benzene Benzenesulfonic Acid Benzoic Acid Benzyl Alcohol Bleach Boric Acid
Cone. Pol. C-Flex
3.2% volume alcohol
0.5
Shell Kraton 01101; 0.25-0.3 mm films Cone. Pol. C-Flex
bleaching liquors 3.1
Bromine Butane Butyl Acetate Butyl Alcohol
100
0
100
Shell Kraton 01101; 0.25-0.3 mm Hlms Cone. Pol. C-Flex
butanol
But ric Acid Calcium Oxide Calcium Salts Carbon Dioxide Carbon Disulfide Carbon Tetrachloride Chlorine
dry wet
.,
Chloroacetic Acid Chlorobenzene Chlorobromomethane Chloroform
© Plastics Design Library
Styrenic TPE
26
Chemical Resistance - Styrenic Thermoplastic Elastomer
;.-,'
/ Re~!stancllNote' Chlorosulfonic Acid Chromic Acid Chromium Salts Copper Salts Cresol Cyclohexane Cyclohexanone Dlacetone Alcohol Dlmethylformamide Ethers Ethyl Acetate Ethyl Alcohol
a.c~eplable lor. use {"
Hydrogen Sulfide Hypochlorous Acid Iodine Kerosine Ketones Lacquers Lactic Acid
Styrenic TPE
Conc. Pol. C-Flex
II
: ~:.• nOI'~ccepta.ble :'" ":. -,
high aromaticity
,
:»~l
········a§ceptaiiie·lor·lIse , ...
dextrose
water based "Ie;;ing recommended : before using '" acceptable lor Use .
8
8
concentrated medium concentration
8
8
concentrated dilute
testlng)ecommended :" bei.ore·.lJsing .. ~ot accepiabie 'accepiableioitis8' .,: 001 acceptable' '. acceplable fot use..
and solutions water solubles lacquer solvents 3.8
Lead Acetate Linseed Oil lithium Hydroxide Magnesium Chloride Magnesium Sulfate Malle Acid Manganese Salts Mercury Salts Methane Methyl Chloride Milk
.
........ tQstiiilii~comrnenllell . belorQ'Uslng , ac'cepl$ble,for use lesting reco'mmended belole using acceptable lor use
non-aromatic
Hydrocyanic Acid Hydrofluoric Acid Hydrogen Peroxide
~
ethanol
Ferric Chloride Ferric Sulfate Ferrous Chloride Ferrous Sulfate Fluoborate Salts Fluoboric Acid Fluosilicic Acid Formaldehyde Formic Acid Freon
Hydriodic Acid Hydrobromic Acid Hydrochloric Acid
::.
acceptable lor use
Ethylene Oxide Fatty Acids
Glucose Glues Glycerin
i
not acceptable
Ethyl Bromide Ethyl Chloride Ethylamlne Ethylene Chlorohydrin Ethylene Dichloride Ethylene Glycol
Gasoline
.. Materia.1 Note .....,
2
Shell Kraton Dll0l; 0.25-0.3 mm films Conc. Pol. C-Flex
100
a.cceplablil lor use .·nol acceptable a.cceplabie lor IIs'e
0':;
... ' not acceptable" .., ~59aPtable
j(;,us,> ".
fresh daily
0.8
100
Shell Kraton Dll 01; 0.25-0.3 mm films
© Plastics Design Library
27
Chemical Resistance - Styrenic Thermoplastic Elastomer .:. >f: . R~ager\t .:>? .:",' .:~:.....
..
'Strength···
:~ .:-.:",
Mineral Oils
.6
MO~bdenum
.8
Isulfide Naphtha Natural Gas Nickel Salts Nitric Acid
lesling recommended belore using· acc8plabl~ for use
4.5 4.5
<10 <10
Shell Kralon 01101; 0.25-0.3 mm films Conc. Pol. C-Flex
essential oils
100
Shell Kraton 01101; 0.25-0.3 mm films
gas
Conc. Pol. C-Flex ..•. 't~sli;;g r~~ommen.W(f " before usl.ng-:+:.: .':::~
Phenol Phosphoric Acid
nol
acqe~j~bi~/
acceplabte lor use .•. 30 60
o
o
>90 >90
Shell Kralon 01101; 0.25-0.3 mm films
Phthalic Acid Plating Solutions Polyglycols Potassium Carbonate Potassium Chlorate Potassium Hydroxide
Conc. Pol. C-Flex
concentrated medium concentration
5
Potassium Iodide Pyridine Silicon Silicone Oils Sliver Nitrate Soap Sodium Bicarbonate Sodium Bisulfate Sodium Bisulfite Sodium Borate Sodium Carbonate
Shell Kraton 01101; 0.25-0.3 mm films
100
silicon fluids
solutions
2.7
0.7
Shell Kraton 01101; 0.25-0.3 mm films
100
Conc. Pol. C-Flex 10
o
Shell Kraton 01101; 0.25-0.3 mm films
>90
Conc. Pol. C-Flex concentrated dilute medium concentration
Sodium Hypochlorite Sodium Sodium Sodium Sodium Steam
0.1
Conc. Pol. C-Flex
Sodium Chlorate Sodium Chloride Sodium Ferrocyanlde Sodium Hydrosulfite Sodium Hydroxide
Conc. Pol. C-Flex
concentrated diluted medium concentration
3.1
Oxygen Perchloric Acid Perchloroethylene
..c- ...f.:{:. ..:.::.:
·.not accejiiab·'e.
10 20
Nitrobenzene Nitrogen Oxide Nitrous Acid Oils Oleic Acid Oxalic Acid
.Mateiiar'Not~.
. . . . . ! •.n.ll•..
<5 >5
n.
Nitrate Silicate Sulfide Sulfite up to 40 psi
Stearic Acid Styrene Sulfur Chloride Sulfur Dioxide Sulfur Hexafluoride
© Plastics Design Library
~.,
Styrenic TPE
28
Chemical Resistance - Styrenic Thermoplastic Elastomer
Sulfur Trioxide Sulfuric Acid
concentrated dilute medium concentration 5 10
Sulfurous Acid Tannic Acid Tanning Solutions Tartaric Acid Tin Salts Titanium Salts Toluene Trichloroacetic Acid Trichloroethylene Trisodium Phosphate Turpentine Urea Uric Acid Vegetable Oils Vinyl Plastisol Water
0.3 0.3
Xylene Zinc Chloride
Styrenic TPE
Shell Kraton Dll0l; 0.25-0.3 mm films Cone. Pol. C-Flex
tanning extracts
toluol
brine
100
distilled
Wines
>90 >90
20% volume alcohol xylol
0.3
Shell Kraton D1 101; 0.25-0.3 mm films
100
Cone. Pol. C-Flex
© Plastics Design Library
@
N
"1:l
P ~
Re~gent .• ·
Re~g~ni Not~\>
;:;'
'"t l
Acetaldehyde
'" tE'
Acetic Acid
..
~
;:l
Ad•. Erast. Santoprene
'2~;
DuPont Alcryn
; '~~.•..'
glacial
Ad•. Elast. Santoprene 7
6
9
87
97
A-5
Ad•. Elast. Santoprene 101-55; 79xl08x3 mm plaques
~
23;
7
'8
6
101
102
A-2
Ad•. Elast. Santoprene 101-64; 79xl08x3 mm plaques
.,P
23 ···23.··.
7
8
6
101
101
A-2
7
8
5
97
98
A-2
Ad•. Elas!. Santoprene 101-73; 79xl08x3 mm plaques Ad•. Elast. Santoprene 101·80; 79xl08x3 mm plaques
It::
'23\;·"
7
8
3
102
103
A-2
23'
7
8
3
94
95
Dl
7
9
1
95
98
DO
7
6
9
87
97
A-5
6
101
102
A-2
6
101
101
A-2
Ad•. Erast. Santoprene 201-64; 79xl08x3 mm plaques Ad•. Elast. Santoprene 201-73; 79xl08x3 mm plaques
.,
0-
23
~r
.
23" .
7
23·
7
•.• :~3 •••
7
')::,
7
8 8 8 8
7
~
;.23'/'
7
24
glacial
('.
Ii
20
..
.,"
Ad•. Elast. Santoprene 101-87; 79xl08x3 mm plaques Ad •. Elas!. Santoprene 103,40; 79xl08x3 mm plaques Ad•. Elast. Santoprene 103-50; 79xl08x3 mm plaques Ad•. Elast. Santoprene 201·55; 79xl08x3 mm plaques
5
97
98
A-2
Ad•. Elast. Santoprene 201-80; 79xl08x3 mm plaques
3
102
103
A-2
3
94
95
Dl
Ad •. Elas!. San toprene 201·87; 79xl08x3 mm plaques Ad•. Elas!. Santoprene 203·40; 79xl08x3 mm plaques
1
95
98
DO
."}:.;
Ad•. Elast. Santoprene 203·50; 79xl08x3 mm plaques
DuPont Alcryn
·4 5
20
:~
16
18
DuPont Alcryn 12018·70; 1.9 mm slabs DuPont Alcryn
21
25
DuPont Alcryn 12018·70; 1.9 mm slabs DuPont Alcryn
30
Acetic Anhydride Acetone
Ad•. Elast. San toprene
DuPont Alcryn 58
Acids
dipping acids
99
DuPont Alcryn 1201 B·70; 1.9 mm slabs Ad•. Elast. Santoprene
75 95
Acrolein Acrylics Acrylonitrile
acrylic ester monomers 106
A-3
103
AO
106
100
Al
102
101
AO
1
104
102
A-4
101
99
D4
23
1 2 -6
23.
o
111
23·
-1
106
100
Al
Ad•. Elast. Santoprene 201·73; 79xl08x3 mm plaques
23., 23'
1 1 1 2
102
101
AO
104
102
A-4
Ad•. Elast. Santoprene 201-80; 79xl08x3 mm plaques Ad •. Elast. Santoprene 201·87; 79x108x3 mm plaques
101
99
D4
100
97
D2
23
-6
23
o
95 111
23.
-1
2.3'"
1
23
100
97
D2
95
106
A-3
103
AO
23
2~,.
2~ "':,'2$
Alcohols Alkyd Resins Alum Aluminum Chloride
Ad•. Elast. Santoprene 101·55; 79xl08x3 mm plaques Ad•. Elast. Santoprene 101·64; 79xl08x3 mm plaques Ad •. Elas!. Santoprene 101-73; 79xl08x3 mm plaques Ad•. Elast. Santoprene 101-80; 79xl08x3 mm plaques Ad •. Elast. Santoprene 101-87: 79xl08x3 mm plaques Ad•. Elast. Santoprene 103-40; 79xl08x3 mm plaques Ad•. Elast. Santoprene 103·50; 79xl08x3 mm plaques Ad•. Elast. San toprene 201-55; 79xl08x3 mm plaques Ad•. Elas!. San toprene 201-64; 79xl08x3 mm plaques
:-::"
Ad•. Elast. Santoprene 203-40; 79xl08x3 mm plaques Ad•. Elast. Santoprene 203-50; 79xl08x3 mm plaques Ad •. Elast. Santoprene
grain
likely 10 i1~~~ini~~r
--l
-c
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
~fJ~cl
.
DuPonl Alcryn
N
CO
w
Chemical Resistance - Olefinic Thermoplastic Elastomer
-l "'1J
o
o
R~~gent·. Aluminum Sulfate
Adv. Etast. Santoprene DuPont Alcryn
Amino Resins Aminobenzene Aminoethanol (2-) Aminoethylethanolamine Ammonia
Adv. Elast. Santoprene
Ammonium Alum Ammonium Chloride Ammonium Hydroxide Ammonium Nitrate Ammonium Sulfate Amyl Acetate Amyl Alcohol Aniline
ammonia liquor ammonia water DuPont Alcryn Adv. Elast. Santoprene solutions DuPont Alcryn 142
207
DuPont Alcryn 1201 B·70; 1.9 mm slabs
5
11
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
n·amyl alcohol aniline dyes aniline oil phenylamine
Adv. Elast. Santoprene
1 1 1 1 2 1 1 1 1 1 1 2 1 1
Animal Fats Animal Oils Antifreeze @
'1J
S' ~ ;:;. CIl
1? CIl
tEl· ;::l
t"'
0: ...
...
I:l
94 97 97 95 94 94 93 94 97 97 95 94 94 93
103 99 97 98 99 98 99 103 99 97 98 99 98 99
A-5 AO Al A-1 A-2 0-2 01 A·5 AO A1 A-1 A·2 0-2 01
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast.
Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene
101·55; 79x108x3 101-64; 79xl08x3 101-73; 79xl08x3 101-80; 79xl08x3 101-87; 79xl08x3 103-40; 79xl08x3 103·50; 79xl08x3 201-55; 79xl08x3 201·64; 79xl08x3 201·73; 79xl08x3 201-80; 79xl08x3 201·87; 79xl08x3 203·40; 79xl08x3 203·50; 79xl08x3
mm mm mm mm mm mm mm mm mm mm mm mm mm mm
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
lard
DuPont Alcryn
animal greases lard oil
Adv. Elast. Santoprene DuPont Alcryn 1201 B·70; 1.9 mm slabs
alcohol glycol Prestone; ethylene glycoll waler (50/50)
" " " Prestone, with water ethylene g%COIi water (5050)
"
" " "
"':,:·70·,'
7
:i':$\'
-7
-8
127
121
AO
Adv. Elast. Santoprene 6.9
1.7
Adv. Elast. Vyram; Shore A60
6.9 6.9 6.9 7 7
1.6 1.1 0.6 13 7
Adv. Elast. Vyram; Shore A70 Adv. Elast. Vyram; Shore A90 Adv. Elast. Vyram; Shore D50 DuPont Alcryn 1201 B·70; 1.9 mm slabs Adv. Elast. Santoprene 101·55; 79xl08x3 mm plaques
7 7 7 7
6 4 4 3
15 92
94
A-6
89 96 79 99
86 85 83 84
A·2 A-1 A·2 A2
Adv. Adv. Adv. Adv.
Etast. Elast. Elast. Elast.
Santoprene Santoprene Santoprene Santoprene
101·64; 79xl08x3 mm plaques 101·73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm plaques 101·87; 79xl08x3 mm plaques
@
'i:l
S" ~
ri' V>
?
Re~ilent
Mate(i!ll No,e'
.,';
Antifreeze
125·',
7
V>
;125'
7
;:s
125"
7
7
t
125.
7
0-
j~5
..,
12S}
6 4 4 3 2 2
~
<E'
..,
I:l
u::
ethylene glycoU water (SO/50)
7 7
·125
7
125
7 7
125::,
Etasl. Santoprene 103-40; 79xl08x3 mm plaques
2
84
Dl
92
94
A-6
89
86
A-2
95
Adv. Etasl. Santoprene 201-54; 79xl08x3 mm plaques ::~:
85
A-I
79
83
A-2
Adv. Elast. Santoprene 201-80; 79xl08x3 mm plaques
99
84
A2
Adv. Elasl. Santoprene 201-87; 79xl08x3 mm plaques
95
91
DO
Adv. Etasl. Santcprene 203-40; 79xl 08x3 mm plaques
95
84
Dl
).;
::.
Adv. Etasl. Santoprene 201-73; 79xl08x3 mm plaques
Adv. Elasl. San top rene 203-50; 79xl08x3 mm plaques not"suitable for use
Adv. Elasl. Santop rene
fair resistartce ·lile.li' to nave mino', elfect
"r~ir re~!slan~e'
2~"
..:-:.';,.;.,....
DuPont Alcryn Adv. Elasl. Santoprene
1
95
92
A3
101
97
AO
Adv. Elasl. Santoprene 181-54; medical grade
95
92
A3
Adv. Elasl. Santoprene 281-55; medical grade
23.
I 1 1
101
97
AO
Adv. Elasl. Santoprene 281-54; medical grade
23
o
93
94
A-I
Adv. Etasl. Santoprene 281-87; medical grade
26
86
74
A-12
Adv. Elasl. Santoprene 181-55; medical grade
23 ,.23
10
9
Adv. Elasl. Santoprene 181-55; medical grade
DuPont Alcryn
'{IPO
2.9 2.9
25
87
82
A-9
Adv. Elasl. Santoprene 181-64; medical grade
/;~~~i,
2.9
26
86
74
A-12
Adv. Etasl. Santoprene 281-55; medical grade
2.9
25
87
82
A-9
Adv. Elasl. Santoprene 281-54; medical grade
2.9
7
87
83
A-8
Adv. Elasl. Sanloprene 281-87; medical grade
6.9
32.9
Adv. Elasl. Vyram; Shore A50
;·~i~{;i
6.9
18.8
Adv. Elasl. Vyram; Shore A70
6.9
5.9
Adv. Elasl. Vyram; Shore A90
6.9
6.7
Adv. Elasl. Vyram; Shore 050
100.:..
7
35
87
82
A-12
Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques
7 7
32
89
80
A-12
Adv. Elasl. Santoprene 101-54; 79xl08x3 mm plaques
29
88
80
A-9
Adv. Elast. Santoprene 101-73; 79xl08x3 mm plaques
7
17
96
83
A-7
Adv. Elasl. Santoprene 101-80; 79xl08x3 mm plaques
7 7
14
91
88
Al
Adv. Elasl. Santoprene 101-87; 79xl08x3 mm plaques
98
91
D-4
Adv. Elasl. Santoprene 103-40; 79xl08x3 mm plaques
7
7 5
91
91
D-2
Adv. Elasl. Santoprene 103-50; 79xl08x3 mm plaques
7
35
87
82
A-12
Adv. Elasl. Santoprene 201-55; 79xl08x3 mm plaques
7
32
89
80
A-12
Adv. Elasl. Santoprene 201-64; 79xl08x3 mm plaques
7 7 7 7 7 7 7 7 7 7 7
29
88
80
A-9
Adv. Elasl. Santoprene 201-73; 79xl08x3 mm plaques
17
96
83
A-7
Adv. Elasl. Santoprene 201·80; 79xl08x3 mm plaques
14
91
88
Al
Adv. Elasl. Santoprene 201-87; 79xl08x3 mm plaques
7
98
91
D-4
Adv. Elasl. San top rene 203-40; 79xl08x3 mm plaques
5 -8
91
91
D-2
Adv. Elasl. Santoprene 203-50; 79xl08x3 mm plaques
fda
;;00.•·•· ,
ASTM Oil No.1
Adv. Elast. Santoprene 201-55; 79xl08x3 mm plaques .::.:::'
96
Aqua Regia Arsenic Acid Arsenic Trichloride Asphalt ASTM Oil No.1
Adv. Elasl. Santoprene 103-50; 79xl08x3 mm plaques
iod
-10 -9 -10 -9
-10 -12 -II -II -10 -II
109
103
A4
DuPont Alcryn 1201 B-60; 1.9 mm slabs
112
95
A3
DuPont Alcryn 1201 B-70; 1.9 mm slabs
118
98
A6
DuPont Alcryn 1201 B-80; 1.9 mm slabs
A6
DuPont Alcryn ALR·5369; 1.9 mm slabs DuPont Alcryn ALR-5385; 1.9 mm slabs, neutral 55A DuPont GP-B 55A (chlorinated TPO); high vise. grade; black
-i "'U
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
(J.)
.-..
w
Chemical Resistance - Olefinic Thermoplastic Elastomer
-i
-u 0
N
~"'"
Reagent
I
Reagent Note
Iconc_\ Temp. \~),
ASTM Oil No.1
('C)
% Change
I
Tensile Strenglh
Time \. PDL (days) Rating ..
Elongation
'.
IHardness I
Resistance Note
~hange
7
-10
7
-15
DuPont IM-B 70A (chlorinated TPD); med. vise., inj.mold. grade; black
100
7
-15
DuPont IM-N 70A \ChlOrinated TPDI; med. vise .. inj.mo d. grade; nalura
100
7
DuPont GP·N 65A (chlorinated TPD); high vise. grade; natural
".
7
..
-12
DuPont PF·B 70A (chlorinaled TPD); high vise. grade; black ., DuPont SP-B 75A (chlorinated TPD); med. vise., extrus. . grade; black
-:.,
lubricating oil
Material Note
100
-B
ASTM Oil No.2
I
100
-,
ASTM Oil No.1
.
% Retained
""""''1'21;''''''''''
7
40
66
60
A-19
125
7
'3
36
72
56
A-15
125
7
4-
34
64
73
A-IS
125
7
25
77
62
A-l0
125
7
22
76
70
A-I
125
7
14
69
60
0-9
125·
ds;;;;
7
14
63
79
0-6
7
40
66
60
A-19
125
7
36
72
58
A-IS
Adv. Elast. Santoprene 201·64; 79xl08x3 mm plaques
125
7
34
64
73
A-IS
;' Adv. Elast. Santoprene 201-73; 79xl08x3 mm plaques
125
7
25
77
62
A-l0
;), Adv. Elast. Santoprene 201-80; 79xl08x3 mm plaques
125
7
22
7B
70
A-I
125
7
5
14
69
60
0-9
125
7
4
14
63
79
0-6
23
7
7
-3
94
92
A-2
23
7
1
2
106
92
A-I
2.3
7
7.
-3
94
92
A-2
Adv. Elast. Santoprene 281·55; medical grade
23
7
2
106
92
A-I
Adv. Elast. Santoprene 281·64; medical grade
23
7
1
96
94
A-4
• '?'2."",
Adv. Elast. Santoprene 101·55; 79xl08x3 mm plaques Adv. Elast. Santoprene 101·64; 79xl08x3 mm plaques :0:'
Adv. Elast. Santoprene 101-73; 79xl08x3 mm plaques
.'.
Adv. Elast. Sanloprene 101·80; 79xl08x3 mm plaques :~;
.. ,.';,
.~~'
,.
;: Adv. Elast. Santoprene 103·50; 79xl08x3 mm plaques ..,. ..,.;.-
;: Adv. Elast. Santoprene 203-40; 79xl08x3 mm plaques
,
Adv. Elast. Santoprene 203-50; 79xl08x3 mm plaques Adv. Elast. Santoprene 181-55; medical grade Adv. Elast. Santoprene 181·64; medical grade
I
Adv. Elast. Santoprene 281·87; medical grade fluid has lilll& to .no effect
2.9
26
66
Adv. Elast. Santoprene 201-55; 79xl08x3 mm plaques
J Adv. Elast. Santoprene 201-87; 79xl08x3 mm plaques
\
24 100
Adv. Elast. Santoprene 101·87; 79xl08x3 mm plaques . Adv. Etast. Sanloprene 103·40; 79xl08x3 mm plaques
DuPont Alcryn
76
A-14
Adv. Elast. Santoprene 181·55; medical grade
100
2.9
25
87
78
A-12
Adv. Elast. Santoprene 181-64; medical grade
100
2.9
26
86
76
A-14
Adv. Elast. Santoprene 281·55; medical grade
100
2.9
25
87
7B
A-12
Adv. Elast. Santoprene 281-64; medical grade
100
2.9
..,4
16
86
77
A-12
Adv. Elast. Santoprene 281-87; medical grade
100'
3
6
3
100
7
58
81
77
A-IS
Adv. Elast. Sanloprene 101-55; 79xl08x3 mm plaques
100
7
4. 4
53
90
72
A-IS
Adv. Elast. Santoprene 101·64; 79xl08x3 mm plaques
100
7
5
49
93
80
A-14
Adv. Elast. Santoprene 101·73; 79xl08x3 mm plaques
100
7
4
34
84
71
A-l0
Adv. Elast. Santoprene 101-80; 79xl08x3 mm plaques
100
7
,6
27
86
82
A·2
Adv. Elast. Sanloprene 101·87; 79xl08x3 mm plaques
100
7
97
89
0-5
Adv. Elasl. Santoprene 103-40; 79xl08x3 mm plaques
100
7
6 '::'S'
17
'1:l
" "
14
90
90
0-5
Adv. Elast. Sanloprene 103-50; 79xl08x3 mm plaques
~
"
100
7
4
58
81
77
A-15
Adv. Elast. Santoprene 201-55; 79xl08x3 mm plaques
" "
100
7
4
53
90
72
A-IS
Adv. Elasl. Santoprene 201-64; 79xl08x3 mm piaques
100
7
49
93
80
A-14
Adv. Elast. Santoprene 201-73; 79xl08x3 mm plaques
C1l
"
100 .)
7
.4
34
84
71
A-l0
j
7
66
82
A-2
100;
7
6 6.
27
;:s
" " "
17
97
89
0-5
,';oIPQ)
7
.6 .
14
90
90
0-5
lubricating oil
'1'25'
6.9
"
125
6.9
9 9
@
S'
n'V> t:::l
V> tEo
t-o
.,0>:l .,
ASTM Oil No.2
,..... :~;
100
·~5··'
.
4
DuPont Alcryn 1201 B-70; 1.9 mm slabs
-4 -2
..,
,
Adv. Elast. Santoprene 201-80; 79xl08x3 mm plaques Adv. Etast. Santoprene 201-87; 79xl08x3 mm plaques Adv. Elast. Santoprene 203·40; 79xl08x3 mm plaques Adv. Elast. Santoprene 203-50; 79xl08x3 mm plaques Adv. Elast. Geolast 701-70
97
Adv. Elast. Geolast 701·80
@ ~
S
~ C:;' (J)
t:l
~eagent C;; ASTM Oil No.2
l'll (J)
to· ;:l
t-'
.,S.p .,
It:
Reagent Note ,..
I
(,(,)
125
6.9
2
" " " "
125
6.9
2
125 (
6.9
5
125 :'
7
125
"
125
"
,
I
.,.;.:
Re~is(aDCi,~ Note
0
't
Material Note Adv. Elast. Geolast 701-87 Adv. Elast. Geolast 703-40 Adv. Elast. Geolast 703-50
71
62
7
60
74
7
57
78
125
7
46
'125, i
7
125
A·16
Adv. Elast. Sanloprene 101-55; 79xl08x3 mm plaques
74
A·19
" Adv. Elast. Santoprene 101-64; 79xl08x3 mm plaques
63
A-16
75
55
A·15
40
79
65
A·6
7
29
86
73
0-11
Adv. Elast. Santoprene 103-40; 79xl08x3 mm plaques
125
7
28
77
74
0·12
Adv. Elast. Santoprene 103-50; 79xl08x3 mm plaques
125
7
63
71
62
A-16
Adv. Elast. San top rene 201-55; 79xl08x3 mm plaques
125 .,
7
60
74
74
A·19
Adv. Elast. San top rene 201·64; 79xl08x3 mm plaques
.~
7
57
78
63
A-16
Adv. Elast. Santoprene 201-73; 79xl08x3 mm plaques
46
75
55
A-15
Adv. Elast. Santoprene 201·80; 79xl08x3 mm plaques
';'.'
'3/'
125 ' 125 ~
7
3
7
125
7
"J "'0"4
125 ;
7
23.'"
7
23
7
23
7
23
7
23
7
f
40
79
65
A-6
29
86
73
0-11
28
77
74
0-12
13
84
84
A·l0
.,'5.,
11
88
84
A-7
.4" 5
13
84
84
A-l0
11
88
84
A·7
5
93
93
A·6
ji~:(? ::h{;::4>
'6 :"·8
·,;·:it·· "
2.9
.2-.
40
74
63
A-22
40
73
65
A-21
40
74
63
A-22
2.9
2 . 2·.
40
73
65
A-21
100
2.9
3
27
75
69
A-18
100
6.9
1:
97
100
6.9
1·'
70.5
100
6.9
:')i
100
6.9
100
7
100
2.9
100
2.9
100
.
~~
·l" ....
;' ,.,
"~f';"
2 .-3
Adv. Elast. Santoprene 101-73; 79xl08x3 mm plaques Adv. Elast. Santoprene 101-80; 79xl08x3 mm plaques
N'·
.,.....
:::
Adv. Elast. Santoprene 101-87; 79xl08x3 mm plaques
Adv. Elast. Santoprene 201-87; 79xl08x3 mm plaques
.. :':::
.;.;
Adv. Elast. Santoprene 203-40; 79xl08x3 mm plaques
';'~::;>~::\.:~~;~:~:":;~ :;)
.:~::;'
Adv. Elast. Santoprene 203-50; 79xl08x3 mm plaques Adv. Etast. Santoprene 181-55; medical grade Adv. Elast. Santoprene 181-64; medical grade
:~
-'_c' >~.
r :::-:,;
<.:
j
j,;':
Adv. Elast. Sanloprene 181-64; medical grade ~:
Adv. Elast. Santoprene 281-5S; medical grade Adv. Etast. Santoprene 281-64; medical grade
::t.: ~;
Adv. Elast. San top rene 281-87; medical grade
I
<
28.2
.
DuPont Alcryn Adv. Elast. Santoprene 181-S5; medical grade
::~
23.8
Adv. Elast. Santoprene 281-5S; medical grade Ad •. Elast. Santoprene 281-64; medical grade Adv. Elast. Sanloprene 281·87; medical grade
. lIuld l!a.s·liIUe'tQno ellecl ::;:y,:t.;:;;:~~
Adv. Elast. Vyram; Shore A60 Adv. Elast. Vyram; Shore A70 Adv. Elast. Vyram; Shore MO Adv. Elast. Vyram; Shore DsO
80
71
A·18
.; Adv. Elast. San top rene 101-55; 79xl08x3 mm plaques
74
68
52
A-19
Adv. Elast. Santoprene 101-64; 79xl08x3 mm plaques
65
80
68
A-17
Adv. Elast. Santoprene 101-73; 79xl08x3 mm plaques
76
100
7
100
7
100
7
51
79
67
A·16
Adv. Elast. Santoprene 101-80; 79xl08x3 mm plaques
100
7
42
75
72
A-6
Adv. Elast. Santoprene 101-87; 79xl08x3 mm plaques
100
7
30
84
80
0·14
Adv. Elast. Santoprene 103-40; 79xl08x3 mm plaques
100
7
26
79
89
0-13
Adv. Elast. Sanloprene 103-S0; 79xl08x3 mm plaques
100
7
76
80
71
A-18
Adv. Elast. Sanloprene 201·55; 79xl08x3 mm plaques
100
7
74
68
52
A·19
Adv. Elast. Santoprene 201-64; 79xl08x3 mm plaques
100
7
65
80
68
A-17
100
7
51
79
67
A·16
100
7
42
75
72
A·6
Ad•. Elasl. Sanloprene 201-87; 79x108x3 mm plaques
ioo
7
30
84
80
0-14
Adv. Elast. Sanloprene 203-40; 79xl08x3 mm plaques
100
7
26
79
89
0·13
Adv. Elast. Sanloprene 203-50; 79xl08x3 mm plaques
100
7
10
10
93
89
A-9
DuPont Alcryn 1201 B-60; 1.9 mm slabs
100
7
9
11
84
78
A·l1
100
7
8
7
88
86
A-l0
100
7 7
14 14
16 17
.•. ,..1.9.9... .
A·8
-l
-c
I
1
63
100
,
Hardness Change
i
lubricating oil
100
ASTM Oil No.3
POL
Cd"y.). A~~i?g
C'C)
125
ASTM Oil No.3
I I
conc·1 Temp. Time
Chemical Resistance - Olefinic Thermoplastic Elastomer
Adv. Elast. Sanloprene 201-73; 79xl08x3 mm plaques Adv. Elast. Sanloprene 201·80; 79xl08x3 mm plaques
~;::
I ~:
DuPont Alcryn 1201 B·70; 1.9 mm slabs DuPont Alcryn 1201 B-BO; 1.9 mm slabs DuPont Alcryn ALA-6369; 1.9 mm slabs DuPont Alcryn ALA'S386; 1.9 mm slabs, neulral65A
w w
Chemical Resistance - Olefinic Thermoplastic Elastomer
--l
""'C
(,.) ~
0
% Change Reage~1""" .
',:.;.~..
~
~
..
.,,1
Reagent Not.e
Weight
Volume
~:~:t::;
% Retained
r'l!!!I,
Elongation
~Y!jjlPh
::::-",;:,.
ASTM Oil No.3
1~¢-iji~rSS}1C
100
7
7
16
,
100
7
7
17
I
100
7
6
24
JOO
7
6
23
100
7
"7
11
100
7
7
16
125 125 125 125
125
2.9 2.9 2.9 2.9 2.9 2.9 6.9 6.9 6.9 6.9 6.9 6.9 7 7 7 7 7 7 7 7 7 7 7 7 7 7
24 24 100
7 7
8
6.9 6.9 6.9 6.9 6.9 6.9 6.9 6.9 6.9
9
Resistance Note
!
DuPonl GP-B 65A (chlorinaled TPQ); high visco grade; black DuPonl GP-N 65A (chlorinated TPQ); high visco grade; nalural DuPonl IM-B 70A (chlorinated TPQ); med. visc., inj.mold. grade; black DuPonl IM-N 70A (chlorinaled TPQ); med. visc., inj.mold. grade; nalural DuPont PF-B 70A (chlorinated TPQ); high visco grade; black DuPonl SP-B 75A (chlorinated TPQ); med. visc., extrus. grade; black
;
!
,,
i;;::
~:"'.
ASTM Oil No.3
125
125 125)
125'~ 1"25 ';. 12~
125 125 125 125 125 125
1~5 " ,125 . 125 1'25
....
,}~.~:"'.'" 125
~" 12~ 125
ASTM Reference Fuel A
@
isooctane
ASTM Reference Fuel B
23 23 23 23
1:l
po
....'"
ri-
23 23
'tl" Cl>
'" <E' ;:l
t'"'
.,0: !=l .,
u::
isooclanelloluene (70/30)
"
~3 ~3 23 .24
f:
3 5 5 9 10 17
66 89 80 76 84 85 4 8 5 10 11 15
:~
:;,:f
:;
3" 2 2
~:
88 86 78 67 60 49 47 88 86 78 67 60 49 47
87 93 92 99 96 88
70 90 74 56 61 61
A-6 A-6 A-7 A-4 A-4 A-5
~~ }~::.
I
,
~
1 I
'1
89
l
r 50 57 63 64 71 72 66 50 57 63 64 71 72 66
41 39 48 48 60 59 65 41 39 48 48 60 59 65
A-27 A-23 A-25 A-23 A-13 0-20 0-20 A-27 A-23 A-25 A-23 A-13 0-20 0-20
,.
::~-~~. ':~'
, ~:;
:....'
, ~i
5 94
9
\
'8 7 1
~.
~:
1 1
;:;,;".,;
5 7 9 9 17
8 8
":
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Adv. Elast. Geolasl 701-70 Adv. Elast. Geolasl 701-80 Adv. Elast. Geolasl 701-80 W-183 Adv. Elast. Geolasl 701-87 Adv. Elast. Geolasl 703-40 Adv. Elast. Geolast 703-50 Adv. Elast. Geolast 701-70 Adv. Elast. Geolasl 701-80 Adv. Elast. Geolasl 701-80 W-183 Adv. Elast. Geolasl 701-87 Adv. Elast. Geolasl 703-40 Adv. Elasl. Geolasl 703-50 Elasl. Santoprene 101-55; 79xl08x3 mm plaques Etast. Santoprene 101-64; 79xl08x3 mm plaques Elast. Sanloprene 101-73; 79xl08x3 mm plaques Elast. Santoprene 101-80; 79xl08x3 mm plaques Elast. Santoprene 101-87; 79xl08x3 mm plaques Elast. Sanloprene 103-40; 79xl08x3 mm plaques Elast. Sanloprene 103-50; 79xl08x3 mm plaques Elast. Sanloprene 201-55; 79xl08x3 mm plaques Elast. Sanloprene 201-64; 79xl08x3 mm plaques Elast. Sanloprene 201-73; 79x108x3 mm plaques Elast. Sanloprene 201-80; 79xl08x3 mm plaques Erast. Sanloprene 201-87; 79x108x3 mm plaques Elast. Sanloprene 203-40; 79xl08x3 mm plaques Elast. Senloprene 203-50; 79x108x3 mm plaques DuPonl Alcryn DuPonl Alcryn 1201 B-70; 1.9 mm slabs Adv. Elast. Geolasl 701-80
8 1
Material Note
t.
,l·
:~~:'
,
j
56.5 67.5 30.5 16
I I
.,;
.
Ji~>
Adv. Elast. Geolasl 701-70 Adv. Elast. Geolasl 701-80 Adv. Elast. Geolasl 701-87 Adv. Elast. Geolasl 703-40 Adv. Elast. Geolasl 703-50 Adv. Elast. Vyram; Shore A60 Adv. Elast. Vyram; Shore A70 Adv. Elast. Vyram; Shore A90 Adv. Etast. Vyram; Shore D50 DuPont Alcryn
:i·
24
7
8
14
A-5
DuPonl Alcryn 1201 B-70; 1.9 mm slabs
©
::9
l:l
1'';..2.':;, ft.
o' tt>
.'-.',
~
tl (1)
-'I.
~.;
Mate,f1a'.~~t~i;:f}
.,
...:',
ASTM Reference Fuel B
'6
7
5
34
DuPont IM-B 70A (chlorinated TPO); med. vise., inj.moid. grade; black
24,
7
5
32
DuPont IM-N 70A (chlorinated TPO); med. vise., inj.mold. grade; natural
2i
7
7
14-15
DuPont PF-B 70A (chlorinated TPO); high vise. grade; black
7
6
30
DuPont SP-B 75A (chlorinated TPO); med. vise., extrus. grade; black
7
7
14
DuPont Alcryn 1201 B-70; compression molded
6.9
'7
tEo
::::
;:J
~
.,
0'
.,
DuPont GP-8 65A (chlorinated TPO); high ~isc. grade; black
7
tt>
l:l
'~,,'::
u::
'24
:':;'-:":
ASTM Reference Fuel C
50% isooctane, 50% toluene
,
18
Adv. Elas!. Geolast 701-70 Adv. Elas!. Geolast 701-80
:~
6.9
4.
21
6.9
7
19
66
Adv. Elas!. Geolast 701-87
6.9
7
18
Adv. Elas!. Geolast 703-40
6.9
"7
12
Adv. Elas!. Geolasl 703-50
2
isooctane/toluene
DuPollt Alcryn
(50/50) 7
w/30% meth.; 50%
70
24"
85
24
isooctane, 50% toluene
w/15% meth.; 50% isooctane, 50% toluene w/15% ethanol;50% isooctane, 50% toluene w/15% meth.; 50%
2
35
51
56
68
A-18
DuPont A/cryn 1201 B-60; 1.9 mm slabs
7
2
30
50
52
67
A-20
DuPont Alcryn 1201 B-70; 1.9 mm slabs
7
.2
22
44
51
78
A-23
DuPont Alcryn 1201 B-80; 1.9 mm slabs
7
2
31
53
49
73
A-25
DuPonl Alcryn 1201 B-70; 1.9 mm slabs
7
:2
35
63
45
58
A-17
;:;;'
85
.,~.
4
lIuid has moderate'IO severe . " •elfe.et ..
24
7
1
37
67
42
57
A-22
. '24
7
1
40
72
44
56
A·22
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
..
85
isooctane, 50% toluene
ASTM Reference Fuel D
.24
Barium Hydroxide Beer Benzaldehyde Benzene Benzoic Acid Borax Boric Acid Brake Fluids
5
24
solution
benzol
7
2
24.
6
24 24.",
6 2 4
.~f
. f1ui9, ha's mi/lOt.to moderate , .••.:.:. ell'eel • 20
35
50
64
A-23
~::~t
I
:/
lik~ly}olia\i~..seve(e elt~i:t,
[ ·iesiSiaiii:ei.Si:ond~ioriat
Adv. Elas!. Santoprene
... li~~li,l(iha~~.s&lie\~.eJ!ect .. '. ·············900diiisisiiiiii:e
Adv. E/as!. Santoprene
DuPont Alcryn
1&~ldo~ha~e Ililno~ ellect .. .... -
6
:::~:.:
DuPonl Alcryn
:.:~'
9
0
94
103
A-3
Adv. Elas!. Santoprene 101-55; 79xl08x3 mm plaques
9·"
0
102
99
Al
Adv. Elas!. Sanloprene 101-64; 79xl08x3 mm plaques
8
-2
108
105
A2
Adv. Elas!. Santoprene 101-73; 79xl08x3 mm plaques
7
-2
116
107
A1
Adv. Elas!. San top rene 101-80; 79xl08x3 mm plaques
8
-2
102
95
AS
Adv. Elas!. San top rene 101-87; 79xl08x3 mm plaques
9
-1
101
98
DO
Adv. Elas!. Santoprene 103-40; 79xl08x3 mm plaques
9
0
97
95
02
Adv. Elas!. Sanloprene 103-50; 79xl08x3 mm plaques
'9
0
94
103
A-3
0
102
99
Al
8
-2
108
105
A2
-7'
-2
116
107
At
8
-2
102
95
AS
Adv. Adv. Adv. Adv. Adv.
:;
-l
"'U
DuPont Alcryn
•
:;;/'
2
9
o
DuPont A/cryn 1201 B-70; 1.9 mm slabs
... /::: .
. ..
.> itii~i\, tohaveiijinorellect' . :.
8 6 hydraulic
DuPont Alcryn
Chemical Resistance - Olefinic Thermoplastic Elastomer
Elas!. Santoprene 201-55; 79xl08x3 mm plaques Elast. Santoprene 201-64; 79xl08x3 mm plaques Elas!. Santoprene 201-73; 79xl08x3 mm plaques Elas!. Santoprene 201-80; 79xl08x3 mm plaques Elast. San top rene 201-87; 79xl08x3 mm plaques
w (J'1
@
'tJ
P ~
,~'
Reagent
-
0'
'"tl
Butyl Acetate
(l>
I
Reagent Note
I
Conc.ITem p ('C)
(%)
n-butyl acetate
..
. . 2i.;••. .·.• ..~:,.
.. .. .. ..
;:l
t-
0: ... ~
...
····23 .)
···i<~~}· 23'
.,,,
.
It::
··2'1····
n-butyl acetate
Butyl Methacrylate Butyraldehyde Butyric Acid Calcium Bromide
TirneI' 7 7 7 7 7 7 7 7 7 7
0 -I 2
7
2 1
3
I!!§d~t~s '
I
"1 H~r~ne$s 1
£10I;g 81IO
···.··C' 95 96 98 127 110 105 102 95 96 98
Chan!!~ ..
?4 •.
-."[:2'0;;. :;~·~~tJ.i:;lf:;1 ..>Y@if~sisi~ri9~,J\
. ':.;~
184
. \.:/:'
287
,'5.
1
72
63
A-6
14 14 14 14 14 14 14 14 14 14 14 14 14
150 150 150ISO .,.
7 7 7 7 7 7 7 7 7 7 7 7 7
7
-I
5.• 7.
0 1 0 0 0 1 -I
87 90 81 86 88 93 72 87 90 81 86 88 93
88 85 73 71 74 82 63 68 85 73 71 74 82
A-3 A-3 A-4 A-2 02 01 A-6 A-3 A-3 A-4 A-2 02 01
15ir
150 '150 . .'.....,: 150·" 150 150 ·150 150 ~.:::.
18 18 18 18 18 18 18 18 18 18 18 18 18
24. 150 150 150 150 150 150 150 150 150 150
15q 150 •. 150 ... ,5.()·..•·
7 7 7 7 7 7 7 7 7 7 7 7 7 7
8
It 7
6 6 .. 5 7 .. 8 6, ~,
7
8 .5 ·7:"
8 6'; 7
·.../.7.} ···6)....'.·
:'~?1:~,,!\··
0
Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
0 1 0 0 0
....
Adv. Elasl. Santoprene DuPont Alcryn DuPont Alcryn 1201 6-70; 1.9 mm slabs
~
,.:-:::-··z·:-
DuPont Alcryn Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques Adv. Adv. Adv. Adv. Adv. .•, Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
, ,
,~.
.~.:
63
A-6
-I
87 90 81 86 88 93 72 87 90 81 86 88 93
88 85 73 71 74 82 63 88 85 73 71 74 82
A-3 A-3 A-4 A-2 02 01 A-6 A-3 A-3 A-4 A-2
0 1 0 0 0 1 -I 0 1 0 0 0
02 01
:;.
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
:'-:.'-:
'",.
,., , ,
...lik~lv~~t~:~i::~:\;~~;
Chemical Resistance - Olefinic Thermoplastic Elastomer
Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
Sanloprene Santoprene Santoprene Santopren. Santoprene Santoprene Santoprene Santoprene Santoprene Santopren. Santoprene Santoprene Santopren.
101-64; 101-73; 101·80; 101·87; 103-40; 103-50; 201-55; 201-64; 201-73; 201-80; 201-87; 203-40; 203-50;
79xl08x3 79xl08x3 79xl08x3 79xl08x3 79xl08x3 79x t 08x3 79xl08x3 79xl08x3 79xl08x3 79xl08x3 79xl08x3 79xl O8x3 79xl08x3
mm mm mm mm mm mm mm mm mm mm mm mm mm
plaques plaques piaques plaques plaques plaqu.s plaques plaqu.s plaques plaques piaques plaques plaques
Adv. Elasl. Santoprene DuPont Alcryn Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques
10
72
mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaqu.s mm plaques mm plaques
..
good resistance •., likely have minor ellett
1
Santoprene 101-87; 79xl08x3 Santoprene 103-40; 79xl08x3 Santoprene 103-50; 79xl08x3 Santopren. 201-55; 79xl 08x3 Santoprene 201-64; 79xl08x3 Santopr.ne 201-73; 79xl08x3 Santoprene 201-80; 79xl08x3 Santoprene 201-87; 79xl08x3 Santopren. 203-40; 79xl 08x3 Santoprene 203-50; 79xl 08x3 DuPont Alcryn
DuPont Alcryn 12018·70; 1.9 mm slabs
iiUilfliassevere·eUecf····· ':?
-l
"U
00;;.'
Jik.lflo·nav. mino~ eff.cl.••••
6>::" 7
18
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
9
160
... 15.0
L
AS DO 0-3 A-I A2 Al AO AS DO 0-3
14
Calcium Chloride
Calcium Hydroxide
92 93 92 116 112 103 106 92 93 92
2 -12 -7 -4 -7
6.•••....••.
ITehs!ii 8Ire;"gl11
6···· 24 24
wilh 14% calcium bromide
· : i ..
0 -I
7
.;~
with 18% calcium chloride
I
P~!lI~~19III v~Mne
.(daY~J'~atmg,.'
23 i \
.
16'"
,I
;
Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Eiasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
Santoprene Santoprene Sanloprene Santoprene Santoprene Santoprene Santoprene Santopr.ne Santoprene Santoprene Santoprene Santoprene Santoprene
101·64; 79xl08x3 mm 101-73; 79xl08x3 mm 101-80; 79xl08x3 mm 101-87; 79xl08x3 mm 103-40; 79xl08x3 mm 103-50; 79xl08x3 mm 201-55; 79xl08x3 mm 201-64; 79xl08x3 mm 201-73; 79xl08x3 mm 201-80; 79xl08x3 mm 201-87; 79xl08x3 mm 203-40. 79xl08x3 mm 203-50; 79xl08x3 mm
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
Adv. Elasl. Santopren. DuPont Alcryn
c.>
--.a
w
Chemical Resistance - Olefinic Thermoplastic Elastomer
---l "1J
00
o
% Retained
% Change Reagent
Reagent Note
Calcium Hypochlorite Carbon Bisulfide Carbon Dioxide Carbon Monoxide Carbon Tetrachloride
conc'ITemp'l Tim~ 20
24
6
24 24 24
2 6
Copper Chloride Copper Sulfate Corn Syrup Cottonseed Oil
7
Irichloromethane
24 24
t
., .,P
0It:
not
1
23 23 23 '23 23 23 23 23 23 23 23
su~able
DuPont Alcryn 1201 B-70; 1.9 mm slabs
75
2
resistance is conditional likely to have severe eftect
Adv. Elast. Santoprene DuPont Alcryn
2 2
not sui1able for use likely to have severe ellect
Adv. Elast. Santoprene DuPont Alcryn
reslstance-is condilional
Adv. Elast. Santoprene
':'.:~~ ..,
iikelylohavem,noreliect
DuPont Alcryn
6 6
good resistance
Adv. Elast. Santoprene
fair resistance . .IikelYI0have minorellecl
7 7
6 4 4 4 4
7 7 7
3
7
5
7 7 7
4
3 5 4 4'
7 7
3
23
7
3
23 23
7
5
7
4
5
88 83 75 79 58 86 78 88 83 75 79 58 86 78
88 85 65 55 45 36 29 88 85 65 55 45 36 29
83 80 68 81 63 95 97 83 80 68 81 63 95 97
likely to have minor elfect
Adv. Elast. Santoprene DuPont Alcryn
resistance is conditional
Adv. Elast. Santoprene
A-13 A-16 A-16 A-14 A-6 0-15 0-17 A-13 A-16 A·16 A-14 A-6 0-15 0-17
,,~.
5
fluid has.;iri.or to moderale , effect·' 11
7
100
3
"(
.,
21
4
4
98
91
goOd. resistl\tlce :::r"
,,~.,. 24
!
7
1
152
178
Etast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. E1ast. Elast. Elast. Elast. Elast. Elast.
Santoprene 101-55; 79x108x3 Santoprene 101-64; 79xl08x3 Santoprene 101·73; 79x108x3 Santoprene 101-80; 79xl08x3 Santoprene 101-87; 79xl08x3 Santoprene 103·40; 79xl08x3 Sanloprene 103-50; 79xl08x3 Santoprene 201-55; 79x108x3 Sanloprene 201·64; 79xl08x3 Santoprene 201-73; 79x108x3 Sanloprene 201-80; 79xl08x3 Sanloprene 201·87; 79x108x3 Sanloprene 203-40; 79xl08x3 Santoprene 203-50; 79xl08x3 DuPont Alcryn
mm mm mm mm mm mm mm mm mm mm mm mm mm mm
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
Adv. Elast. Santoprene DuPont Alcryn 1201 B·70; 1.9 mm slabs Adv. Elast. Santoprene
nol s\litable for \lse fluid tias :s~vere .effect
2
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv, Adv. Adv. Adv. Adv. Adv. Adv.
DuPont Alcryn 1201 8-70; 1.9 mm slabs
".".,';'.
A-10
.8 8
24
DuPont Alcryn
. "'reslstance'iscondilionat···
tem~I~~~~ii~~~i~onal/' solutions food grade
Adv. Elast. Santoprene DuPont Alcryn
for use
mild has severe elfecl . 57
4
24
;:s
Du Pont Alcryn
'8
~
cEo
likely 10 have minor elfect likely \0 have' severe effect likely to hilve mInor elfect
i,keiyto ha\lfmirioi~ilect""
6
'1:J
C/)
Material Note
6
6 '.
creosote oil
S'
Resistance ~ote
likeltto.ha~~. se~ere. elfect
24
24
l?
Hardness Change
2 2
24 non-edible
@
C/)
I
2
24
Decalln Deicing Fluid Detergents Dextrose Diaminoethane (1,2-) Dibromoethane Dibutyl Phthalate
I
Tensile IIiOdUIUS Elongation Strength
,4 4
coal tar oil
Crude Oils Cumene Cyclohexane
r:;'
Volume
4
24
Creosote
I
2
24
Chlorosulfonic Acid Coal Tar
Weight
6
Chlorobenzene Chloroform
POL Rating
('C)
24 24 24 24
Castor Oil Cellosolve Acetate
(days)
(%)
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
@
I
"1:l
S' ~ (:;. Vl
t:l
(l)
Vl
15' ;:l
:::::
I
}.,
r
\"""1
I
% Change;
I
%flitil!ned
Mate~ialNote
IReagent Dichlorobenzene (0-) Dichloromethane Dichloropropane (1,2-) Diesel Fuels
(esIS1anc';
'-'-'>~"':'"
nO.2
0: -. -.~
" "
u::
"
6.9
8
9
23
6.9
'6'
13
23;
6.9
13
Adv. Elasl. Geolas1701-87
~~
6.9
13
Adv. Elasl. Geolasl 703·40
"'7
6.9
~>'~:::'.
······23';
i;
Adv. Elasl. Geolas1701-80
12
Adv. Elasl. Geolasl 703·50 flUid has mi';o( to mod~;ata " effect' ."
7
;".
7
6
87
87
A-2
DuPont Alcryn 1201 8-60; 1.9 mm slabs
5
8
89
92
A-2
DuPont Alcryn 1201 8·70; 1.9 mm slabs
6
8
89
89
A-4
DuPont Alcryn 12018-80; 1.9 mm slabs
4
6
95
95
A-3
DuPonl Alcryn ALR-6387; 1.9 mm slabs, neutral 75A
20
27
DuPont Alcryn 1201 8·70; 1.9 mm slabs Adv. Elasl. Sanloprene
6'''''
6
13
103
97
A-12
Adv. Elasl. Sanloprene 101·55; 79x108x3 mm plaques
2 0
105
104
A-9
Adv. Elasl. Sanloprene 101·64; 79x108x3 mm plaques
99
100
A-5
Adv. Elasl. Sanloprene 101·73; 79x108x3 mm plaques
0
94
95
A-5
Adv. Elasl. Sanloprene 101-80; 79x108x3 mm plaques
-2
97
98
A'7
Adv. Elasl. Sanloprene 101·87; 79x108x3 mm plaques
-3
94
93
Adv. Elasl. Sanloprene 103-40; 79x108x3 mm plaques
0
91
100
0-5 0-7
13
103
97
A-12
2
105
104
A,9
.,. Adv. Elasl. Santoprene 201-64; 79x108x3 mm plaques
0
99
100
A-5
',. Adv. Etasl. Santoprene 201-73; 79xl08x3 mm plaques
0
94
95
A-5
Adv. Etasl. Santoprene 201-80; 79x108x3 mm plaques
-2
97
98
A-7
Adv. Elasl. Santoprene 201-87; 79xl08x3 mm plaques
-3
94
93
Adv. Etasl. Santoprene 203-40; 79xl08x3 mm plaques
0
91
100
0-5 0-7
Adv. Elasl. Sanloprene 103·50; 79x108x3 mm plaques Adv. Etasl. Sanloprene 201-55; 79x108x3 mm plaques
Adv, Etasl. Santoprene 203-50; 79x108x3 mm plaques likely
t? h.avesev8(i efl.act;' 'good (!~I~~n~e
DETA
/. ·23
7
'::>:
"'0
DuPont Alcryn Adv. Elasl. San top rene
5
96
103
A-8
Adv. Elasl. Santoprene 101·55; 79x108x3 mm plaques
2
97
99
A1
Adv. Elasl. Santoprene 101·64; 79x108x3 mm plaques
1
106
105
A2
Adv. Elasl. Santoprene 101·73; 79x108x3 mm plaques
1
104
102
A1
Adv. Elasl. Santoprene 101·80; 79x108x3 mm plaques
0
105
96
A6
Adv. Elasl. Santoprene 101-87; 79x108x3 mm plaques
1
92
98
DO
Adv. Elasl. Sanloprene 103-40; 79x108x3 mm plaques
0
99
96
02
Adv. Elasl. Santoprene 103·50; 79x108x3 mm plaques
5
96
103
A-8
Adv. Elasl. Santoprene 201-55; 79x108x3 mm plaques
2
97
99
A1
Adv. Elasl. Santoprene 201-64; 79x108x3 mm plaques
1
106
105
A2
Adv. Elasl. Santoprene 201-73; 79x108x3 mm plaques
1
104
102
A1
Adv. Elasl. Santoprene 201-80; 79x108x3 mm plaques
0
105
96
A6
Adv. Elasl. Santoprene 201-87; 79x108x3 mm plaques
1
92
98
DO
Adv. Elasl. Santoprene 203-40; 79x108x3 mm plaques
0
99
96
02
Adv. Elasl. Santoprene 203-50; 79x108x3 mm plaques
--l
o
DuPonl Alcryn
5
;/.8
'. 23,
Adv. Elasl. Geolas1701·70 80
5
·24
Diethanolamine Diethyl Ether
j1"
23 •
23
Diethyl Sebacate Diethylenetriamine Dihydroxypropane (1,2-) Dimethyl Phthalate Dimethylformamide
Adv. Elasl. Santoprene
resistanc~ is c.ondhiO'nal '.'
t-'
Is'CO~dilio~lir
nOI ~uitable for use ,<"., .
melhylene chloride
Chemical Resistance - Olefinic Thermoplastic Elastomer
cu
CO
Chemical Resistance - Olefinic Thermoplastic Elastomer
-l
"o
i
% Change
Reagent
Reagent Note
conc'ITemp'.1 Time (%)
Oioctyl Phthalate
I'C)
(days)
POL Rating
Weight
5
-9
7
-6
8
-4
~
7 7 7 7
9"
-1
23,
7
0
~
~
7 7 7 7 7 7
9 B B
2.
7
o
7
-1
7
1
~
~
~
~
~ ~
o
.~,
23·
5 7 .,.' '8
-I
I -9 -6 -4 -I
I Volume 'I. ,T,e,nsne
Retained Hardness Change.. \,
•••••
·.~'t~n~lh 1 111 104
99 97 97 92 91 111 104 99 97 97 92 91
~
Cl
,-
Resista.n~.eNote
Material Note
,",.'.
121 110 104 100 101
A-I
95 98 121 110 104 100 101 95 98
DO DO
AI AI
AO A-I
A-I AI AI
AO A-I
DO DO
Adv. Adv. Adv. Adv. Adv, Adv, Adv, Adv. Adv, Adv. Adv. Adv. Adv, Adv.
Elas!. Santoprene 101-55; 79xl08x3 mm plaques Elas!. Santoprene 101-64; 79xl08x3 mm plaques Elas!. Sanloprene 101-73; 79xl08x3 mm plaques Eras!. Sanloprene 101-80; 79xl08x3 mm plaques Elas!. Sanloprene 101-87; 79xl08x3 mm plaques Eras!. Santoprene 103-40; 79xl08x3 mm plaques Elas!. Santoprene 103-50; 79xl08x3 mm plaques Elas!. Santoprene 201-55; 79xl08x3 mm plaques Elas!. Santoprene 201-64; 79xl08x3 mm plaques Elas!. Sanloprene 201-73; 79xl08x3 mm plaques Elas!. Santoprene 201-80; 79xl08x3 mm plaques Elas!. Sanloprene 201-87; 79xl08x3 mm plaques Eras!. Sanloprene 203-40; 79xl08x3 mm plaques Elas!. Sanloprene 203-50; 79xl08x3 mm plaques DuPont Aleryn
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Etas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Etas!. Elas!. Elas!.
24
Dioxane (1,4-)
23
-23
•. 23
o
2~
,23·
1 2 1 2
'<23'
4
23
-23
23
~3t
2i:;
o
~~;,
1 2 1 2 4
"'23
.\~~" 2,~<.
2iJ",
Oowtherm A Ethers Ethyl Acetate
127 97 99 96 94 91 93 127 97
99 96 94 91 93
138 103 103 100 98 94 98 138 103 103 100 98 94 98
A12
AO AO A-I
A-3
DO D-3
A12 AD AD A-I A-3
DO 0-3
Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Sanloprene Santoprene Sanloprene Sanloprene Santoprene Sanloprene
101-55; 79xl08x3 101-64; 79xl08x3 101-73; 79xl08x3 101-80; 79xl08x3 101-87; 79xl08x3 103-40; 79xl08x3 103-50; 79xl08x3 201-55; 79xl08x3 201-64; 79xl08x3 201-73; 79xl08x3 201-80; 79xl08x3 201 -87; 79xl08x3 203-40; 79xl08x3 203-50; 79xl08x3
mm mm mm mm mm mm mm mm mm mm mm mm mm mm
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
DuPont Aleryn Adv. Elas!. Sanloprene
petroleum acetic ether
DuPont Aleryn
Ethyl Acrylate Ethyl Alcohol
@
'1:l
is'' ~
n
'" 1;;'
<E'" ;::l
t""
~
..,P
u::
ethyl propenoate
Adv. Elas!. Sanloprene
ethanol
95 95 95 95 95 95 95 95 95 95 95 95
;d~::;, . ~
23.,
7 7 7 7 7 7 7 7 7 7 7 7
2 -2 -2 -2 -2 -2
-I 2 -2 -2 -2 -2
92 102 93 100 98 101 101 92 102 93 100 98
103 III 99 106 106 III 110 103 111 99 106 106
A-8 AD AI
AO AO DO DO A-8
AO AI
AO AO
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Etas!. Elas!. Elas!. Etast. Elas!.
DuPonl Aleryn Santoprene 101-55; 79xl08x3 mm plaques Santoprene 101-64; 79xl08x3 mm plaques Santoprene 101-73; 79xl08x3 mm plaques Sanloprene 101-80; 79xl08x3 mm plaques Sanloprene 101-87; 79xl08x3 mm plaques Sanloprene 103-40; 79xl08x3 mm plaques Sanloprene 103-50; 79xl08x3 mm plaques Santoprene 201-55; 79xl08x3 mm plaques Santoprene 201-64; 79xl08x3 mm plaques Sanloprene 201-73; 79xl08x3 mm plaques Santoprene 201-80; 79xl08x3 mm plaques Sanloprene 201-87; 79xl08x3 mm plaques
Adv. Elast. Sanloprene 203-40; 79xl08x3 mm plaques Elast. Sanloprene 203-50; 79xl08x3 mm plaques DuPont Alcryn 1201 8-70; 1.9 mm slabs DuPont Alcryn DuPont Alcryn 1201 8-70; 1.9 mm slabs Adv. Elast. Santoprene
DuPont A1cryn Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Adv. Elast. Santoprene Elast. Santoprene 181-55; medical Elast. Santoprene 181-64; medical Elast. Santoprene 281-55; medical Elast. Santoprene 281-64; medical Elast. Santoprene 281-87; medical DuPont Alcryn Elast. Santoprene 181-55; medical Elast. Santoprene 181-64; medical Elast. Santoprene 281-55; medical Elast. Santoprene 281-64; medical Elasl. Santoprene 281·87; medical
grade grade grade grade grade grade grade grade grade grade
Adv. Elasl. Santoprene
DuPont Alcryn Adv. Elasl. Santoprene
DuPont Alcryn Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elasl. Elasl. Elasl. Elasl. Elasl. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast.
Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Sanloprene Santoprene
101-55; 79xl08x3 101·64; 79xl08x3 101-73; 79xl08x3 101-80; 79xl08x3 101·87; 79xl08x3 103-40; 79xl08x3 103·50; 79xl08x3 201-55; 79xl08x3 201·64; 79xl08x3 201-73; 79xl08x3 201-80; 79xl08x3 201·87; 79xl08x3 203-40; 79xl08x3 203-50; 79xl08x3
mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques
~ ~
Chemical Resistance - Olefinic Thermoplastic Elastomer
--I
""U
~
l':l
0
~"
% Retained
%Ch#Ilge Reagent
Reagent.Note
Conc. Temp. Time ('CI
('41
,24
Furfural Furfuryl Alcohol Gallic Acid Gases Gasohol Gasoline
"Volu'me
Rating " ~;>':"
24'
Freon 113 Fuel Oils Fungus
(days),
PDLWeighl
8' 4:', '.'
7
fuel oil numbers 1-6
Hardness
fenslle
'~tr8ngtli
Resistance N()te' fluid has Iitilino no eflect
20
9 , resistance is conditi,onal
6
21
'
~,
Ad., Elast Santoprene
'. ' light grO)Vlh'
Ad., Elast San top rene 201-73; 50x50xl mm sheets
medium growlt\; 3?60% light growth ",
Ad., Elast Santoprene 201-80; 50x50xl mm sheels
traces of growth', 0-10%
Ad., Elast Santoprene 203-50; 50x50xl mm sheets
, light groVllh
Ad., Elast Santoprana 302-40; 50x50xl mm sheets
lair rasls'!ance '\'
Ad., Elast Santoprene 201-87; 50x50xl mm sheets
Ad., Elast Santoprene
LPG - LP 24
,2
Casinghead, natural
;', '. 4'
, lIuld has severuU'ect
DuPont Alcryn
' iesfsiii~cejs corid;liiariiif ... "
Ad., Elast Santoprene
' fluid has' minor -10 moderata et1~cl '
DuPont Alcryn
'~:
unleaded
24 24
7
4
18
30
68
85
A-9
unleaded with ethanol
24
7
19
31
65
80
A-12
85
24
7
4 2'
32
52
56
64
A-17
85
24
7
:1
27
48
57
66
A-16
85
'24
7
3
22
40
52
69
A-18
90
23
6.9
6,
25
6,,'
24
6
21
5 \
unleaded with 15% methanol
unleaded, with 10% ethanol
90 90
Gear Oils
9
food grade
.........
8
:
0
~
" DuPont Alcryn 1201 B-70; 1-9 mm slabs
I
DuPont Alcryn 1201 B-60; 1-9 mm slabs DuPont Alcryn 1201 B-70; 1-9 mm slabs
";:
DuPont Alcryn 1201 B-80; 1-9 mm slabs Ad., Elast Geolast 701-80 Ad., Elast Geolast701-87
"
Ad., Elast Geolast 703-40
8 80W-90EP
Glucose Glycerin
DuPont Alcryn DuPont Alcryn 1201 B-70; 1-9 mm slabs
4
agar sol'n
Material Note;
Chang~
0
<:\
""lIti'd'iiasiliiie'lontielieCi' >:" )-:.~:
DuPont Alcryn 1201 B-70; 1-9 mm slabs
"', good resistanCe
Ad., Elast Santoprene
DuPont Alcryn
glycol alcohol, glycol 23
7
23
7
23
't",23 /,' 23
1
95
100
A-4
0
100
102
AO
7
0
94
97
Al
7
0
94
96
AO
Ad., Elast Santoprana 101-80; 79xl08x3 mm plaques
\
"
f
Ad., Elast Santoprana 101-55; 79xl08x3 mm plaques Ad., Elast Santoprene 101-64; 79xl08x3 mm plaques Ad., Elast Santoprana 101-73; 79xl08x3 mm plaques
7
0
101
102
A-2
Ad., Elast Santoprana 101-87; 79xl08x3 mm plaquas
'",',:23":,, 23\
7
0
98
98
D-l
Ad., Elast Santoprana 103-40; 79xl08x3 mm plaques
7
1
9B
100
D2
Ad., Elast Santoprana 103-50; 79xl08x3 mm plaquas
7
1
95
100
A-4
Ad., Elast Santoprane 201-55; 79xl08x3 mm plaquas
@
~3 23
7
0
100
102
AO
Ad., Elast Santoprane 201-64; 79xl08x3 mm plaques
'S'"
23
7
0
94
97
Al
Ad., Elast Santoprene 201-73; 79xl08x3 mm plaques
',23
7
0
94
96
AO
Ad., Elast Santoprene 201-80; 79xl08x3 mm plaques
7
0
101
102
A-2
Ad., Elast San top rene 201-87; 79xl08x3 mm plaques
. g~
7
0
98
98
D-l
Ad., Elast Santoprene 203-40; 79xl08x3 mm plaques
2~
7
1
98
100
D2
Ad., Elast Santoprene 203-50; 79xl08x3 mm plaques
~
n'til
2,>,
tl C1l
24
til
to' ;:l
t"'
..,0: ..,
I:l
u::
Greases
IHeptane
mineral greases
DuPont Alcryn Ad., Elast Santoprene
@
~:.:.:
'"tl
IS" C/) ..... r;' C/)
t::l
~eagenL " .~.
.
:~::::
.;-
.....
..': .-. :;"::~,,::: .
I
ionIHar~~~
~:"
Reagent Note
··~hlln·n
....'~,'
Hexane
Adv. Elas!. Santoprene
(1) C/)
n-Hexane
7
<E'
" " " " "
7 7 7
!,:
;:l
~
., l=l .,
0\r;:
114
127
lB
92
B6
A-12
Adv. Elas!. Santoprene 101-64; 79xl08x3 mm plaques
13
BB
B3
A-12
Adv. Elas!. Santoprene 101-73; 79xl08x3 mm plaques
11
B9
90
A-12
Adv. Elas!. Santoprene 101-80; 79xl08x3 mm plaques
7
5.7
92
90
A-l0
....", ... Adv. Etas!. Santoprene 101-87; 79xl08x3 mm plaques
23 23' ,
7
3
B9
B9
0-9
Adv. Elas!. Santoprene 103-40; 79xl08x3 mm plaques
7
3
87
99
0-10
Adv. Elas!. Santoprene 103-50; 79xl08x3 mm plaques
.23}
7
36
114
127
A-9
Adv. Elas!. Santoprene 201-55; 79xl08x3 mm plaques
'23.\ 23. .
7
lB
92
86
A-12
Adv. Elas!. Santoprene 201·64; 79xl08x3 mm plaques
7
13
88
83
A-12
Adv. Elas!. Santoprene 201·73; 79xl08x3 mm plaques
"'·,23
"
A-9
.':,:.(
7
11
89
90
A-12
Adv. Elas!. Santoprene 201-80; 79xl08x3 mm plaques
7
5.7
92
90
A-l0
Adv. Elas!. Santoprene 201-87; 79xl08x3 mm plaques
'·'23
7
3
89
89
0-9
Adv. Elas!. Santoprene 203-40; 79xl08x3 mm plaques
23
7
3
87
99
0-10
Adv. Elas!. Santoprene 203-50; 79xl08x3 mm plaques
24
..
fluid has little to no effe9t
-
0
4 re$i$tan~ is conditional
31.1
Skydrol 500B4
15.6
Adv. Elas!. Vyram; Shore A70
5.7
Adv. Elas!. Vyram; Shore A90
-1
Adv. Elas!. Vyram; Shore D50 A-2
DuPont Atcryn 1201 B-70; 1.9 mm slabs
90
77
A-2
DuPont Alcryn 1201 B-60; 1.9 mm slabs
88
74
AO
DuPont Alcryn 1201 B-80; 1.9 mm slabs
62
47
A-I
DuPont Alcryn 1201 8-70; 1.9 mm slabs
90
-1
0
-2
-1
-2
-1
Adv. Elas!. Santoprene
23
-1
92
95
A-3
Adv. Elas!. Sanloprene 101-55; 79xl08x3 mm plaques
10
23
0
103
102
Al
Adv. Etas!. Sanloprene 101-64; 79xl08x3 mm plaques
10
)13
1
104
100
Al
Adv. Elas!. Sanloprene 101-73; 79xl08x3 mm plaques
10
1
111
107
Al
Adv. Elas!. Sanloprene 101-80; 79xl08x3 mm plaques
10
0
87
88
A6
Adv. Elast. Santoprene 101-87; 79xl08x3 mm plaques
10
0
104
102
01
Adv. Elas!. Santoprene 103-40; 79xl08x3 mm plaques
10
0
100
100
03
Adv. Elas!. Santoprene 103-50; 79xl08x3 mm plaques
10
.23
-1
92
95
A-3
Adv. Elast. Santoprene 201-55; 79xl08x3 mm plaques
10
23
0
103
102
Al
10
~~.
1
104
100
Al
10
23."
1
10
2;t
0
87
88
A6
Adv. Elas!. Santoprene 201-87; 79xl08x3 mm plaques
10
23.
0
104
102
01
Adv. Elas!. Santoprene 203-40; 79x 108x3 mm plaques
10
23
0
100
100
03
Adv. Elas!. Santoprene 203·50; 79xl08x3 mm plaques
10
:?100):'
10
Adv. Elas!. Geolast701-70
10
100>
11
Adv. Elas!. Geolast 701-80
8
Adv. Elas!. Geolast 701-87
~~:~.~~~i
111
107
Adv. Elast. Santoprene 201-64; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-73; 79xl08x3 mm plaques .~::
Al
6
5
DuPont Alcryn 7
-l ""U
Adv. Elas!. Geolast 703·50 Adv. Elas!. Santoprene
20 20
Adv. Elas!. Santoprene 201-80; 79xl08x3 mm plaques
Adv. Elas!. Goolast 703-40 :.....
lB
o
DuPont Alcryn
79
0
-
10
Hydrochloric Acid
Adv. Elas!. Santoprene Adv. Elas!. Vyram; Shore A60
fluid has 1~t1e to no eftec! Dexron II ATF
DuPont Alcryn DuPont Alcryn 1201 B·70; 1.9 mm slabs
4.1
Hydrobromic Acid Hydrochloric Acid
Adv. Elas!. Santoprene 101-55; 79xl08x3 mm plaques
23 ·"'·23
24
Hexene Hydraulic Fluids
36
Chemical Resistance - Olefinic Thermoplastic Elastomer
DuPont Alcryn 1201 B-70; 1.9 mm slabs
~
c..:>
~ ~
Chemical Resistance - Olefinic Thermoplastic Elastomer
--l
"'U
o
""Change Reagent
Reagent'Note
Hydrochloric Acid
Hydrofluoric Acid Hydrofluosilicic Acid Hydrogen Hydrogen Peroxide Hydrogen Sulfide
Conc. ITem p . , Time
POL
(%)
('C)
Rating
20
82
20 37
82
(days)
7
24 moist
24
Isooctane
@
"tl
~ ~
r;' C/)
~ C/) tEo ;:l
t'"
0: ..,
..,
l=l
23 23 23 23 23 23 23 23 23 23 23 23 23 23 24 wilh 50% toluene
with 30% loluene
50 50 50 50 50 50 50 50 50 50 50 50 50 50 70 70 70 70 70 70 70 70 70 70 70 70
"" Retained
I
Tensile Illodulus Elongation Strength
I
Hardness Change
7
7 7 7
151
63
7 7 7 7
7 7
23 23 23 23 23 23 23 23 23 ,.,.,
23 23 23
2j 23· ". 23 23',
~3 ~3
'.
DuPonl Alcryn DuPont Alcryn 1201 B·70; 1.9 mm slabs
tair' resistance
37 30 23 20 13 12 8 37 30 23 20 13 12 8
5 5 4 4 6 6 7
5
91 85 85 93 85 94 83 91 85 85 93 85 94 83
85 73 75 90 86 100 98 85 73 75 90 86 100 98
69 59 47 43 29 26
4 4 6 4
3 '-"2 ",
17 'l.
4 ';4
7
4
7
6
7 7 7 7 7 7 7 7 7 7 7 7 7
4 2 2
,.S ~
5
69 59 47 43 29 26 17
4..,.
...,.$
DuPont Alcryn Adv. Elas!. Sanloprene DuPonl Alcryn Adv. Elas!. Sanloprene 101·55; 79xl08x3 mm plaques
A-13 A-15 A·ll A-7 A-1 0·6 0-11 A-13 A-15 A·11 A-7 A-1 0-6 0·11
Adv. Elas!. Sanloprene 101·64; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 101·73; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 101-80; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 101-87; 79x108x3 mm plaques Adv. Elasl. Sanloprene 103·40; 79x108x3 mm plaques Adv. Adv. Adv. Adv.
Elas!. Elasl. Elas!. Elas!.
Adv. Elas!. Adv. Elas!. Adv. Elas!. Adv. Elas!. likely to have minor effect
3 2 4
7 7
Adv. Elas!. Sanloprene
good resistance
good resistance likely to have minor eilect
7
7
i1uid has minor to moderate effect
A11
6 7
Material Note
8 6
4 6 6 7
7 7 7
-12
Resistance Note
4
7
7
23
L.?3
Volume
good resislance likely \0 have minor effect resistance Is condilional
5 4
7
-9
3 8 6 8 6
7 7 7 7
23 23 23 23 23
2~
I
5
cold
Isooctane
Weight
66 59 42 41 25 21 14 66 59 42 41 25
75 72 80 84 68 94 76 75 72 80 84 68 94 76 60 64 86 84 84 94 80 60 64 86 84 84
68 54 73 83 67 98 89 68 54 73 83 67 98 89 51 61 80 86 82 98 89 51 61 80 B6 82
Sanloprene Sanloprene Sanloprene Santoprene
103·50; 79xl08x3 201-55; 79xl08x3 201-64; 79x108x3 201-73; 79x108x3 Sanloprene 201·80; 79x108x3 Sanloprene 201-87; 79xl08x3 Sanloprene 203-40; 79xl08x3 Santoprene 203·50; 79xl08x3 DuPont Alcryn
mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques
A-17
Adv. Elas!. Sanloprene 101-55; 79xl08x3 mm plaques
A-20 A-12 A-ll A-4 0·11 0-15 A·17 A·20 A·12 A-ll A·4 0-11 0·15 A-19 A·18 A-20 A·9 A-7 0-10 0·14 A-19 A·18 A-20 A·9 A-7
Adv. Adv. Adv. Adv.
..
~;
Elas!. Elas!. Elas!. E1as!.
Santoprene Sanloprene Sanloprene Santoprene
Adv. Elasl. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene Adv. Elas\. Sanloprene Adv. Elast. Sanloprene Adv. Elast. Sanloprene :~;::
Adv. Elas\. Sanloprene Adv. Elasl. Sanloprene Adv. Elast. Sanloprene Adv. Elasl. Sanloprene Adv. Elas!. Sanloprene Adv. Elasl. Sanloprene Adv. Elas!. Sanloprene Adv. Elas!. Sanloprene
101·64; 79xl08x3 mm plaques 101-73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm plaques 101-87; 79x108x3 mm plaques 103·40; 79xl08x3 mm plaques 103·50; 79xl08x3 mm plaques 201·55; 79xl08x3 mm plaques 201·64; 79xl08x3 mm plaques 201-73; 79xl08x3 mm plaques 201·80; 79xl08x3 mm plaques 201-87; 79xl08x3 mm plaques 203-40; 79xl08x3 mm plaques 203·50; 79xl08x3 mm plaques 101-55; 79xl08x3 mm plaques 101·64; 79xl08x3 mm plaques 101-73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm plaques 101·87; 79xl08x3 mm plaques 103,40; 79xl08x3 mm plaques 103·50; 79x108x3 mm plaques 201·55; 79xl08x3 mm plaques 201·64; 79x108x3 mm plaques 201·73; 79xl08x3 mm plaques 201-80; 79xl08x3 mm plaques 201-87; 79xl08x3 mm plaques
@
'1l
~ ~
n'Vl
~ Vl tE·
Reag~~t'
Reagent Note x:';·;"
Isooctane
with 30% toluene
Isopropyl Alcohol
21 14
t
.,c:r
.,p
Isopropylamine Jet Aircraft Fuels
98 89
0-10 0-14
109 98 100 104
104 96 94 104
Al Al
2 -2
4 -I
·2 3
-I
5
DuPont Alcryn DuPont Alcryn 1201 8·60; 1.9 mm DuPont Atcryn 1201 8-70; 1.9 mm DuPont Alcryn 1201 B·80; 1.9 mm DuPont Alcryn ALR-6387; 1.9 mm slabs,
AO A-6
alkylamine
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
13
r~*ta~ce. i(~ondrtiona'"
Kerosine 10
Adv. Elast. Santoprene DuPont Atcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
<11~11~~s iatMi?ijGeJ'~~i
16
tacquer solvents
DuPont Alcryn
synthetic and natural Tide
Adv. Etast. Santoprene
o o o
3 3 3 3 3 3 3 3 3 3 3 3 3 3
95 101 101 97 103 97 97 95 101 101 97 103 97 97
o o o o o
o o o o o o
102 103 101 99 103 98 97 102 103 101 99 103 98 97
A-2 A2 Al Al
AO 01 02 A-2 A2 Al Al
AO 01 02
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elast. Elast. Etast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast.
Linseed Oil
~
...•• .... .~
.':6" 6 6 7'
12 12 9 6 4 2 2 12 12 9 6 4 2 2
8 27.1
91 96 94 95 98 100 97 91 96 94 95 98 100 97
91 94
88 90 93 96 97 91 94
88 90 93 96 97
A-7 A-7 A-2 A-l A5 0-1
DO A-7 A-7 A-2 A-l A5 0-1
DO
10
-l ""lJ
Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene
101·55; 79xl08x3 101-64; 79xl08x3 101-73; 79xl08x3 101-80; 79xl08x3 101-87; 79xl08x3 103-40; 79xl08x3 103-50; 79xl08x3 201-55; 79xl08x3 201·64; 79xl08x3 201-73; 79xl08x3 201-80; 79xl08x3 201-87; 79xl08x3 203-40; 79xl08x3 203-50; 79xl08x3
mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques
Adv. Elast. Santoprene DuPont Alcryn
Lithium Grease
o
slabs slabs slabs neutral 75A
Adv. Elast. Santoprene
JP 1.3,4,5 JP 4
8
Lacquers Lactic Acid Latex Laundry Detergents
Adv. Elast. Santoprene 203·40; 79xl08x3 mm plaques Adv. Elast. Santoprene 203·50; 79xl08x3 mm plaques
isopropanol
;:l
<.t::
94 80
Chemical Resistance - Olefinic Thermoplastic Elastomer
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elast. Elast. Etast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Elast. Etast. Elast. Elast.
Santoprene 101-55; 79xl08x3 mm plaques Santoprene 101-64; 79xl08x3 mm plaques Santoprene 101-73; 79xl08x3 mm plaques Santoprene 101-80; 79xl08x3 mm plaques Santoprene 101-87; 79xl08x3 mm plaques Santoprene 103-40; 79xl08x3 mm plaques Santoprene 103-50; 79xl08x3 mm plaques Santoprene 201-55; 79xl08x3 mm plaques Santoprene 201-64; 79xl08x3 mm plaques Santoprene 201-73; 79xl08x3 mm plaques Santoprene 201-80; 79xl08x3 mm plaques Santoprene 201·87; 79xl08x3 mm plaques Santoprene 203-40; 79xl08x3 mm plaques Santoprene 203-50; 79xl08x3 mm plaques DuPont Alcryn DuPont Alcryn 1201 B·70; 1.9 mm slabs Adv. Elast. Vyram; Shore A60
~
01
.J>.
0>
Material Note
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elast. Elast. Etast. Etas!. Elas!. Elast. Elast. Elast. Elast. Elast. Elas!. Elas!. Elas!. Elas!.
Adv. Elast. Adv. Elast. Adv. Elast. Santoprene Santoprene Santoprene Santoprene Sanloprene Sanloprene Santoprene Santoprene Santoprene Santoprene Sanloprene Sanloprene Santoprene Sanloprene
Vyram; Shore A70 Vyram; Shore A90 Vyram; Shore 050 101·55; 79xl08x3 mm plaques 101·64; 79xl08x3 mm plaques 101·73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm plaques 101·87; 79xl08x3 mm plaques 103·40; 79x108x3 mm plaques 103·50; 79xl08x3 mm plaques 201·55; 79x108x3 mm plaques 201 ·64; 79xl08x3 mm plaques 201·73; 79x108x3 mm plaques 201·80; 79x108x3 mm plaques 201·87; 79x108x3 mm plaques 203·40; 79x108x3 mm plaques 203·50; 79x108x3 mm plaques
DuPont Alcryn 12018·70; 1.9 mm slabs Adv. Elas!. Santoprene DuPont Alcryn Adv. Elas!. Santoprene DuPont Alcryn Adv. Elas!. Santoprene Adv. Elas!. Vyram; Shore A60 Adv. Elas!. Vyram; Shore A70 Adv. Elas!. Vyram; Shore A90 Adv. Elas!. Vyram; Shore 050 Adv. Etast. Santoprene 181·55; medical grade Adv. Elast. Sanloprene 181·64; medical grade Adv. Elas!. Santoprene 281·55; medical grade Adv. Elas!. Santoprene 281·64; medical grade Adv. Elas!. Sanloprene 281·87; medical grade DuPont Alcryn DuPont Alcryn 1201 8·70; 1.9 mm slabs Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Elas!. Eras!. Eras!. Elast.
Adv. Elas!. Santoprene Sanloprene 101·55; 79x108x3 Santoprene 101·64; 79xl08x3 Santoprene 101·73; 79x108x3 Santoprene 101 ·80; 79x108x3 Sanloprene 101·87; 79xl08x3 Santoprene 103·40; 79x108x3 Santoprene 103·50; 79x108x3 Santoprene 201·55; 79x108x3 Santoprene 201·64; 79x108x3 Santoprene 201·73; 79x108x3 Santoprene 201·80; 79x108x3 Santoprene 201·87; 79x108x3 Santoprene 203·40; 79x108x3
mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques mm plaques
@
'1:l
~ ~
n' en tJ
Reagent
Reagent Note.
.{
2~:
Methyl Ethyl Ketone
en
to· t"-
o:., .,p
tr::
I
. V>, .'; :._.
95
98
DO
f1~~ha~s-~rer~enecl •.
.. 172
'·:':"·100 weal lo·ies·.
271
..
fluid has 'severe enect
\·~4
174
24
Methyl Methacrylate Methyl Oleate Methylene Chloride
,',-,
,
;,..
.> Material Note
x::
7
,24
Methyl Isobutyl Ketone
}\"'-
Resistance Note
Hardness Change ,;.,.,
24
~
;J
It
ICOIlC·1 TemP•.\ Time l%)} ('Cr (days)
Adv. Elast. Santoprene 203-50; 79xl08x3 mm plaques DuPont Alcryn DuPont Alcryn 1201 8-70; 1.9 mm slabs DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
277
:~.
Adv. Elast. Santoprene
.. ..
2i'i" 24
Milk
504
472
1 1 1
1 2 2
,
::';;:::.:.;'::... ....
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
;:,:,<.-,
24\':
Mineral Oils
5 -4 5 -4 2 -5 -6 -5
-6 -6 ·6
30 24 30 24 19
110 82 90
106 95 91
A-6 A-I A-4
92 97 92 97 98
90 90 90 90 97
A-5 A-2 A-5 A-2 A-4
119 116 112 76 84 76 84 77
102 118 87 67 79 67 79 52
A·7 A-2 A-I A-18 A-17 A-18 A-17 A·15
i,
.)}:\:
.: ...•<
~~:.,~
t~~:;~;':t':'?j:{" . \~.:j.fqf.~.:~::~~;~::~t1,~~\ t~ :.: :~ : : [~ : : ~ .:~:~ ~ ':;~: .;.:~
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs DuPont Alcryn ALR-6369; 1.9 mm slabs DuPont Alcryn ALR-6386; 1.9 mm slabs, neutral 65A Adv. Adv. Adv. Adv. Adv.
Elast. Elast. Elast. Elast. Elast.
Santoprene 181-55; medical grade Sanloprene 181-64; medical grade Santoprene 281-55; medical grade Santoprene 281-64; medical grade Santoprene 281-87; medical grade DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs DuPont Alcryn ALR-6369; 1.9 mm slabs DuPont Alcryn ALR-6386; 1.9 mm slabs, neutral 65A Adv. Elast. Santoprene 181·55; medical grade Adv. Elast. Santoprene 181-64; medical grade Adv. Elast. Santoprene 281-55; medical grade Adv. Elast. Santoprene 281-64; medical grade Adv. Elast. medical
Mineral Spirits 40.5 18.9 15
Molasses
edible, food grade non·edible
Motor Oils
SAE 20W·50 5W·30 SAE 10W-40 SAE 10W·30SF SAE 10W-40
Naphtha Naphthalene Nitric Acid
Adv. Elast. Vyram; Shore A70 Adv. Elast. Vyram; Shore A90 Adv. Elast. Vyram; Shore 050 Adv. Elast. Santoprene :·:<:,:~~::·%?g:~:~~1~n: ::~F:;:·:::-::f.~nmM>,· t~;;j ~;}
-I
:.:,-: :~ . ji:~i.: .~: J: ~f;:;:~:;r): ~ :W: :.~: .;:.;~ lj~·~:~;~: t·:
·2 71
-3 -2
-3 -5
127 133
88 104
AO A-2
..
DuPont Alcryn 1201 B-70; 1.9 mm slabs Adv. Elast. Geolas1701·80 DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
..
coal white spirits red fuming 10 20 30 30 30
·31
-16
24
19
75
2
A24
., lIuid ..._"";:.:
r\i~::m:~;;'to~~~:ale ·hillect
DuPont Alcryn Adv. Elast. Santoprene DuPont Alcryn 1201 B-70; 1.9 mm slabs DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs DuPont Alcryn
-i -0
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
~
--.J
~
Chemical Resistance - Olefinic Thermoplastic Elastomer
c5;
o Reagent
.~
_
I
Reagent Note
Nitric Acid
I I I I I Cone, Temp, Tlm.e . 1%) I'C)ldays) 37 70
Ozone Paints
23 23 23 23 23 23 23 23 23 23 23·· 23 23 23 24
7 7 7 7 7 7 7 7 7;' 7 7 7 7 7
distallate oils
24 70 20 ppm; lesled per ASTM Dl149 ..
7 7
9
7
9
~.
Piperidine
~
tl ~
IS
i3
t2
116 110 106 101 98 92 92 116 110 106 101 98 92 92
139 113 106 102 100 95 102 139 113 106 102 100 95 102
\.,
r ".
A2 A4 A3; Al A-2 I
DO DO likely to have severe ellecl
·7
127
'. resistance·iHonditlonal rair resistance .not su~able for use 112
2 1 ,. ,
99 140 122
4 65 93 87
41 42 45
49 44 49
2" ,,;
I
6
8 ,,11
Adv. Elasl. Sanloprene ..
..
.. .. DuPont Alcryn DuPont Alcryn 1201 8·70; 1.9 mm slabs DuPonl Alcryn ALR-6369; 1.9 mm slabs DuPont Alcryn ALR·6386; 1.9 mm slabs, neutral 65A
•."01 su~able 'Io,[use likely.lo have severe. ellact
Adv, Elasl. Sanloprene DuPont Alcryn
resi~lanc\l is condi.tional
Adv, Elasl. Sanloprene
""i;Ii/~esjslanc~"
6
;
DuPont Alcryn 1070BK; 1.9 mm slabs DuPonl Alcryn 11708K; 1.9 mm slabs
iali resl$1ance'
.. resisl. is conditional- depends on lemp.· ' resist.a~c~i$C~nd~ional.. lIuid bas'slIvere elleel A·27 A-25 A·28
...."
..
.. .. "
'.'
85
f
;1' n.
... ;:"c.
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
DuPont Alcryn DuPonl Alcryn 1201 8·70; 1.9 mm slabs
':.::'." ~ •••"••••...,
4 ".
Santoprene 101·55; 79xl08x3 mm Santoprene 101-64; 79xl08x3 mm Santoprene 101·73; 79xl08x3 mm Santoprene 101·80; 79xl08x3 mm Sanloprene 101-87; 79xl08x3 mm Sanloprene 103-40; 79xl08x3 mm Sanloprene 103-50; 79xl08x3 mm Sanloprene 201-55; 79xl08x3 mm Santoprene 201-64; 79xl08x3 mm Santoprene 201-73; 79xl08x3 mm Santoprene 201-80; 79xl08x3 mm Santoprene 201·87; 79xl08x3 mm Santoprene 203·40; 79xl08x3 mm Sanloprene 203·50; 79xl08x3 mm DuPonl Alcryn Adv. Elasl. Santoprene .. ..
fluid has I~tie 10'no eflect .•'
A-l
v. 2,
residual oil carbolic acid
Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
resislance is conditional
. 7 7 7
DO DO
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
...... •..•
24 '.' 24 24 24"
A2 A4 A3 Al A-2
Adv. Elasl. Sanloprene "
e~posure
4
.
Material Note
no cracklng'after 168 hour
4 6 4
;:l
t"" c;:
·6
solvenl based
2:'..
is"
8 6
40
Perchloroethylene
'1:l
17 -9 7 -5 8 -5 9 -1.5 .8 1 8 3 5 17 6 -9 '7·5 8 ~ -5 9 -1.5 8 1 8 3 ,•. 2 S. 6"
40
I,
lairreslslance nOl suilable lor use
enamel; solvenl based
Pentane Perchloroethane
@
Resistance Note
Weight
4 6 2
Palmitic Acid Paraffin
Petroleum Ether Petroleum Oils Phenol Phenol Resins Phosphoric Acid
% Retained
6 2"
Nitrobenzene
Oils Oleic Acid Oleum Olive Oil
POL Rating
% Change
51 25 18 17 13 11 11 51
116 93 88 93 85 90 86 116
132 89 88 94 87 90 95 132
A2 A-12 A-l0 A-14 A-9 0·7 0-11 A2
Adv, Adv. Adv. Adv. Adv. Adv, Adv, Adv.
Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
Sanloprene Sanloprene Sanloprene Santoprene Sanloprene Santoprene Santoprene Santoprene
101·55; 79xl08x3 mm plaques 101·64; 79xl08x3 mm plaques 101·73; 79xl08x3 mm plaques 101-80; 79xl08x3 mm plaques 101-87; 79xl08x3 mm plaques 103-40; 79xl08x3 mm plaques 103·50; 79xl08x3 mm plaques 201-55; 79xl 08x3 mm plaques
©
'S"' ~
't"l
Reagent Note
F\!agent
0'
~_.~
-
Cone. (%)
Yo"
Piperidine
89 88 94 87 90 95
'" 15' ;:l
t-<
0: ..,
..,>l
Polyvinyl Acetate Potassium Alum Potassium Aluminum Sulfate Potassium Hydroxide
emulsions
23 23 23 23 23 23 23 23 23 23 23 23 23 ~3
lOP 100 '125 125 125 125 .125 125 125 125' 125 125 125 125, 125 125 23 23 23 23 ~3
,
'.!aterial Note Adv. Adv. Adv. Adv. Adv. Adv.
0·7 0·11
Etas!. Elas!. Elas!. Elas!. Elas!. Elas!.
23 23 23 23
Santoprene Sanloprene Sanloprene Santoprene Santoprene Santoprene
201-64; 201-73; 201-80; 201-87; 203·40; 203-50;
79xl08x3 79xl08x3 79xl08x3 79xl 08x3 79xl08x3 79xl08x3
mm mm mm mm mm mm
plaques plaques plaques plaques plaques plaques
Adv. Elas!. Sanloprene
likely to have minor eU~ct.
7 7 7 7 7 7 7 7 7 7 7 7 7 7
-2 0 0 1 0 0 0 -2 0 0 1 0 0 0
9 ,.~.
.:~
\"9 9
87 105 102 98 101 101 99 87 105 102 98 101 101 99
87 105 102 100 101 100 98 87 105 102 100 101 100 98
A·4 Al Al AO A-I 01 02 A-4 Al Al AO A-I 01 02
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
I
.
I
' I
·8
I-propanol
I
A-12 A-l0 A-14 A-9
24 10 10 10 10 10 10 10 10 10 10 10 10 10 10
Propyl Alcohol
~~sistanceNote
.~:.
dilute solution
Potassium Sulfate Power Steering Fluid
H=~J . . ".,.. ,.,."Jl,.. .,. ,
•. '
~_
Cl>
u:
?:
3 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7
good
Adv. Elas!. Santoprene
re~lstance
fluid has i~t1e to no ·eftect
.,8
9 2:
0 72 73 68 56 52 39 39 72 73 68 56 52 39 39
2. ..'\:2' 2' 1 2 ..2 ·,'3
,.. 2 6":" 5
..
-
.2\5.·.. ,
-16 -13 -9 -7 -4 -2 -1 -16 -13
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs Elas!. Santoprene 101-55; 79xl08x3 mm plaques Elas!. Santoprene 101·64; 79xl08x3 mm plaques Elas!. Santoprene 101-73; 79xl08x3 mm plaques Elas!. Santoprene 101-80; 79xl08x3 mm plaques Etas!. Santoprene 101-87; 79xl08x3 mm plaques Elas!. Santoprene 103-40; 79x108x3 mm plaques Elas!. Sanloprene 103-50; 79x108x3 mm plaques Elas!. Sanloprene 201·55; 79xl08x3 mm plaques Elas!. Santoprene 201-64; 79xl08x3 mm plaques Elas!. Santoprene 201-73; 79xl08x3 mm plaques Elas!. Santoprene 201:80; 79xl08x3 mm plaques Elas!. Santoprene 201-87; 79xl08x3 mm plaques Elas!. Santoprene 203·40; 79xl08x3 mm plaques Elas!. Santoprene 203-50; 79xl08x3 mm plaques
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Etas!. Elas!. Elas!. Etas!. Elas!. Elas!. Elas!. Etas!. Elas!.
1 67 74 62 70 59 79 68 67 74 62 70 59 79 68
59 51 50 60 54 70 66 59 51 50 60 54 70 66
108 111 121 112
124 117 113 110 93 102 101 124 117
98 99 96 108 111
A-20 A-22
"
A·28 A-21 A-12 0·18 0-18 A-20 A-22 A-28 A-21 A-12 0-lB
~ .;
~:~.;:':'
0·18 A2 AS A6 Al A6 DO 04 A2 AS
,, !
DuPont Alcryn Elas!. Sanloprene 101-55; 79xl08x3 mm plaques Elas!. Santoprene 101-64; 79xl08x3 mm plaques Elas!. Santoprene 101·73; 79xl08x3 mm plaques Etas!. Santoprene 101-80; 79xl08x3 mm plaques Elas!. Santoprene 101-87; 79xl08x3 mm plaques Elas!. Santoprene 103-40; 79xl08x3 mm plaques Etas!. Santoprene 103-50; 79xl08x3 mm plaques Elas!. Santoprene 201-55; 79xl08x3 mm plaques Elas!. Santoprene 201-64; 79xl08x3 mm plaques Elas!. Santoprene 201·73; 79x108x3 mm plaques Elas!. Santoprene 201-80; 79x108x3 mm plaques Etas!. Santoprene 201-87; 79xl08x3 mm plaques Elas!. Santoprene 203-40; 79xl08x3 mm plaques Elas!. Santoprene 203-50; 79xl08x3 mm plaques
:;;,;::
Santoprene Santoprene Santoprene Santoprene Santoprene Sanloprene Santoprene Santoprene Santoprene
101-55; 79xl08x3 101·64; 79xl08x3 101-73; 79xl08x3 101·80; 79xl08x3 101·87; 79xl08x3 103·40; 79xl08x3 103-50; 79x108x3 201·55; 79xl08x3 201-64; 79xl08x3
mm mm mm mm mm mm mm mm mm
plaques ptaques plaques plaques plaques plaques plaques plaques plaques
---i
-u
a
Chemical Resistance - Olefinic Thermoplastic Elastomer
.f>-
co
(Jl
Chemical Resistance - Olefinic Thermoplastic Elastomer
-l
o
"'U
o
."",.'
0/0 Change Reagent
Reagent Note
Cone. Temp. Time
Propylene Dichloride Propylene Glycol PydrauI312
Weight
% Retained
Tens"~ll1odulus
I
Hardness Change
121
113
A6
112
110
Al
-4
98
93
A6
-2
99
102
DO
-1
96
101
04
(days)
l·propanol
23
7
5
·9
" "
23
7
6
·7
23
7
23
7
7 .' 8 .
23
7
8.,.
" "
I
Eiongillon
I'C)
('10)
Propyl Alcohol
POL Rating
Volume
Strengl~ .
Resistance Note
Adv. Elasl. Santoprene 201·73; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 201·80; 79xl08x3 mm plaques
.:..::
Adv. Elasl. Sanloprene 203-50; 79xl08x3 mm plaques ' resistance is conditional
8
hydraulic fluid; Monsanto
125
7
5
"
125
7
"
125
7
u
125
"
Adv. Elasl. Santoprene 201·87; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 203·40; 79xl08x3 mm plaques
4 1,2·propanediol
Material Note
Adv. Elasl. Santoprene
good tesiS1anc6
"
18
81
85
A-8
Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques
4
19
88
79
A-11
Adv. Elasl. Santoprene 101-64; 79xl08x3 mm plaques
4
22
81
75
A-II
7
.5
18
89
79
A-8
125
7
·5
18
85
79
AD
u
125
7
6
15
94
89
0-4
u
7
6
14
90
85
0-6
u
125 ,125
7
5
18
81
85
A-8
u
125
7
4
19
88
79
A-l1
Adv. Elasl. Sanloprene 201-64; 79xl08x3 mm plaques
"
125
7
4
22
81
75
A-II
Adv. Elasl. Sanloprene 201-73; 79xl08x3 mm plaques
125
7
5
18
89
79
A-8
125
7
5
18
85
79
AO
125
7
15
94
89
0-4
Adv. Elast. Santoprene 203·40; 79xl 08x3 mm plaques
125
7
6 6·,
14
90
85
0-6
Adv. Elast. Santoprene 203·50; 79xl08x3 mm plaques
100
6.9
'2
74
100
6.9
2
65
" " " " Pydraul 312C
Adv. Elasl. Santoprene 101·73; 79xl08x3 mm plaques .,
Adv. Elasl. Sanloprene 101-80; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101-87; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 103-40; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 103-50; 79xl08x3 mm plaques
,
Adv. Elasl. Santoprene 201-55; 79xl08x3 mm plaques
Adv. Elasl. Santoprene 201-80; 79xl 08x3 mm plaques Adv. Elasl. Santoprene 201-87; 79xl08x3 mm plaques
,
"
Adv. Elasl. Geolast 701-80
\
Adv. Elasl. Geolast 701-87 ,.
,
100
6.9
3
100
6.9
1
100
6.9
1
48.9
100
6.9
1
27.6
Adv. Elasl. Vyram; Shore A90
100
6.9
1
15.3
Adv. Elasl. Vyram; Shore 050
23
7
102
121
A2
7
6 '7
-16
23 ·23;
-12
104
106
A3
7
6
-12
107
105
A3
23 23 .'
7
.. 7
-7
108
102
A2
7
8
-2
105
98
A6
23
7
9
-1
98
100
01
23
7
8'
2
91
100
0-1
23
7
-16
102
121
A2
23'
7
6.,. ';7 .
-12
104
106
A3
23
7
6
-12
107
105
A3
23
7
-7
108
102
A2
©
'1 '"
I t
23
7
8
-2
105
98
A6
!
'1:l
23
Pyridine
IS" ~ ;:;.
Rapeseed Oil
~ CIl
<.5'
;:s t-'
0: ..,
..,
p
u::
Rosin Sea Water
\
57.2
7
..~
-I
98
100
01
7
"",a
2
91
100
0-1
24
7
~;
liquid 0
30
23
7
23
7
23
7
:;:;;
';':
6." •. '9
;~
-2
-3
Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 101-64; 79xl08x3 mm plaques
1, ,
Adv. Elasl. Sanloprene 101-73; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 101-80; 79xl08x3 mm plaques
,.. ?{
" Adv. Elasl. Sanloprene 101-87; 79xl08x3 mm plaques
.,
,
-:'
Adv. Elasl. Santoprene 103-50; 79xl08x3 mm plaques
.v::
-:..
'.-
-I
98
90
Al
1
103
109
A-l
1
102
99
AO
9
0
95
96
AO
Adv. Elasl. Santoprene 201-55; 79xl08x3 mm plaques
'i
'~
~
Adv. Elasl. Sanloprene 201-64; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-73; 79xl08x3 mm plaques
~-
. :~:;
~::
Adv. Elasl. Sanloprene 201-80; 79xl08x3 mm plaques ," Adv. Elasl. Sanloprene 201-87; 79xl08x3 mm plaques
I
'.'
." " """,.....
8 9
Adv. Elasl. Sanloprene 103-40; 79xl08x3 mm plaques
~:.
~.'
no·$fleci -I
Adv. Elasl. Geolast 703-40 Adv. Elasl. Vyram; Shore A60 Adv. Elasl. Vyram; Shore A70
23
70
CIl
"
54
.'
:-;:
Adv. Elasl. Sanloprene 203-40; 79xl08x3 mm plaques Adv. Elasl. Sanloprene 203-50; 79xl08x3 mm plaques DuPont Alcryn 1201 B-70; 1.9 mm slabs DuPont Alcryn Adv. Elasl. San top rene DuPont Alcryn 1201 B-70; 1.9 mm slabs Adv. Elasl. Sanloprene 101-55; 79xl08x3 mm plaques
:\~
""/
Adv. Elasl. Sanloprene 101-64; 79xl08x3 mm plaques ,.
Adv. Elasl. Sanloprene 101-73; 79xl08x3 mm plaques
@
"\:l
po ~
Reagent
Reagent Note
(%)
n' (J)
t::l
Sea Water
C1l
(J)
<E' ;::s
t. .,0$:I .,
l!::
('C)
POL
U
7
U h 2.
7
U U U U U U U
7 7 7 7 7 7 7
U
x
Tensile Strength
IlIodUIUS IElongation
Hardness Change
1
92
93
AO
Adv. Elas!. Santoprene '0'-80; 79x'08x3 mm plaques
o o
107
98
A4
Adv. Elas!. Sanloprene 10'-87; 79x'08x3 mm plaques
103
104
D'
Adv. Elas!. Sanloprene 103-40; 79xl08x3 mm plaques
o
99
98
D2
Adv. Elas!. Sanloprene 103·50; 79x'08x3 mm plaques
1 1
103
109
A·l
Adv. Elas!. Sanloprene 20'·55; 79x'08x3 mm plaques
102
99
Adv. Elas!. Sanloprene 20'·64; 79xl08x3 mm plaques
9 8 9 9 9
o
95
96
1
92
93
AO AO AO
o
107
98
A4
Adv. Elas!. Sanloprene 20'-87; 79xl08x3 mm plaques
o
103
104
01
Adv. Elas!. Sanloprene 203·40; 79x'08x3 mm plaques
~
9
o
24
30
9
24
30
.". '9
o o
o
~, ..
98
D2
Adv. Elas!. Sanloprene 203·50; 79xl08x3 mm plaques
97
93
DuPonl Alcryn '20' B·70; 1.9 mm slabs
98
95
AO AO
0
100
95
A-2
DuPont Alcryn ALR'6387; '.9 mm slabs, neulral 75A
1
99
104
A·l0
DuPonl Alcryn 120' B-80; '.9 mm slabs
DuPonl Alcryn '20' B·70; 1.9 mm slabs
~§?~(~~I~f~§CC~.
lIuidn
o
DuPont Alcryn
-1
8 7 7
-5
111
104
A2
Adv. Elas!. Sanloprene '8'-55; medical grade
·4
106
Al
Adv. Elas!. Sanloprene 181·64; medical grade
7
-5
111
'04 104
A2
Adv. Elas!. Sanloprene 281·55; medical grade
DuPonl Alcryn '20' B·70; '.9 mm slabs
7
23 23
7
23
7
7
-4
106
104
Al
Adv. Elas!. Sanloprene 281-64; medical grade
23
7
-1
101
98
AO
Adv. Elas!. Sanloprene 281·87; medicatgrade
100
2.9
-17
119
108
A9
Adv. Elas!. Sanloprene 181·55; medical grade
100
2.9
9 5 6
-16
115
105
A8
Adv. Elas!. Sanloprene 181·64; medical grade
100
2.9
-17
119
108
A9
Adv. Elas!. Sanloprene 281-55; medical grade
100
2.9
-16
115
105
A8
Adv. Elas!. Sanloprene 281·64; medical grade
100
2.9
-10
101
94
A5
7
~:
5 6 7 2
Adv. Elas!. Sanloprene 281-87; medical grade .",
100
3
o
125
7
125
7
125
7
·6 6 6
125
7
6
125
7
7
125
7
125
7
125 125 125 125 125 125
7
7 7
8 8 6 6 6 6 .7 8
.125
7
'S 8. 6
7 7
7
1
,·,;,,·'·/tiri·····
1
.70
7
1
70
7
1
.,70
7
5 !;
DuPonl Alcryn
l,hiid has severe eUech.·
::::,:;:(/"
'.
.. "diSliilegiiittid .,. ......• -30
106
118
-16
108
-12
109
-7
-4
DuPont Alcryn 120' B·70; 1.9 mm slabs
A2
Adv. Elas!. Sanloprene '01-55; 79xl08x3 mm plaques
112
A4
Adv. Elas!. Sanloprene '0'·64; 79xl08x3 mm plaques
108
A3
Adv. Elas!. Sanloprene '0'-73; 79xl08x3 mm plaques
96
88
AO
Adv. Elas!. Sanloprene '0'·80; 79xl08x3 mm plaques
-,
104
93
A4
Adv. Elas!. Sanloprene '0'-87; 79xl08x3 mm plaques
102
93
D-l
Adv. Elas!. Sanloprene 103·40; 79xl08x3 mm plaques
1
91
87
DO
Adv. Elas!. Sanloprene 103-50; 79xl08x3 mm plaques
-30
106
118
A2
Adv. Elas!. Sanloprene 201-55; 79xl08x3 mm plaques
-16
108
112
A4
-, ";. Adv. Etas!. Santoprene 201-64; 79xl08x3 mm plaques
-12
109
108
A3
Adv. Etas!. Santoprene 201-73; 79xl08x3 mm plaques
-7
96
88
AO
Adv. Etas!. Santoprene 201-80; 79xl08x3 mm plaques
-4 -1
104
93
A4
Adv. Elas!. Santoprene 20'·87; 79xl08x3 mm plaques
102
93
D·l
Adv. Elas!. Sanloprene 203-40; 79xl08x3 mm plaques
91
87
DO
,
Adv. Elas!. Santoprene 203·50; 79x'08x3 mm plaques fluid has little to 'no effect
6 6
7 7
102
100
A-16
95
108
7
10
8B
86
A-22 A·'5
"
~
-0
Adv. Elas!. Santoprene
23;
24
Skydrol 500B4
DuPont Alcryn
flUid has lnl!.elo·no effect
1
8 3
Adv. Elas!. Sanloprene 20'-80; 79xl08x3 mm plaques
99
.l! ~
Adv. Elas!. Sanloprene 20'·73; 79x'08x3 mm plaques
0 0
~:--':/_8
Monsanlo; hydraulic fluid
Material Note
9 8 9,
,100
Silicone Oils
Resistance Note
7
of soda
soluIions
Volume
9
100
Soap
8 9
I
7
~
Skydrol500
Weight
Rating
(days)
70
Silicate Silicone Grease
% Retained
% qhange
I
conc.1 Temp. Time
Chemical Resistance - Olefinic Thermoplastic Elastomer
,....
DuPont Alcryn DuPonl Alcryn '20' B·70; 1.9 mm slabs DuPont Alcryn ALR·6369; '.9 mm slabs DuPont Alcryn ALR·6386; 1.9 mm slabs, neulrat65A
Ul
......
~
Chemical Resistance - Olefinic Thermoplastic Elastomer
--i ""U
o
Reagent
I
Reagent Note
I
Conc. ITem p. [%)
['C)
"
Sodium Chloride
salt
aqueous solulion
Sodium Chloride
Sodium Hydroxide
aqueous solution
"
S' ;;. ~
aqueous solution "
tJ
"
~
•
tEl
"
;:l
s: i3
~
..,
Sodium Hydroxide
T,im,e [days)
,
..
.
% Retained
DL Weight Volume. T.e..ns.lie Rating~\.I~~9Ih
IIpdulus Elongallon .
~
H.a. rdness .1, Change .....
23
6.9
23. 23 23 23 23 23 23 23 23 23 23 23 23 23
6.9 ,", 9 6.9 9 6.9 '9'·. 7 9 7 9 7 9 7 9 7 9 7 9 7 8 7 9 7 8 7 .. 7 7 9 7 9 7 ~' • :. 7 . >0:•• 8:. 7 ,.." 9(·: 7 '8.' 7 7 7 '. i
0.1 0.1 -0.1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0
102 99 102 99 98 102 89 96 86 90 104 98 102 89 96 86 90 104 98
99 96 99 96 97 109 87 100 90 93 102 96 109 87 100 90 93 102 96
AO Al AO A1 A-3' A-I A3 A2 i' AO A5·, DO 03 A-I l A3 A2 AO A5 DO' 03
2.9 " ·.,·9 2.9 .9 2.9". "9::'. 2.9·oF·9 'il
0 0 0 0
96 99 96 99
94 96 94 96
Al A-I A1 A-l
15 iOO 2 0 " 24
2.9
0
95
91
A-2
20
h' .11/':1 >'Ve/ "'l 6.9:itt~·}
15 15 15 15
100 100
HiO "100
24{
20 20 20 20 20
23' 23 23
2~.: . 23 23
2'3
23'
20
23
20 20
.,. 24/ , 2"!.
20"' 100 20 >:}.OO'. 20 <.100;1;; 20 ;" lOP ...... 20 '1'00 50 23 50 23 50
f"
". ,.' . S"'l
7
6.9 \ 6.9;'
9.
9; .;l j}, :j
6.9. 7"" 7 7 7 ,i 7
.
0
Adv. Elas!. Vyram; Shore A60 "
Adv. Elas!. Vyram; Shore A70 Adv. Elas!. Vyram; Shore A90 " Adv. Elas!. Vyram; Shole 050 Adv. Elas!. Santoprene 181-55; medical grade Adv. Elast. Santoprene 181-64; medical grade Adv. Elas!. Santoprene 281-55; medical grade Adv. Elas!. Santoprene 281·64; medical glade Adv. E1as!. Santoprene 281-87; medical grade Adv. Elas!. Santoprene 101-55; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-64; 79xl08x3 mm plaques Adv. Elast. Santoprene 101-73; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-80; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-87; 79xl08x3 mm plaques Adv. Elas!. Santoprene 103-40; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 103-50; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 201-55; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-64; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-73; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-80; 79x108x3 mm plaques Adv. Elas!. Santoprene 201-87; 79xl08x3 mm plaques Adv. Elas!. Santoprene 203-40; 79xl08x3 mm plaques Adv. Elas!. Santoprene 203-50; 79xl08x3 mm plaques
I
". :,. ."
,n:
., ':':. ,;'., "." ...
• ':':
......<.. ,,}i>·;: tIUidh~'Iiil;~idnoaffect ";
0 \ : / 1 :
'-.""
'./4
::"., '·!!9OOd...esi$li\llCe·\\ '; ;
!
-0.2 0 0 0 0
101 104 101 104
99 102 99 102
AO AO AO' AO!'
~.'
0
95
93
A-2
-1
Adv. Adv. Adv. Adv.
I'
.
;,
medical medical medical medical
grade grade grade glade
Adv. Elas!. Vyram; Shole 050 Elas!. Santoprene 181-55; medical Elas!. Santoprene 181·64; medical Elas!. Santoprene 281-55; medical Elas!. Santoprene 281·64; medical
glade glade grade grade
Adv. Elas!. Santoprene 281-87; medical grade
lIuid,ha.rlittle l~ nl) allecl . .' .
-2
181-55; 181-64; 281-55; 281-64;
Adv. Elas!. Sanloplene Adv. Elas!. Vyram; Shore A60 Adv. Elas!. Vylam; Shore A70 Adv. Elas!. Vylam; Shore A90
Adv. '.' Adv. "Adv. Adv.
.,. ,,: .\:....
Sanloprene Sanloprene Santoplene Santoplene
DuPont Alcryn 1201 B-70; 1.9 mm slabs
;:
>
'., <
Elas!. Elas!. Elast. Elas!.
Adv. Elas!. Santoprene 281-87; medical grade DuPont Alcryn
I" i,S%Nf.",<,' 3
0 0 -0.1
9 9 '9. 9
<8
Material Note
0.3
....8 7
I
Resistance Note
.
15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15
23 23 .,., 23 .23 23· 23
., 9
I
15
20 20 20
@ "
I Ill.
caustic soda
aqueous solution
% Change
DuPont Alcryn DuPont Alcryn 1201 B-70; 1.9 mm slabs
2.9 2.9 2.9 2.9 2.9 7 7
0 0 0 0 0 0 0
104 108 104 108 94 109 102
98 102 98 102 90 103 102
A-2 Adv. Elas!. Santoprene 181-55; medical grade A-I ., Adv. Elas!.Santoprene 181-64; medical grade A - 2 · Adv. Elas!. Santoprene 281-55; medical grade A-I '"."j Ady. Elas!. Santoprene 281-64; medical grade A-4 • :' Ady. Elas!. Santoprene 281-87; medical grade A-I Adv. Elas!. Santoprene 101-55; 79xl08x3 mm plaques Al Ady. Elas!. Sanloprene 101-64; 79xl08x3 mm plaques
7
0
105
101
Al
....
,
.:; Ady. Elas!. Santoprene 101-73; 79xl08x3 mm plaques
@ s
'1l
~ ~
.~
Reagent
::;.
't"J
ReagtlntNotEl
Sodium Hydroxide
(1)
to· '" ;:l
s::0.., ..,
P
Sodium Hypochlorite Sodium Silicate Soil Burial
Soybean Oil
Icon. c.
tTem. p.
Material Note
(~)J~C) 50 50
o o
50 50
101
96
AO
Adv. Elast. Santoprene 101-80; 79x108x3 mm plaques
107
101
A-4
Adv. Elast. Santoprene 101-87; 79xl08x3 mm plaques
o
104
02 03
50
100 109
99 96
Adv. Elast. Santoprene 103-40; 79x108x3 mm plaques
o o
A-1
Adv. Elast. Santoprene 103-50; 79x108x3 mm plaques Adv. Elast. Santoprene 201-55; 79x108x3 mm plaques
50 50
o o
A1
Adv. Elast. Santoprene 201-64; 79xl08x3 mm plaques
101
A1
50 50 50 50 50 50 50 50 50
o
102 105 101 107 104 100
103 102
96
AO
Adv. Etast. Santoprene 201-73; 79x108x3 mm plaques Adv. Elast. Santoprene 201-80; 79x108x3 mm plaques
101
A-4
99 96
02
o o
o
03
o o o o
Adv. Elast. Santoprene 201-87; 79xl08x3 mm plaques Adv. Elast. Santoprene 203-40; 79xl08x3 mm plaques Adv. Elast. Santoprene 203-50; 79xl08x3 mm plaques Adv. Elast. Geolast 701-70 Adv. Elast. Geolast 701·80 Adv. Elast. Geolast 701-87 Adv. Elast. Geolast 703-40
o
Adv. Elast. Geolast 703-50 Adv. Elast. Santoprene
ASTM D3083,soil pH 6.5·7.5, moist.25-30%
90
89
Adv. Elast. Santoprene 201·73; 1 mm thick sheet
84 91
84 98
Adv. Elast. Santoprene 201·80; 1 mm thick sheet Adv. Elast. Santoprene 203-40; 1 mm thick sheet
96
100
Adv. Elast. Sanloprene 203-50; 1 mm thick sheet
edible
Adv. Elast. Santoprene
non-edible DuPont Alcryn
Stannic Chloride Stannous Chloride Starch
15 syrup, edible syrup, non-edible
Adv. Etast. Santoprene
white spirits
Adv. Elast. Santoprene
Stearic Acid DuPont Alcryn
Stoddard Solvents Stove Oil Styrene Sulfur Sulfur Dioxide Sulfuric Acid
monomer molten
DuPont Alcryn
gas liquid fuming, 20% oleum concentrated
96
Adv. Elast. Santoprene DuPont Alcryn 1201 8-70; 1.9 mm slabs
53
10 20 20 20 aqueous solution
20 20 20 20 20 20
Adv. Elast. Santoprene Adv. Etast. Vyram; Shore A60
0.2 0.4 0.1 0_2
Adv. Etast. Vyram; Shore A70 Adv. Elast. Vyram; Shore A90 Adv. Elast. Vyram; Shore 050
o
96
100
A-2
o
101
102 100
A·1 A-2
102 98
A-1 A-3
o
96
o
101
o
96
Adv. Elast. Santoprene 181-55; medical grade Adv. Elast. Santoprene 181-64; medical grade Adv. Elast. Santoprene 281-55; medical grade Adv. Elast. Santoprene 281-64; medical grade Adv. Elast. Santoprene 281·87; medical grade
--i ""U
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
01
c.>
Chemical Resistance - Olefinic Thermoplastic Elastomer
-i -0
(.Tl .j::>.
o
Reagent Sulfuric Acid aqueous solution
spent acid, with 36% nitric acid
20 20 20 20 20 20 30 30 50 61
'~120~/;' 160.·.···
]b~t
{:too', 2~?
. 8?>
7 2.9 2.9 2.9 2.9 2.9 7
o
o
o o o
o o -7
>'/38:<··
-8
AO
93 99 93 99 93
95 98 95 98 91
125
94
A-I
86 88 86 88 83 82 79 75 75 77 79 90 82 79 75 75 77 79 90 7 6 7 6 2
Al
A-l
AD
A-'
A-2
DuPont Alcryn 1201 B-70; 1.9 mm slabs Adv. Elas!. Santoprene 181-55; medical grade Adv. Elas!. Santoprene 181-64; medical grade Adv. Elas!. Santoprene 281-55; medical grade Adv. Elas!. Santoprene 281-64; medical grade Adv. Elas!. Santoprene 281-87; medical grade DuPont Alcryn DuPont Alcryn 1201 B·70; 1.9 mm slabs Adv. Elas!. Santoprene
75 95 95
Sulfuric Acid
concentrated
concentrated
Sunvis 706 @
"tl
is"' ~
n' /J)
~
<E' ;:l
t"'
0: .,
.,
p
It::
fluid
98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98 98
DuPont Alcryn
2
110
1
90
2 1 1 3 5
110
4 3 2 2
o 3 5 4 3 2 2
o 28 28 28 28 27 58 58 55
44 40 30 27 58 58 55 44 40
90 86 84 92 88 81 82 82 88 84 92 88 81 82 82 88
21 23
21 23 24
AO Al
AO A-I
A-3 Al A2
AO A-l 04 03 A-3 Al A2 AD A-l 04 03 A16 A9 A16 A9 A6 A-15
70 75 71 76 77 75 76
65 56 58 57 67 63
A-8 0-16
75
0-17
70 75
65 56 58
71 76 77
A-21 A-19 A·17
A-15
57
A-21 A-19 A·17
67
A-8
Adv. Elast. Santoprene 181-55; medical grade Adv. Elas!. Santoprene 181-64; medical grade Adv. Elas!. Santoprene 281-55; medical grade Adv. Elas!. Sanloprene 281-64; medical grade Adv. Elas!. Santoprene 281-87; medical grade Adv. Elas!. Santoprene 101-55; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101·64; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-73; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-80; 79xl08x3 mm plaques Adv. Elas!. Santoprene 101-87; 79xl08x3 mm plaques Adv. Elas!. Santoprene 103-40; 79xl08x3 mm plaques Adv. Elas!. Santoprene 103-50; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-55; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201·64; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-73; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 201-80; 79xl08x3 mm plaques Adv. Elas!. Santoprene 201-87; 79xl08x3 mm plaques Adv. Elas!. Santoprene 203-40; 79xl08x3 mm plaques Adv. Elas!. Sanloprene 203-50; 79xl08x3 mm plaques Adv. Elas!. Santoprene 181·55; medical grade Adv. Elas!. Santoprene 181-64; medical grade Adv. Elas!. Santoprene 281-55; medical grade Adv. Etas!. Santoprene 281-64; medical grade Adv. Elas!. Santoprene 281-87; medical grade Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv. Adv.
Elas!. Elas!. Elas!. Elas!. Elast. Elas!. Elas!. Elas!. Elas!. Elas!. Etas!. Elas!.
Santoprene Santoprene Santoprene Santoprene Santoprene Sanloprene Santoprene Santoprene Santoprene Santoprene Sanloprene Santoprene
101-55; 79xl08x3 mm plaques 101-64; 79xl08x3 mm plaques 101-73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm plaques 101·87; 79xl08x3 mm plaques 103-40; 79xl08x3 mm plaques 103·50; 79xl08x3 mm plaques 201·55; 79xl08x3 mm plaques 201-64; 79xl08x3 mm plaques 201-73; 79xl08x3 mm plaques 201·80; 79xl08x3 mm plaques 201-87; 79xl08x3 mm plaques
@
'1:l
P
~
r:;' VI
~
Sunvis 706
<E'
Synthetic Resins Tall Oil Tallow
fluid
Santoprene 203-40; 79xl08x3 mm plaques Santoprene 203-50; 79.108.3 mm plaques
VI
;:l
t'"
~
.,
P
It:
powder
Adv. Elast. Santoprene
edible non·edible
Tannic Acid Tar Tartaric Acid Tetrachloroethylene Tetrachloromethane Tetrahydrofuran Tetralin Toluene
~;JIj~~~;:~~l;:~~UJ~e~\l~> .,. :t.. lik~~o;~tf~:I~:!~t:~~;~:~'\
10 crude tar
::?
DuPont Alcryn Adv. Elast. Santoprene DuPont Alcryn
~~) . Dexron II
7
105
','100·'
6.9
!10~i
53.4
Adv. Elast. Vyram; Shore A60
6.9
46.9
Adv. Elast. Vyram; Shore A70
6.9
21.2
Adv. Elast. Vyram; Shore A90
6.9
17
Adv. Elast. Vyram; Shore 050
"(100::"" .. 160" . ,:,,:,::-.. ,..":,:".
automatic
'·,·100',:.. ··
7
(125' ...... "':::
7
62
125::'"
7
62.2
i:152
7
62 61.9
'.125 "'125
7 .
r2~\
DuPont Alcryn 1201 B·70; 1.9 mm slabs
74
2'
Adv. Elast. Geolast 701-80
47
A·18
54
47
0-18
73
54
A-21
73
54
0-21
54
7
2
59
73
58
A-22
7
2
59.1
73
58
0-22
125
7
3
47
73
57
A-l0
7
.3
46.7
73
57
0-10
W~
7
~
43
A-II
::"3'
43.4
77 77
63
7
63
0-11
7
3
33
76
63
0-18
7
3
32.6
76
63
0-18
125. '125'.,"
a
Adv. Elast. Santoprene 101-55; 79.108.3 mm plaques Adv. Elast. Santoprene 101·64; 79.108.3 mm plaques Adv. Elast. Santoprene 101-73; 79xl08.3 mm plaques Adv. Elast. Santoprene 101-80; 79.108.3 mm plaques Adv. Elast. Santoprene 101·87; 79.108.3 mm plaques Adv. Elast. Santoprene 103·40; 79.108.3 mm plaques
125 '.;
7
31
74
74
0-15
1.25
7
31.4
74
74
0-15
'li:::..i
7
62
54
47
A-18
Adv. Elast. Santoprene 201·55; 79.108.3 mm plaques
7
62
73
54
A-21
Adv. Elast. Santoprene 201-64; 79.108.3 mm plaques
125
7
59
73
58
A-22
Adv. Elast. Santoprene 201-73; 79.108.3 mm plaques
125.·
7
47
73
57
A·l0
Adv. Elast. Santoprene 201-80; 79.108.3 mm plaques
125 .
7
'''3".''''
43
77
63
A-II
Adv. Elast. Santoprene 201-87; 79.108x3 mm plaques
"125
7
33
76
63
0-18
Adv. Elast. Santoprene 203·40; 79xl08.3 mm plaques
125
7
3+ "'3· '.
31
74
74
0-15
Adv. Elast. Santoprene 203·50; 79.108.3 mm plaques
,:2if' methyl chloroform
155
1?5 ..."" 125
Tributyl Phosphate Trich loroethane
DuPont Alcryn Adv. Elast. Santop rene
{{"
24
Transmission Fluids
DuPont Alcryn Adv. Elast. Santoprene
"··'Y3>
Adv. Elast. Santoprene 103-50; 79.108.3 mm plaques
·:",'\'2.
DuPont Alcryn
...... "":~i'"
Adv. Etast. San top rene
:.."..,.:?,......
DuPont Alcryn 166
149
12
2
A-35
DuPont Alcryn 1201 B-70; 1.9 mm slabs
59
48
A-23
Adv. Elast. Santoprene 101-55; 79.108.3 mm plaques
Trich loroethylene
Adv. Elast. Santoprene 195 174
52
51
A-27
Adv. Elast. Santoprene 101-64; 79.108.3 mm plaques
139
86
77
A-14
Ad,. Elast. Santoprene 101-73; 79.108.3 mm plaques
--l
""tJ
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
01 01
Chemical Resistance - Olefinic Thermoplastic Elastomer
-l ""U
01 0>
o
% Change Reagent
Reagent Note
Conc. Temp. Time Idays) I~) C'c)
Trichloroethylene
POL Rating
;:l
t-
o:.., p .., Ie:
Material Note
76
71
A-16
Adv. Elas!. Santoprene 101·80; 79x108x3 mm plaques
97
105
107
A-13
Adv. Elas!. Santoprene 101-87; 79xl08x3 mm plaques
23
7
4
77
76
77
D-13
Adv. Elas!. Santoprene 103-40; 79x108x3 mm plaques
23
7
5
56
81
92
D-13
Adv. Elas!. Santoprene 103-50; 79x108x3 mm plaques
23
7
1
195
59
48
A-23
Adv. Elas!. Santoprene 201-55; 79xl08x3 mm plaques
23
7
1
174
52
51
A-27
Adv. Elas!. Santoprene 201-64; 79xl08x3 mm plaques
23
7
4
139
86
77
A-14
Adv. Elas!. Santoprene 201-73; 79xl08x3 mm plaques
23
7
3
120
76
71
A-16
Adv. Elas!. Santoprene 201-80; 79xl08x3 mm plaques
23
7
5
97
105
107
A-13
Adv. Elas!. Santoprene 201-87; 79xl08x3 mm plaques
23
7
4
77
76
77
D-13
Adv. Elas!. Santoprene 203-40; 79xl08x3 mm plaques
23
7
5
56
81
92
D-13
Adv. Elas!. Santoprene 203-50; 79xl08x3 mm plaques lIuid has severe ellect
2 7
1
241
DuPont Alcryn DuPont Alcryn 12018-70; 1.9 mm slabs
196
., fiuid has miiioi 10 mOilliil.i.
5 7
36
3
DuPont Alcryn DuPont Alcryn 1201 8-70; 1.9 mm slabs
35
,8
24 7
24
1
DuPont Alcryn 1201 8-70; 1.9 mm slabs
1
6
Il1(ely to heve minor elleci
DuPont Alcryn
6
lair resistance
Adv. Elas!. Santoprene
6
liI<ely !oh~~.!~i!'~r~ffect
"
7
3
84
73
68
A-16
Adv. Elas\. Santoprene 101-55; 79xl08x3 mm plaques
23
7
2
74
74
63
A-19
Adv. Elas\. Santoprene 101-64; 79x108x3 mm plaques
23
7
3
55
78
70
A-14
Adv. Elas\. Santoprene 101-73; 79xl08x3 mm plaques
23
7
3
49
73
74
A-15
Adv. Elas\. Santoprene 101-80; 79xl08x3 mm plaques
23 23'
7
4
35
75
80
A-l0
Adv. Elas!. Santoprene 101-87; 79xl08x3 mm plaques
7
,4
28
79
83
D-12
Adv. Elast. Santoprene 103-40; 79xl08x3 mm plaques
23
7
5
20
83
96
D-12
23
7
3
84
73
68
A-16
Adv. Elas\. San top rene 103-50; 79xl08x3 mm plaques Adv. Elas\. Santoprene 201-55; 79xl08x3 mm plaques .~.
:-> .
23
7
2
74
74
63
A-19
23'
7
3
55
78
70
A-14
Adv. Elas\. Santoprene 201-73; 79xl08x3 mm plaques
23
7
3
49
73
74
A-15
Adv. Elas\. Sanloprene 201-80; 79xl08x3 mm plaques
23
7
'4
35
75
80
A-l0
Adv. E1as\. Santoprene 201-87; 79xl08x3 mm plaques
23
7
4
28
79
83
D-12
Adv. Elas\. Santoprene 203-40; 79xl08x3 mm plaques
23
7
5 5
20
83
96
D-12
24
7
1'25
7
.'
"
Adv. Elas\. Santoprene
23
,.
125
7
125
7
3
:
:t.
7
17
.,
Adv. Elas\. Santoprene 203-50; 79xl08x3 mm plaques DuPont Alcryn DuPont Alcryn 1201 8-70; 1.9 mm slabs
25
-19
98
109
A2
.5
-21
122
111
A7
-22
121
105
Al0
-22
121
100
A6
-18
114
95
A8
-15
107
98
06
-II
99
92
07
125
7
125
7
"
125
7
"
125
7
~~~':
" " " "
125.
7
;f
."1
-19
98
109
A2
125
7
;>
5
-21
122
111
A7
7
·5
-22
121
105
Al0
7
'6
-22
121
100
A6
1
Adv. Elast. Santoprene 201-64; 79xl08x3 mm plaques
~:
fluid has minor to mOilerate alleet
" "
"
DuPont Atcryn
reslsiance-ls- eo"nditional
4
lubricant (Union Carbide)
DuPont Alcryn
fluid has.,lillfe to no eflect
8
24
<E'
Resistance Note
120
24
~
H9~~~~~s.
3
Turpentine
CI>
Elongation
elleci
Trisodium Phosphate Tung Oil
n' CI>
I
5
24
~
~~::~~h 11IodUIUS
7
24
S'
% Retained
7
24
Triethanolamine
Ucon 50HB5100
Volume
23
24
@ "0
I
23
24
Tricresyl Phosphate
Weight
..
Adv. Elas\. Santoprene 101-55; 79x108x3 mm plaques
"
Adv. Elas\. Santoprene 101-73; 79xl08x3 mm plaques
~~
Adv. Elast. Sanloprene 101-64; 79xl08x3 mm plaques
,
Adv. Elas\. Santoprene 101-80; 79xl08x3 mm plaques Adv. Elas\. Santoprene 101-87; 79xl08x3 mm plaques {,
••
.~
:
'.,
Adv. Elas\. Santoprene 103-40; 79xl08x3 mm plaques Adv. Elas\. Santoprene 103-50; 79xl08x3 mm plaques
, ~::.
.,
Adv. Elas\. Santoprene 201-55; 79xl08x3 mm plaques Adv. Elas\. Santoprene 201-64; 79xl08x3 mm plaques
,
.
.: Adv. Elas\. Santoprene 201-73; 79x108x3 mm plaques Adv. Elas\. Santoprene 201-80; 79xl08x3 mm plaques
@
't:l
S" ~
Reagent
'Ii"?
Ucon 50H85100
Reagent Note
(%)
ri'
lubricant (Union Carbide)
tEo '" ;:l
t"'
0: ...
Ucon CC732
...p
Hardness Change
Tensile Strength
125
7
6
-18
114
95
A8
Adv. Elast. Santoprene 201-87; 79xl08x3 mm plaques
125· 1;2.5..,
7 7
6
-15 -11
107 99
98 92
06 07
Adv, Elast. Santoprene 203·40; 79xl08x3 mm plaques Adv, Elast. Santoprene 203-50; 79xl08x3 mm plaques
7 7 7 7 7 7 7 7 7 7 7 7
5
A-8
88
A-4
69 91
A-3
6
7
.5 "7">"
5 5 2 3
86 95 96 96 99 98 95 86 95 96 96 99 98 95
91 97
5 7
11 5 7 5 5 2 3 11 5
Adv, Adv. Adv, Adv. Adv. Adv. Adv. Adv, Adv. Adv. Adv, Adv. Adv. Adv.
7 7
6
if 7 8
;8'" 7;-
88 85 91 97
A-4
A2 0-2 0-1
A-8 A-4
88
A-4
69 91
A-3
88 85
A2 0-2 0-1
101-55; 79xl08x3 mm plaques 101-64; 79xl08x3 mm plaques 101-73; 79xl08x3 mm plaques 101·80; 79xl08x3 mm piaques 101-87; 79xl08x3 mm plaques 103-40; 79xl08x3 mm plaques 103-50; 79xl08x3 mm plaques 201-55; 79xl08x3 mm plaques 201-64; 79xl08x3 mm plaques 201-73; 79xl08x3 mm plaques 201·80; 79xl08x3 mm plaques 201·87; 79xl08x3 mm plaques 203·40; 79xl08x3 mm plaques 203·50; 79xl08x3 mm plaques
Adv, Elast. Santoprene
r,~$~lanc'. iStO~~i,!~~al', <.'.'
4
". "'liJi resistance;"
edible non-edible
.
23 23
7 ':0-8,7:,':6.
~3
78
23
7
'8,
23, 100 100
7~,
o
2,9 2,9
., 7 ""8
2,9
:7
106 90 106 90 99 92 100 92 100 98
-1
-1 -1 -1
2 -2 2 -2 -2
107 107 107 107 95 91 100 91 100 94
.~~'::.:,.
c·
Adv. Adv, Adv. Adv. Adv. Adv. Adv. Adv, Adv, Adv.
~1 A~ ~1 ~2
~3 ~3 ~2 A~ A~ A~
Elast. Elast. Elast. Elast. Elast. Elast. Etast. Elast. Elast. Elast.
Sanloprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene Santoprene
181·55; 181·64; 281-55; 281-64; 281-87; 181-55; 181·64; 281·55; 281-64; 281·87;
medical medical medical medical medical medical medical medical medical medical
grade grade grade grade grade grade grade grade grade grade
Adv, Elast. Santoprene
edible inhibited 2·3 23 23 23 23 100 100 100' .100 106"
2,9 2,9
10lh 100 ,::
100' 1QO 100
7 7 7 7
6 6 6 6
7
o
2,9 2.9
6.9 6,9
2 2 2 2 1 13,2 14,6
6,9 6,9 6,9
10,8 8.1
87 97 87 97 101
80 95 80 95 98
A-4
95 105
93 99 93 99 94
A-2
A-3 A-4 A-3
AO fluid has
2,9
95 105 100
I";;~\O no eftect ..~.
~:::::;.
A-I A-2 A-l A-6
5 15 7 14 11
-i '"U
Elast. Sanloprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene Elast, Santoprene Elast. Santoprene Elast. Santoprene Elast. Santoprene
. good resi~tancli
1\'/
1qoi
o
Material Note
Resistance Note
RlJt{ng
100 100 100
Vinegar Vinyl Acetate Vinyl Toluene Water
·Volume
(days)
125,.. 125
Urea Varnish Vegetable Oils
POL
('C)
.125 125 125 125 125 125 125 125 125 1;25 125 '125
u::
% Retained
I I
Cone. Temp, Time
Chemical Resistance - Olefinic Thermoplastic Elastomer
Adv. Adv. Adv, Adv, Adv. Adv. Adv, Adv. Adv, Adv.
Elast. Elast. Erasl. Elast. Elast.
Sanloprene 181·55; medical grade Santoprene 181·64; medical grade Santoprene 281·55; medical grade Santoprene 281-64; medical grade Santoprene 281·87; medical grade DuPont Alcryn Etast. Santoprene 181·55; medical grade Etast. Santoprene 181·64; medical grade Elast. Santoprene 281-55; medical grade Elast. Santoprene 281·64; medical grade Elast. Santoprene 281-87; medical grade Adv. Elast. Geolast 701·70 Adv. Eiast. Geolast 701·80 Adv, Elast. Geolast 701-80 W-183 Adv. Elast. Geolasl 701·87 Adv, Elast. Geolast 703·40
01 -...I
Chemical Resistance - Olefinic Thermoplastic Elastomer
--l
""U
01 00
o
::
% Retained
"I. Change Reagent
Reagent Note
conc'ITem p., Time (Yo)
Water
('C)
(d~ys)
100 100 100
6.9 6.9 6.9 6.9 6.9
ioo' 100' tap waler
Water
100 100 100 100 100 100 100 100 100'· 100. 100,·;.' ."100. .
7 7 7 7 7 7 7 7 7 7
IPO,. '100 100
7 7
POL I Weight I Volume Rating '5
4 5 6 7
,7 .~~.
'7
7
7
7
5.2 1.7 2.7 1.2 1.2 10 12 13 6 6 5 3 3 2 2 6 6 5 3 3 2 2
Hardness Change
6
8 11 14
;00;
7
100
7
.100 100
7 7
100
7
14
100"
7
6
7
8
"~~. ;.
97
101
A-9
101 87 97 102 87 94 100 99 87 97 102 87 94 100 99
121
A-17 A-4 A-3 A-3 A-2 A4 0-1
80 95 93 74 84 93 91 80 95 93 74 84 93 91
DO A-4 A-3 A-3 A-2 A4 0-1
DO
8
·100',';
'~,
Water Glass Xylene
'+
23 .23,,\,.
I=l
23'
o'CIl
2.3"
~
~
CIl
cEo ;:s
t""
.,c;: .,I=l
te:
7
Adv. Elasl. Santoprene
23 23 23
~
Adv. Elasl. Geolast 703-50 Adv. Elasl. Vyram; Shore A60 Adv. Elasl. Vyram; Shore A70 Adv. Etasl. Vyram; Shore A90 Adv. Elasl. Vyram; Shore D50 DuPont Alcryn 1201 8-70; 1.9 mm slabs DuPont Alcryn ALR-6369; 1.9 mm slabs DuPont Alcryn ALR-6386; 1.9 mm slabs, neutral 65A Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101-64; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101·73; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101-80; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101-87; 79xl08x3 mm plaques Adv. Elasl. Santoprene 103-40; 79xl08x3 mm plaques Adv. Elasl. Santoprene 103-50; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-55; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-64; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-73; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-80; 79xl08x3 mm plaques Adv. Elasl. Santoprene 201-87; 79xl08x3 mm plaques Adv. Elasl. Santoprene 203-40; 79xl08x3 mm plaques Adv. Elasl. Santoprene 203-50; 79xl08x3 mm plaques
liquid
23
@
7
Material Note
DuPont Alcryn 1201 8-70; compression molded DuPont GP-8 65A (chlorinated TPO); high vise. grade; black DuPont GP-N G5A (chlorinated TPO); high vise. grade; natural DuPont IM-8 70A (chlorinated TPO); med. vise., inj.mold. grade; black DuPont IM·N 70A (chlorinated TPO); med. vise., inj.mold. grade; natural DuPont PF·B 70A (chlorinated TPO); high vise. grade; black DuPont SP-B 75A (chlorinated TPO); med. vise., extrus. grade; black
8 11
..':\\:;:
Resistance Note
23/& 23
,:< ~,3
, 23
23' 23
24
78 57 45 38 25 21 14 78 57 45 38 25 21 14
56 76 79 76 85 78 83 56 76 79 76 85 78 83
46 65 75 76 84 81 94 46 65 75 76 84 81 94
A-20 A·14 A-13 A-14 A-l1 0-11 0-12 A-20 A-14 A-13 A-14 A-ll 0-11 0-12
Adv. Adv. Adv. Adv. Adv. Adv. Adv. Ad•. Adv. Ad•. Ad•. Ad•. Ad•. Ad•.
Elasl. Elasl. Erasl. Elasl. Elasl. Elasl. Etasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl. Elasl.
Santoprene 101-55; 79xl08x3 mm Santoprene 101-64; 79xl08x3 mm Santoprene 101-73; 79xl08x3 mm Santoprene 101-80; 79xl08x3 mm Santoprene 101-87; 79xl08x3 mm Santoprene 103-40; 79xl08x3 mm Santoprene 103-50; 79xl08x3 mm Santoprene 201-55; 79xl08x3 mm Santoprene 201-64; 79xl08x3 mm Santoprene 201-73; 79xl08x3 mm Santoprene 201-80; 79xl08x3 mm Santoprene 201-87; 79xl08x3 mm Santoprene 203-40; 79xl08x3 mm Santoprene 203-50; 79xl08x3 mm DuPont Alcryn
plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques plaques
@
'1:l
Ei ~ r;Vl
t:I
Reagent.>":'
Reag~nf Note ~',.;
.24.' .
~
10
<E-
10
Vl
;:l
10
t
10 10 10
.,0-
., >:l
It::
~\t:~!lWh
(oJ.i·}{~C)(~ays)
Zinc Chloride
10 10 10 10 10 10 10 10
}23'/' ·23,.·., .
9;':: 9'
likely:!opaye minor·elteel· 109
A-2
102
102 100 100
Al A3 Al
Adv_ Elasl. Santoprene 101-64; 79xl08x3 mm plaques Adv. Elasl. Santoprene 101-73; 79xl08x3 mm plaques
89 100
AS DO
Adv. Elasl. Santoprene 101-87; 79xl08x3 mm plaques
93
D2 A-2
o
102
. ,~i'
9 6
o o
102 87
23
9.
o
102
~.
o
100 102
"'23
;<
':~".
102
'9
'23
..;
...
DuPont Alcryn
o o
23
~;;.!~:-
",.r
,:6
;;;~i'·.
':!;t'>
Material Note.·,
iTensile
CpnC'ITemp'I" Th:ne
o
o o
o
102 102
o o
102 87 102
o
100
109 102
Adv. Elasl. Santoprene 101-55; 79xl08x3 mm plaques
Adv. Elasl. Santoprene 101-80; 79xl08x3 mm plaques Adv. Elasl. Santoprene 103-40; 79xl08x3 mm plaques Adv. Etasl. San toprene 103-50; 79x108x3 mm plaques
A1
Adv. Elasl. San toprene 201-55; 79x108x3 mm plaques Adv. Etasl. Santoprene 201-64; 79x108x3 mm plaques
100 100
A3 Al
Adv_ Elasl. Santoprene 201-73; 79x108x3 mm plaques Adv. Elasl. Santoprene 201-80; 79x108x3 mm plaques
89 100
AS DO
93
D2
Adv. Elasl. Santoprene 201-87; 79x108x3 mm plaques Adv. Elasl. Santoprene 203-40; 79x108x3 mm plaques Adv. Elasl. San toprene 203-50; 79x108x3 mm plaques
-f "U
o
Chemical Resistance - Olefinic Thermoplastic Elastomer
01 CO
Chemical Resistance - Urethane Thermoplastic Elastomer
-t ""U C
%Chan~r Reagent
Reagent Note Cone. Temp. Time (%)
Acetic Acid
3n
"
" "
I'C)
(days)
23 23'
7 7 7 7 270 365 365
23 23 22 22 22
5 5 5 20 20 20 20 20 20 20 20
20
10 10 10 10
. 15.6 2B 6.4 SO-90 >90 80-90 80-90 70-S0 70-S0 70-S0 70-S0
64 13.3 25.5 SO-90 >90 SO-90 SO-90 70-S0 70-S0 70-S0 70-S0
,
7
46 21.6
115.6 127.3
27.3
112
A-6
1.3
2S
13.3
0-10
<0.5
5.9
14.5
A-6
365
4
"
·
0
3
22
while; relalns 16:7'10 of tear'str. relains 11.4% of lea, sIr, poor resistance !
9 9 9 4
10
·
0-24 A-4S
9'
3
· "
23 23 23'
365
.
3-15 3-15 0-3 0-3
:;
@
'"
10
Ammonium Chloride
po ~
n'
l?'" tE· ';:s" t-
o:., .,p
te:
1 10
9 3
20 20 ,
10 10 10 10
20 7 7 7 7
23 23 23 23'
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ lOOC BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan CS5A (TPAU); annealed 20 hrs. @ 100C
excellenl resistance
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ lOOC BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C snow-white; relains 62.3'10 01 lea, " Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C
"
··
Aniline
20
.~
'23 'i ,
23 23
ntg~.(i
1
resist., little/no wg1. or vol. chg,
3-15 3-15 0-3 0-3
good resistance
,>
2'; , , 2 ,;;
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C
nOI resist.. shon le(fil contact;.' '::. . damages palts .
9
2'
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
resrst., lillle/90 wgt. or vol, chgi-'
I
,
"
..
i,
~.
ii
nOl re~~I.~ >30 >30 >30 >30
......;ci·,,;I;,i;~
I
"/~:' · '~\'~j.'A,.,"
......,..' ,..., ..~_,'" .
BASF Elastollan C85A (TPAU) BASF Elastollan C64D (TPAU) BASF Elaslollan C85A (TPAU)
;
excellent resistance .. x
,,"'3"";" 7 7 7 7
/.
blistered, whitened, relains 10.7"" of tear 511. snow-white; relains 20,5% of lea, SIr• '.,
7 7
9 .9
BASF Elaslollan C85A (TPAU) Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan I 185A (TPEU); annealed 20 hrs. @ 100C c " BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ lOOC
· " ·
sir.
Ammonium
BASF Elaslollan C64D (TPAU)
good resistance
.
0-3 0-3 0-3 0-3
.,
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan I 185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 3550R (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg·C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C Oow Pellelhane 2102-550 (TPAU) Dow Pellelhane 2102-65A (TPAU) i Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102-90A (TPAU) Dow Pellelhane 2103-550 (TPEU) Dow Pellelhane 2103-80AE (TPEU) Dow Pellelhane 2103·90A (TPEU) Dow Pellelhane 2103-90AE (TPEU)
little resist., OK only under certaiJl . condit.
>30 >30 >30
7" 9 9
22
"
'!loderate elfe~1 l
40 12.5 37.5
Material Note
excellenl resistance good resistance excelfenl.reslslanca good r~sjslan~e white; relains 21.('10 of tear str. retains 6.7% of lear sIr. retains 8'10 of tear str. minore"ect liltle or no effecl 'minor ellecl
A-6 O-IS A-13
7 7 7 7
10
"
~hange
23 23 23 23
23 22
.
Resistance Note
Hardness
20
,3 1 2 2 2
10
"
5-15 <5 5-15 5-15 15-30 15-30 15-30 15-30
5 365 365 7 7 7
7 7 7 7 270
3n
5·15 <5 5-15 5-15 15-30 15-30 15-30 15-30
6
20 22 22 23 23 ;_ 23
Ammonia
,
<0.5 <0.5 <0.5
3 3 6 8 6 6 4 4 4 4
Tensile IElongatlon Strength •••.. .
0-3 3-15 0-3 3-15
9 7 4
I !-
..•'.
7
o
% Retained
WelghllLenglhlVOlume
9····"",·
,
Acetone
Aluminum Chloride
P~L.
Rating
0>
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan CS5A (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU) BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ lOOC BASF Elaslollan I IS5A (TPEU); anneeled 20 hrs. 0 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ lOOC BASF Elaslollan C85A (TPAU); annealed 20 hrs. 0 100C
@
% Retained
'1:l
~Reagent ~ ~
tl
Reagent Note Cone. Temp. Time POL 00 ~ ~R~
Anon
20
3
20
3
.
not resISt., short term conlact damages parts
(1)
~.
tg
ASTM Oil No.1
~
E;
j
u::
7
2.9
<5 <5
<5 <5
>90 >90
>90 >90
little or no effeci "
Dow Pellethane 2102-550 (TPAU) Dow Pellethane 2102-65A (TPAU)
8
<5
<5
>90
>90
"
Dow Pellethane 2102-80A (TPAU)
B .8 6
<5 <5 5-15
<5 <5 5-15
>90 >90 BO-90
>90 >90 BO-90
" " minor effect
Dow Pellethane 2102-90A (TPAU) Dow Pellethane 2103-550 (TPEU) Dow Pellethane 2103-80AE (TPEU)
8 8
<5 <5
<5 <5
>90 >90
>90 >90
litlle or no effect •
Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU)
resisl., lillieino wgl. or
9 9 ,', 9
0·3 0-3
9.
0-3
9. 9 ' 9
0
0
9 ,9 5 5 7 9 1 9·1 5 4 6
103
9B
A-I
73
resist. !hUe/no wgt or vol. chg. BASF Elaslollan C64D (TPAU) " B A S F Elaslollan C85A (TPAU) 112, Miles Texin 355DR (TPAU)
0 1 -1
77 7B 105 99
121' 120 AO 97 AO 102 A·l
1
46 42 22
106 111, B2 A-5 j
1
7
9 9 9'
7 7
9 _ 9' 9 9
12
54
5
2.9
6.', ""
~:: T·~;,.,':
8.~·
Miles Texin 355DR (TPAU)
" M i l e s Texin 480AR (TPAU) Miles Texin 591AR (TPAU)
0-3 0·3 0-3
. " •
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. 0 100C
''" '.' .••
resisl.,.linle/nci wgCor vol. c/l.Q.
t " "
1
"i..
BASF Elastollan C64D (TPAU)
lFU
BASF Elastollan C85A (TPAU) Miles Texin 355DR (TPAU)
Bl
100
A'II:'>":";
Miles Texin 480AR (TPAU)
.~;"<:
Miles Texin 591AR (TPAU)
5B
115
3
59
120
t~5~
5·15
BO-90
BO·90
<5
<5
>90
>90
5-15 <5
5·15 <5
BO-90 >90
BO·90 >90
A-6
~:2: ;;i:;:;iij;;~1J!~;,~~:~ lOinor ellecl,;,)}
'!
Ihlle or nG ert,~c,t:;;t,: .'
j
lillie orno:effect"t-3'\',::,"';';"
I
minorefia~~'i';;;:i,i.;·
~
~
BASF Elaslollan C64D (TPAU) BASF Elastollan C85A (TPAU)
,:;" o l d ; ;
5~:
.6} 5-15 6
? '
Miles Texin 355DR (TPAU) Miles Texin 480AR (TPAU) Miles Texin 591 AR (TPAU)
BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) BASF Etastollan 11640 (TPEU); annealed 20 hrs. @ 100C
2.98:
ASTM Oil N o . 3 ; '
100% modulus decreases 1%., 100% modulus decreases 5% i
Miles Texin 480AR (TPAU) Miles Texin 591AR (TPAU) Parker Han. Parker P4700A90
,reslst,litUe/no wgt or,v?1. cllg. ". " excellent resislpnce.
9,,: ~~ 3 9' , , 4 2.9
A-IS;
1 3
.,
BASF Elastollan C64D (TPAU)
" B A S F Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
degradecl
4 20
chp.
resist.. IhUe/no wgl. or vol. chg;" BASF Elastollan C640 (TPAU) " B A S F Elastollan C85A (TPAU) 100% modulus lncreases·2%.:, Parker Han. Parker P4700A90
o lubricating oil
~ol.
" B A S F Elastollan C85A (TPAU) e~cellent re$i$lance" BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C • BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
·0
ASTM Oil No.2
BASF Elastollan C64D (TPAU)
B
9 7 7
Material Note
" B A S F Elastollan C85A (TPAU)
8
r
I
Resistance Note
Chemical Resistance - Urethane Thermoplastic Elastomer
~:::: ;:::~ ::~~: :~:~~i
Dow Pellethane 2102·550 (TPAU) Dow Pellethane 2102-65A (TPAU) Dow Pellethane 2102·80A (TPAU) Dow Pellethane 2102·90A (TPAU)
~
Chemical Resistance - Urethane Thermoplastic Elastomer
-i ""U
0> N
C
Reagent
'Reagent Note Cone. Temp. Time ";,,
(%)
('C)
(days)
P~L ,8
i
8 9 9 9 9 9 9 9 7 '8
2.9 2.9 2.9 2.9 7
5 4 7
125 125 125 150 150 150
2.9 2.9 2.9 2.9 2.9 2.9
7 3 5 0 0 5
7 7 7
2.9
i
,
20 22 22 22 23 23 23 23
S'
23
n-til
70 70 100;'
~
~ ;:l
t"'
~ p
... It:
;~
::
>90 80-90 >90 >90
I
Hardne~s
Resistance .' Note
Change
8 8 6 8 8 9 8 9 7 9 9
<5 <5 <5 <5 <5 5-15 <5 <5
1
9'" 9
'9
L~
IiUle or no effect minor effect IIttla or no.eUaci
"
· "
·
resisl.. IitUe/no wgl. 01 vol. chg.
7 7 7
127 134 126 102 103
10
108 40 44
115 121 124
A-2
A-3 A-l A-2
A-9
12
16
90
<5 <5 <5 <5 <5 5-15 <5 <5
>90 >90 >90 >90 >90 80-90 >90 >90
>90 >90 >90 >90 >90 80-90 >90 >90
102.6 98 112.2 103
0
.
100% modulus increases 2% 100% modulus decreases 3%
I
A-15
Miles Miles Mites Miles Miles Miles
degraded
·
little 01 no effect
, . I
·· ·· ·
Al DO A-I AO
minor eUeci lillte or no eUecl :'.;.
100% modulus inc.reases ercellanl resistance
..
·
·.
5"
.;~
resisl.. little/no wgt. or vol. chit, :';.}~},.(;
u ;:;"
5-15
80-90
6
<5 5-15 5-15
<5 5-15 5-15
>90 80-90 80-90
80-90 >90 80-90 80-90
.'
!
•minor effect .Iilll,a, or no effect minor eUect
·
Texin Texin Texin Texin Texin Texin
355DR 480AR 591AR 355DR 480AR 591AR
(TPAU) (TPAU) (TPAU) (TPAU) (TPAU) (TPAU)
Dow Pellelhane 2102-550 (TPAU) Dow Pellelhane 2102-65A (TPAUI Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102-90A (TPAU) i , Dow Pellethane 2103-55D (TPEU) Dow Pellethane 2103-80AE (TPEU) i Dow Pellethane 2103-90A (TPEUI Dow Pellethane 2103·90AE (TPEU) BASF Elastollan C64D (TPAU) Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C Parker Han. Parker P4700A90 BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C 8ASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs, @ 100C BASF Elastollan C64D (TPAU) BASF Elaslollan C85A (TPAU) BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) ;
resist., little/no wgl. or vol. chg. retains 117% of teal sir. " retains 93.3% 01 leal sir. retains 95.4% of tear, sir.,
~
5-15
6,,,
106 102.2 112.7 98
· ·
100% modulus decreases I'll. resisl., lill1e/no wgl. or vol. chg.
,I
'"
Dow Pellelhane 2103·550 (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellelhane 2103-90A (TPEU) Dow Pellethane 2103·90AE (TPEU) BASF Elaslollan C64D (TPAU) BASF Elaslollan C85A (TPAU) BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TP AU) BASF Elaslollan C85A (TPAU) Parkel Han. Parker P4700A90 BASF Elaslollan C64D (TPAU) BASF Elaslollan C85A (TPAU) Miles Terin 355DR (TPAU) Miles Texin 480AR (TPAU) Miles Texin 591AR (TPAU) Parker Han. Parker P4700A90
ercellenl resislance
"'if I
.-
resis\., IiUle/no wgl. or'vol. chg.
84 83 89 118 82
1 0-3 0-3 0-3 0-3 1 2 2 3
I
:-
>90 80-90 >90 >90
88
<0.5 <0.5 <0.5
Material Note
,~
i
;9
ASTM Reference Fuel B
I
96
~;
8
270 365 365 2.9 7 7 7 7
100
til
3 5 5 6 7
5 5
7
"
'\l
<5 <5 1 4 0-3 0-3 0-3
4
8 8-
@
<5 5-15
Ii
ASTM Reference Fuel A
<E'
<5 5-15 <5 <5
6 '8
20 20 23 23 23 70 70 70 100 100 100 100 100 100 100
I
% Retained Tensile ElongeUon Strenglh,
I I "
Rating'
ASTM Oil No.3
ASTM Oil No.3
% Chllnge
Weigh" Lenglh Volume
"
','
,'"
Dow Pellelhane 2102-550 Dow Pellethane 2102·65A Dow Pellethane 2102-80A Dow Pellelhane 2102-90A "
(TPAU) (TPAU) (TPAU) (TPAU)
@
,
'tl
po
~
Reagent
~
ASTM Reference Fuel B
n'CIl
% Change PDLWel~till
Reagent Note Cone. Temp. Time (%)
Rating"
(daya)
('C)
% Retained
Length IVOlume
I
TenaUe Elongation Strength
Resistance Note
Hardness Change
"
Material Note ......
:",
4
CIl
tEo
,
;:l
t"-
20 22 22 22 23
o:., .,p
4" 4'< 15-30 4 15-30
5
70 100 100
~
',':
ASTM Reference Fuel C
, j
I
, , "
·· " "
" " " "
· " "
Benzene
20 22 22 23 23 23 23 23 70 70
,
12
5 4
2.9 7 7 7 7
6 5 5 6 6 8 7
70-80 70-80
70·80 70-80
70·80 70·80
72.7 B4 68.9 84
116 111.1 112.7 97
modarata ellact
100 100
8 7
20
5
22 ". 365 22 365 7 23 7 23 23 , 7 ., 7 23.
5 3
A·15 0-4 A-4 A·2
5 7.5 18
....:",..?"",..
25 16-30 16-30 17 17 9 19
,
BO-90 80·90 70-80 70-80 70-80 70-80 70-80 70-80
80-90 80·90 70-80 70-80 70-80 70·80 70·80 70·80
mlnofallect
·
,
moderata allect
•
1
I
.~
84 63.5
111.1 112.7
0-11
80
97
A·4
A·8
~:
~
111.1 109.1
Dow Pellethane 2102-550 (TPAU) Dow Pallathana 2102·65A (TPAU) Dow Pallathane 2102·80A (TPAU) Dow Pallathane 2102-90A (TPAU) Dow Pallathana 2103-550 (TPEU) Dow Pallathana 2103·80AE (TPEU) Dow Pallalhana 2103·90A (TPEU) Dow Pallethana 2103·90AE (TPEU) BASF Elastollan C64D (TPAU)
tan, fetains 39.3% 01 taar str. ". Milas Texin 355DR (TPAUj 3.2 mm slabs. cured 16 hrs. @ 93 deg-C White coating; relains 48,7% 01 lear.? Miles Texin 480AR (TPAU) 3.2 mm slabs, curad 30 days @ 22 deg-C sll. 100% modulus dacfaasas 20% Parker Han. Parker P4700A90 BASF Elastollan 11640 (TPEU): annealed 20 hrs. @ 100C fair resistance BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU): annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU): annealad 20 hrs. @ 100C " rasist., lijlleJno wgt: or vol. ch!!. BASF Etastollan C64D (TPAU) modar. fasls!., axtended expos. has BASF Elastollan C85A (TPAU) soma elrect on weight/dimen.· resist., little/no wgL Of vol. chg. 8ASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) modar. resbt.. exlended exrrp~, ~as somaetlecl on wa'ghtldlT1~n'; ,.,·ll\lle(esiSl:;(lKoniYiinde(ceiliiln . BASF Elastollan C64D (TPAU) . condll.·'
··
, ,
62 39.2 >30 >30 >30 >30
I
" "
23 11 24
i
·· .. ·
faslst., littlalno wgl.. or vol. chg.
9 17
,.
"
·
8
2 2 2
5·15 5·15 15-30 15-30 15-30 15·30 15-30 15-30
Dow Pallathana 2103-550 (TPEU) I Dow Pellathana 2103·80AE (TPEU) " I Dow Pellethane 2103·90A (TPEU) " .,. Dow Pellathane 2103-90AE (TPEU) BASF Elastollan C64D (TPAU) feslSt., littlelno wgL Of vol. cl1g. Miles Taxin 591AR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 dag-C wIlile; retains 73.6% 01 tear str. light pink; ralalns 57.3% of tear Sl(. Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C ratains 50% ollelf sIr. 100% modulus decreases 16% Parkar Han. Parkar P4700A90 BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C good IIsblance taif resistance BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU): annaaled 20 hrs. @ 100C good resislance lair feslslance BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C resist., lijllelno wgl. 01 vol. chg. BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) " BASF Elastollan C64D (TPAU) moder. rasis!., axlanded ~P9$ .• has some ellecl on wai~~~lmeTh;,? fasISI., lii.lIe/no wgi,"Of vol. olig. 8ASF Elastollan C85A (TPAU)
,
10 5-15 5·15 15·30 15-30 15-30 15-30 15·30 15-30
6 4 4 4 4 4 4 8
365 365
17 3·15 16-30 11 16-30 6 11 6
70-80 70-80
..
6i
"
50% isooctana, 50% toluana
15·30 6 <0.5 2.5 5
5 5 6 7
5 7 5 8 8 '7
,I
15·30 15-30 15-30
8 270 365 365 2.9 7 7 7 7
23 23 23 23 • 70
I
15-30 15-30
light pink: ratains 20:7% o{leaf ~Ir. lel.ains.g,l% oliear sll. poor resistance
0-5 A·18
, , I
" "
·
.,
Miles Texin 355DR (TPAU) 3.2 mm slabs, curad 16 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C BASF Elastollan 11640 (TPEU): annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU): annealad 20 hIS. @ 100C BASF Elastollan C64D (TPAU): annaaled 20 hrs. @ 100C BASF Elastollan C85A (TPAU): annealed 20 hrs. @ 100C
-i
" C
Chemical Resistance - Urethane Thermoplastic Elastomer
0>
'"
Chemical Resistance - Urethane Thermoplastic Elastomer
--i ""U
0)
+>-
C
T!m::
Reagent Note Cone. Temp. ('I). .
v
Benzyl Alcohol
('C)
C?_rll}
23
7 7 7 7
23 23 23
Bitumen
"
" "
Bleach
I I
POL Weight length Rating. 0 0 0
"
,
. 40 40 40
23 23 23
" "
Boric Acid
4 4 4 4 4 4 4 4
7 7 7
9
9 6 6
.;'.
4
2
,.4
'1:l
U.S. grade Wagner Lockheed 21-B
~
European grade
@
E" rio
en
o C1l en
" " " "
15'
U.S. grade
t""'
"
I:l
"
;:l
0: .... ....
ct::
"
2 2 4 2 7 ",
20 20 22 • 22 .. 23 23 23 23 23 23 23 23
5·15 5-15 <5 <5 <5 <5 <5 5·15
15·30 15·30 >30 15·30 >30 >30 15·30 >30
4 i
15·30 15·30 >30 15·30 >30 >30 15·30 >30 19
6
.,
3
7
365 7 7 7 7 7 7 7 7
1 5 2 /5
17.5
2 5
2 ·c·
16·30 >30 16·30 >30 16·30 >30 16·30 >30
· ··
resls\., Ihlle/no wgt. or vol. chg.
BASF BASF BASF BASF
"
80·90 >90 BO·90 >90 80·90 <65 <65 <65
80·90 >90 BO·90 >90 BO·90 <70 <70 <70
minor effect litile or no effect minor ellecl little or no ellecl minor effect severe ellect. not reco!""'ended
" "
excellenl resistance"}} .
..
~: ~
':';.
,
" " " minor ellect
Elastollan Elastollan Elaslollan Elastollan
C64D (TPAU) C85A (TPAU) C64D (TPAU) C85A (TPAU)
Dow Pellethane 2102-550 (TPAU) Dow Pellelhane 2102-65A (TPAU) Dow Pellelhene 2102-80A (TPAU) Dow Pellethane 2102-9OA (TPAU) Dow Pellethane 2103-550 (TPEU) Dow Pellelhane 2103·80AE (TPEU) Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103·90AE (TPEU) BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hIS. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
80-90 80·90 >90 >90 >90 >90 >90 80·90
80·90 80·90 >90 >90 >90 >90 >90 80·90
70·80 70-80 <65 70·80 <65 <65 70·80 <65
70·80 70-80 <70 70·80 <70 <70 70·80 <70
60
126.7
0·15
whhe. retains 33% 01 lear Sir.
Miles Texin 355DR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg·C
29.7
150.9
A·32
r~tains 71,6% 01 teat sir.
. Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 h,s. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. 0 100C BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. 0 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
,i
"
IIUle or no effeci
•
" "
ll ,
minor effeci
,
.. "
moderate ellect
.i ::":';"
'/
"
rii~ommended""
severe el(8OI, not moderate ettecl severe effect. not recommended
"
moderale effect severe effect, nol recommended moder. resist., extended expos, has some effect 00 weight/dimen.
21
365
5 2
BASF Elastollan 11640 (TPEU); ennealed 20 hrs. @ 100C BASF Elastollan I 185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); ennealed 20 hrs. @ 100C
"
0·3 0·3 0·3
~
• ~ 5·15 5·15 <5 8 <5 8 8 <5 <5 8 8· <5 6 :, 5-15
Brake Fluids
European grade
5·15 <5 5·15 <5 5·15 >30 >30 >30 0·3
7
,
dIssolved
"
5·15 <5 5·15 <5 5-15 >30 >30 >30
2
"
Material Note
.'
1 4 2 5
2. 23
Resistance Note
.,'
9
"
40
Hardness Change
;
6 8 6 8 6 2
sodium hypochlorite
Tensile IElong81lon Strength. '"
, -..
9 9 9
undiluted
" " " "
Volume
0
20'· 20 80 80
black-lop
% Ret~'ned
% Change
•• "Reagent
"
leir resistance
,
, , j
poor !8sislance l.ai, resfstao~e poor resista.",e .' feir resistance poor resistance lair res1stance poor resista.nce
,
Dow Pellethane 2102·550 (TPAU) Dow Pellethane 2102·65A (TPAU) Dow Pellethane 2102·80A (TPAU) Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103·550 (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellethane 2103-9OA (TPEU) Dow Pellethane 2103-90AE (TPEU) Dow Pellelhane 2102·550 (TPAU) Dow Pellethane 21 02-65A (TPAU) Dow Pellelhane 2102-80A (TPAU) Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103-550 (TPEU) Dow Pellethane 2103·80AE (TPEU) Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103·90AE (TPEU) BASF Elaslollan C64D (TPAU)
.
@
"1:l
S"
Eiongat'loh
~ (:;'
Vi
f?
.." Brake Fluids
;:s
.s
:) .
3.
15'
Resistance Note
~han9!'!
European grade
Vi
BASF Elastollan C640 (TPAU)
nol resiSt., sriort term conlacl " damages parls' .(...~.:: .... ,.
~:::-,
BASF Elastollan C85A (TPAU)
3.
U.S. grade
BASF Elastollan C640 (TPAU)
t
t""'
0: ""1
IHardness
Butane
BASF Elastollan C85A (TPAU) 3-15
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
P
3-15
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
u:
3-15
""1
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
.\
3-15
Butyl Acetate
.~j,,::
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
16
·moder, resist:, exl~.nded exposihas some effectCl~"weight/dlme.n.
BASF Elastollan C640 (TPAU)
>30
poor resistance , ""',:-:::
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
~:
40
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
40
Butyl Alcohol
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C Ii"
>30
butanol
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
16-30
fair r8$iSlance':.
16-30
Calcium Chloride
<0.5
saturated solution
<0.5
82
88.9
01
101.4
105.5
AO
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
\;:.:~:,J:.
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
retains 103.3~ of lear sIr.
Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
,) ;~lairlsl05.7% olte~;str ~ . '?g~~d r;SiStance .
. Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
40
3-15
40
3-15
40
0-3
40
0-3
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
16-30
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
Carbon Disulfide
;.,::
• excellei.iris~lani:e
16-30
Carbon Tetrachloride
7 12.5
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C 111.1
0-4
Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
54.1
105.5
A-8
Miles Texin 480AR (TPAU) 3.2 mm slabs. cured 30 days @ 22 deg-C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
Caustic Soda
solution
Chlorobenzene
Chloroform
Chromic Acid
3n
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
80 16-30 16-30
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
U
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C .,
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
16-30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
10
0-3
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
10
0-3
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
10
0-3
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
10
0-3
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 1DOC
>30
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
>30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
-i ""'C
C
Chemical Resistance - Urethane Thermoplastic Elastomer
0> 01
Chemical Resistance - Urethane Thermoplastic Elastomer
-l
"'U C
Reagent
Reagent Note IC. Qnc·.·.IT~mp·1 Time J~l.· ('C)
CitrQnic Acid
Coca Cola
Crude Oils
3n
Coca Cola beverages
Texas sour crude
Cyclohexane
(days)
I
POL Rating
<0.5
22
365 365
7 7
<0.5
~2
<0.5
22
365
22'
365
7 6
23
7
7
3-15
goodusislance"
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
23
7
5
16-30
tair resistarite
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
23
7
3
excellent resistance
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
23
7
9 9
7 7 7
3-15
7
3-15
2 2 2
7 7 7 7
undiluled
20
20 . 20 ,
2'3' :.23
t1l
. 23
tEi·
23
Ul
so 'so,·
;:J
~ c:r
., .,I:l
It:
7 7 7 7
Dimethylacetamide
'):/23 '\:.. 23
7 7
;:
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C 104
AO
76
95.6
0-4
retains 76% of lear Sir•.
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
86.5
112.7
A·2
retains 79.6% of lear sir.
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C
70.1
yellOws; relalns 104.7% of fear sir.
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
2
102
100
0-1
yelllowed; rete ins 86.7% of lear sir.
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
2.5
109.5
107.3
A-I
.' ye'lllowed; relains 88.6% o( tear sir.
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg'C
0-3
":;.'
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
severe effect, not· r~conimended .
Dow Pellethane 2102-550 (TPAU)
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
2
>30
>30
<65
<70
2 2.
>30
>30
<65
<70
Dow Pellethane 2103·55D (TPEU)
>30
>30
<65
<70
Dow Pellethane 2103·80AE (TPEU)
>30
>30
<65
<70
>30
>30
<65
<70
Dow Pellelhane 2102·65A (TPAU) u
Dow Pellelhane 2102-8OA (TPAU) Dow Pellethane 2102·90A (TPAU)
Dow Pellethane 2103-9OA (TPEU)
•
>30
Dow Pellethane 2103-90AE (TPEU)
poor resistanCe
""
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
>30
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
2
>30
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
2
>30
5
16-30
5
16·30
5 5
16-30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C fair resistance
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ lODe BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
;. ·N
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
16-30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
~/
<5
<5
>90
>90
8
<5
<5
>90
>90
8
<5
<5
>90
>90
II
<5
<5
>90
>90
Dow Pellelhane 2102·90A (TPAU)
8 6
<5
<5
>90
>90
Dow Pellethane 2103-55D (TPEU)
5-15
5-15
80-90
80-90
<5
<5
>90
>90
5-15
5-15
80-90
80-90
S" @
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
3-15
>30
2 2 2 2
7 7 7 7
3-15
>30
8.""
tl
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C
.7
23
diesel oil
good resislan~e
270
23
nUl
Matedal Note
22
23
Diesel Fuels
R.eslstanceNote
7 7
23
~
IHardness Change
U U
23
'1:l
Elongation .'
7
23·
;:i
I
7
23
Dibutyl Phthalate
Strength
U
23
Detergent
% Retained
I
U
Cyclohexanone
Decalin
% Change
W.19ht·llen 9Ih Volume . Tensile
0> 0>
8
9
6
40
/9.
9
2 5
7
3-15
.. 7
3-15
~. 9 9
0-3
8~r
7
0
o
lillie: or no effect
......•/
'-'
Dow Pellelhane 2102-65A (TPAU) Dow Pellelhane 2102-80A (TPAU)
minor effect
Dow Pellethane 2103·80AE (TPEU)
. min~(effect
Dow Pellelhane 2103-90AE (TPEU)
Iittle~r no effect ."
reslsl., lillleln6 wgl. or vol. chg.
Dow Pellelhane 2103-90A (TPEU) BASF Elaslollan C64D (TPAU)
'model- resl$l., e~ie.nded ~xp~~. has . . some. ,ffect on weilihVdil(leJ!~}{:
BASF Elaslollan C85A (TPAU)
i\iesisl.;Wlie/nowgl. or vol. chg:>
BASF Elaslollan C64D (TPAU)
~:.
':;"u ..~~ .
good resisl~nce
BASF Elaslollan C85A (TPAU) BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
e~cellent
0-3
4
Dow Pellelhane 2102·55D (TPAU) '''~~.
•.•.. tesisl., lillie/no
resistance
BASF Etaslollan C64D (TPAU); annealed 20 hrs. @ 100C
u
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
wg!. or vol. chg.·•••, u
. 'dissolved
BASF Elaslollan C64D (TPAU) BASF Elaslollan C85A (TPAU) BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
@
'p" ~
n'V> ~ V>
~.
I,Reagent·
Elong8110nl~ardJles~ .Chan9!ll
I I
Reagent Note ICone. Temp, Time (")
Dimethylacetamide
I'C)
(days)
23
7
23
7
Dimethylformamide
;:l
s:c:r.., ..,p
...
Resistance Note
8ASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C >30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
>30
>30
<65
<70
Dow Pellelhane 2102·550 (TPAU) Dow Pellethane 2102·65A (TPAU)
".'. :("
Dow Pellethane 2102·80A (TPAU) Dow Pellelhane 2102·90A (TPAU)
"
"
u::
Material Note
·········1:······':;:;·······
I
Dow Pellethane 2103·550 (TPEU)
>:.
Dow Pellelhane 2103·80AE (TPEU) Dow Pellelhane 2103·90A (TPEU)
"
Dow Pellethane 2103·90AE (TPEU)
dissolved
BASF Elaslollan C64D (TPAU) BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hIs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hIs. @ 100C
Dioctyl Phthalate
5·15
5-15
80-90
80·90
<5
<5
>90
>90
<5
<5
>90
>90
<5
<5
>90
>90
",inore~e~i lillie 01
Dow Pellethane 2102·550 (TPAU)
rio, aftacl
Dow Pellelhane 2102·65A (TPAU) Dow Pellelhane 2102·80A (TPAU)
.
Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103·550 (TPEU)
<5
<5
>90
>90
15-30
15-30
70-80
70-80
5-15
5-15
80-90
80-90
Dow Pellethane 2103-90A (TPEU)
5-15
5-15
80-90
80-90
Dow Pellelhane 2103-90AE (TPEU)
Dow Pellelhane 2103·80AE (TPEU)
,asist., linfarno w91.~' vol: cbg~, ~\;:::'<'::: /,. ~W. -. ~3:~
1 7
Ethyl Acetate
15
BASF Elastollan C85A (TPAU)
16-30
BASF Elaslollan 11640 (TPEU); annealed 20 hIS. @ 100C
16-30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
16-30
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
16·30
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
littl8'lasisL. OK-onft\lndaicertain/
18
. 10
56
113.3
0-16
25
31.1
120
A-23
>30
·.,coOOIl,,;;/,.
·it',.
wnile; letiliils 22.• 7% of leal $II.
.Ietains I j..•'" ollaal S~.(· .. PQoli~ist~~ i
Miles Texin 355DR (TPAU) 3.2 Miles Texin 480AR (TPAU) 3.2
mm slabs. cured 16 hIs. @ 93 deg·C mm slabs. cured 30 days @ 22 deg·C
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
38
BASF Elastollan C64D (TPAU); annealed 20 hIs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hIS.
0 100e
16-30
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU)
96
8
96
16-30
96
16-30 16-30
96
Ethyl Ether
BASF Elaslollan C64D (TPAU)
>30 38
Ethyl Alcohol
BASF Elastollan C85A (TPAU) BASF Elastollan C64D (TPAU)
6
Ethers
BASF Elaslollan C64D (TPAU)
<0.5
63.6
116
A-6
5
74
115.6
0-12
7.5
58.1
110.9
A·8
Ethylene Chloride 3·15
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100e
-i "'U
C
Chemical Resistance - Urethane Thermoplastic Elastomer
0>
-....
Chemical Resistance - Urethane Thermoplastic Elastomer
--i
"'U C
Reagent
Reagent Note Conc. Temp. Time POL , (%1 ('CI (days) Rating
Ethylene Chloride
23
7
23
7
Ethylene Glycol
Perma-guard coolanl
.. ..
wi 50% waler
..
·.. ..
. ..
·· ··· ..
Ethylene Glycol
3-15
7
3-15
7
7,
3-15
22
365
3
20
CI>
~
CI>
16' ;:l
Formic Acid
'3
51.5
13.5
Bl.8
A-3B
reddish: ,etains 2.3% of lear s·lr.
Miles Texln 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
270
7
1
96.1
108
A-I
pink, relalns 100'10 of lear slr_
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
22
365
8
<0.5
94
102.2
0-3
22
365
8
<0.5
9B.6
112.7
A-I
Miles Texln 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
,
lillie or no effect
Dow Pellelhane 2102-550 (TPAU)
6
5-15
5-15
BO-90
BO-90
50
23
6
5-15
5-15
BO-90
BO-90
50
23
8
<5
<5
>90
>90
,
50
23
8
<5
<5
>90
>90
~
50
70
8·
,
50
70
50
8:
mjnor effect'
70
4
15-30
15-30
70-80
70·BO
moderale eflect
70
8
<5
<5
>90
>90
70
5-15
5-15
BO-90
BO-90
,.
5-15
5-15
BO-90
BO-90
.;
<5
<5
>90
>90
97
100
100
23
- 6
100
23
8
<5
<5
>90
>90
100
23
6
5-15
5-15
BO-90
BO-90
100
,i 23
6
5-15
5-15
80-90
BO-90
23
6
5-15
5-15
80-90
BO-90
23·
6
5-15
5-15
BO-90
BO-90
23
6
5-15
5-15
80-90
80-90
2.9
< 6
4
5
B5
119
5-15
5-15
BO-90
BO-90
80-90
12
15.6
70
8
<5
<5
>90
70
4
15-30
15-30
70 70
·6
5-15
5-15
6
5-15
5-15
10
23
7
10
23
7
23
7
23
7
2'
23
7
5
16-30
23
7
.5
16-30
..
.. ..
.
20
.,
10
20
7
.'
.,
7". 7 7····
3-15
"
3-15
.2',}
>30 >30
2
77
j
J
2
Dow Pellelhane 2102-90A (TPAU) Dow Pellelhane 2103-550 (TPEU)
.~:":.'
Dow Pellethane 2103-80AE (TPEU) Dow Pellelhane 2103-90A (TPEU)
minor effect
·
0-34
Dow Pellelhane 2103-90AE (TPEU)
lailed, retains 4'10 of tear 51r.
Miles Texin 4BOAR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
gooo resistance
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
·.. ·
,
. Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C
yelllowed, failed, excessive swell
.-
3-15
',..
Dow Pellelhane 2t03-90A (TPEU) Dow Pellelhane 2103·90AE (TPEU)
'
BO-90
100
10
,
Dow Pellethane 2103-550 (TPEU) Dow Pellelhane 2103-BOAE (TPEU)
moderale eflecl
70-BO
3-15
··· · ·
;
l
Dow Pellethane 2102·90A (TPAU)
,
70-80
7
Dow Pellelhane 2102-BOA (TPAU)
,
minor eflecl
70-80
15-30
"
lillie or no ellecl I
BO-90
15-30
7
Dow Pellelhane 2102-65A (TPAU)
80-90
4
23 23
Parker Han. Parker P4700A90
'mliliiiiiftecf"
70-BO
70
lB
~.
Iiltle or .no effecl
100
75
,.
f
70-80
1
Dow Pellethane 2103·90A (TPEU)
>90
>90
70-80
2
Dow Pellethane 2103-90AE (TPEU)
·
Dow Pellelhane 2102-80A (TPAU)
>90
15-30
365
lillie 0' no effect
Dow Pellethane 2102-550 (TPAU)
<5
15-30
365
Dow Pellelhane 2103-80AE (TPEU)
moderale eflecl
<5
4
22
Dow Pellethane 2103-550 (TPEU)
minor eft.eel
100% modulus dec~eases 15%'"
A-3
Dow Pellethane 2102-80A (TPAU) Dow Pellelhane 2102-90A (TPAU)
1~lIe or no eflecl .,.
,
Dow Pellelhane 2102-550 (TPAU)
lillie or no: effeel
8
70
22
•.. !
,
70
100
3n
·.
>90 BO-90
8
Dow Pellelhane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU)
{ '.
>90
70
"
Iittl~ 0' nct efieCh
BO-90
70
10
Dow Pellelhane 2103-BOAE (TPEU)
<5
50
Dow Pellethane 2102-90A (TPAU)
·
5-15
50
..
Dow Pellelhane 2102-80A (TPAU)
minor ellect
<5
6 6
;
·
,
5-15
10
>l It::
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
retains 88.6% 01 tear sir:
23
t""
0:.,
relains B8.7'1o of tear su.
,
50
n-elhyl morpholine
~ ;:;.
365
>90
100
E'
22
>90
100
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
22'
>90
100
BASF Elaslollan C64D (TPAU): annealed 20 hrs. @ 100C Miles Texln 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
>90
.
··
dark purple: retains 11.3'10 ol-Iea, sl'. .
<5
,
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-24
<5
,
good,esislance
104.4
<5
50
Material Note
44
<5
50
CD
Resistance Note
,
8
100
"1:l
.,
Hardness Change
8
100
Ferric Chloride
Tensile. 1Elongallon Sl,englh
?3 23
100
@
Welghl Ilenglh I Volume
50
50
100
Ethylmorpholine
% Retained
7
23
Ethylene Dichloride
.
% ~hange
0)
.",. poo, r~i518flc"
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
{'i
BASF Elaslollan C85A (TPAU): annealed 20 hrs. @ 100C
{''is;
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
lalr-,esistance
·
.,
·
.:
little resist.. OK only under ce~arn condit:
BASF Elastollan CB5A (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C64D (TPAU) BASF Elastollan C85A (TPAU)
@
'i:l
S" ~
0' CIl
tl (1) CIl
Freon Freon 11
<5
<5
>90
>90
;:l
<5
<5
>90
>90
t
15·30
15·30
70·80
70·80
0-
5·15
5·15
80·90
80·90
P <.c::
5·15
5·15
80·90
80·90
tEl·
., .,
>30
Freon 113
270
·{·:':t·j~:::+
>30
<65
<70
15·30
70·80
70·80
15·30
70-80
70·80
7
93.5
106
Al
100
102.2
0·4
94.6
105.5
A·2
16·30 16·30
d~!M,
;i~('
7
16·30 16·30 16·30 16·30
Gasoline
high test
fttHt#b
)tWP%
<5
<5
>90
>90
<5
<5
>90
>90
15·30
70·80
70·80
5·15
80·90
80·90
5·15
80·90
80·90
15·30
70·80
70·80
15·30
70·80
70·80
15·30
70·80
70·80
regular
Gasoline
;\,~O"
"
;\/20;:;'
Boron premium
:,·.}@2/.·,•.;,· ·
. :"';'8 .....:.
7
tit;" ...,
. -
17
270
,.,. . . ,.;>..
.:;.'
Gear Oils
Hypoid SAE 80
" SAE90
.\~3AC
.it;g9,!!/
:~;l~i,:(
35
'.,
"~
3
83.1
116
A·5
94
113.3
0·7
";'~~;~:j;:\ .;.:. • . •. )
77
116.4
A·4
23
91
1~6
0·4
27
72
130
A·6
21
73
110
A·4
23
91
125
0·5
30
70
128
A·S
34
61
114
A-5
1 1
>~
0·3 0·3 2 2
~"/
.."
moder. reslst:. exlended expos. has' .... some'lfe\;l*~ ,~~i9llt(di~e!l;:
2.5 4
winterized
-:U·.:~·:··
)~;S:~1i";'~I~i:~r&'~l;;~f~~~ij~~~;;;j;
'.:~:;:~./:'::::':"-:
Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103·90AE (TPEU)
@ 93 deg·C Miles Texin 355DR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg·C
.r~~itt~~~~;f~;b6~a/~l(/;i;':Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C
~. . '\:!:~~::~:~:::~l:::~::~:~::r~<~:~i~:!~:: 7~~::j~~~. <~:~i·:·~: : ::'<. : : ·:;:;L.
6
Dow Pellethane 2103·80AE (TPEU)
\Yn~!.~1(e,!~i%75,~~%~I,le!~f!~>iMiles Texin 591AR (TPAU) 3.2 mm slabs. cured 16 hrs. ..•.•. ·;r~t~jil~76}'*'91!.~arslkY(A
r• •
10 super
Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103·55D (TPEU)
~i~liimi~ ~:~~l~~
16·30 16·30
Freon 22
Dow Pellelhane 2102·65A (TPAU) Dow Pellethane 2102·80A (TPAU)
}~~~'~~~!;;~~f~!~\~~~~~~l;~i;;);
2
d)'~"\'
Dow Pellethane 2102·55D (TPAU)
i~~~~rf~
1.5 2.5
<~~n
Freon 12
':::~::~~.:.>: .·':~~~~~~~:f~;B~~!~.e~~-\:;:f~:f:~~:;~~~~t;~
8ASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C Dow Pellethane 2102·55D (TPAU) Dow Pellethane 2102·65A (TPAU) Dow Pellethane 2102·80A (TPAU) Dow Pellethene 2102·90A (TPAU) Dow Pellethane 2103·55D (TPEU) Dow Pellethane 2103·80AE (TPEU) Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103·90AE (TPEU) BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU)
%ibr;9l'1n;re.)~"ii?5:~,!IJ~~t,~il.7 Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C ~;b(&~~;'i.~~ii\~5i.3"ottkisll Miles Texin 355DR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg·C 'b;Ow~:;~I~iiit6i.i%i(,ftear~~;'>·Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C i( Miles Texin 355DR (TPAU)
J; .t;>,
::.',:-'
. ':' ..
'
':,....
.'.
"'::' -::~:':'.': '''::':'':.
'~:"'"
~~:~7~~~~
~;~~
Miles Texin 480AR (TPAU) Miles Texin 591AR (TPAU) Miles Texin 355DR (TPAU) Miles Texin 480AR (TPAU) Miles Texin 591AR (TPAU) BASF Elaslollan C64D (TPAU) BASF Elastollan C85A (TPAU) BASF Elastollan C64D (TPAU) BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
-I 'lJ
C
Chemical Resistance - Urethane Thermoplastic Elastomer
0)
co
-..I
Chemical Resistance - Urethane Thermoplastic Elastomer
-I "1J
C>
C
Reagent Gear Oils
.I
80.
7
2
SAE 90
80
'9.
80
7
3 4
Glycols
wilh waler
50 50 50
22 22 23 23 23 23
365 365 7 7 7 7
20 23 23 23 23
7 7 7 7
20· 20 95
22 22
Hydraulic Fluids
Kallreinger
365 365
20 20
22 22
Skydrol 500A
Hydraulic Oils
365 365
20 20 80 3n
: 10 10 10
Hydrogen Peroxide
3 3 3 3 3 3 3
@
'1:l
po ~
r;' (I)
~
(I)
<E' ;:l
t": 0-
.... P
....
u::
Isooctane
DIN 53 521 Fuel 1
23 23 23 23
22 22 22 22 22 22 23 23 23 23 20 23 23 23 23
Hardness Change
Resistance Note
Material Note
little resisl.. OK only under certain con.dil" resist, IHu;';no wgl.or vol. chg. lilUe resist.. OK !)nly .vnd,er.cerlain condit. • ,~,
7 7 7 7 270 365 365
Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Eiastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
resist.. IhUe/no wgl. or vol. chg. ,excellenl resistance
BASF Elaslollan C640 (TPAU) BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C640 (TPAU); annealad 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annaaled 20 hrs. @ 100C
9 9
resist. IhUe/no wgt, or vol. chg,
3
"
not resist. shOll term conlacl . damages parts .
BASF Elastollan C640 (TPAU) BASF Elaslollan C85A (TPAU) BASF Elaslollan C640 (TPAU)
~r.iains 88%olleaiSii. relains 87.5% of lear sir_
Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
resist, litlle/no wgt or vol. chg.
BASF Elaslollan C640 (TPAU) BASF Elastollan C85A (TPAU)
<0.5 <0.5
100 101.4
104.4 101.8
01 A-I
0-3 0-3 0-3 0-3
9 9 9
9
2
9 9 9 9 9
0-3 0-3
2 2
BASF Elaslollan C85A (TPAU) <0.5 <0.5
8 8 9
9 4 3 9 9
94 100
10 55
50 9.5
100 107.3
106.7 112.7
0-4 A-I
0-17 A-66
gray-purple; 'relalns 20%~ltear Sir. Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C pUrple; retains 5.7% of lear Sir. Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C reslst,lill~/no
wgl.'or.vol.
c~g.
9 9
"
o
lailed, disintegrated disintegraled felled, disintegrated
o o 6
7
9 9
<0.5 <0.5 <0.5
6
5 9
9
7
9 9. 9
7 7
9 9
7
~xcellenl resistanCe
0-3 0-3 0-3 0-3
9
9
270 365 365 7 7 7
BASF Elaslollan C85A (TPAU) BASF Elastollan C640 (TPAU) BASF Elastollan C85A (lPAU)
relains 98.7% 01 lear sir. relains 101.1% of lear sir. excellenl resistance
8 9
9 9
80.
Hydrochloric Acid
lenln'li,EIOngatiOn Strength: :;
3
95
50
Hexane Household Cleaners
I I
Weight length Volume
Hypoid SAE 80
Glycerin
Glysantin
% Rd~alned
% Change
I,
Reagent Note IConc.ITem p Time POL (%1 C'CI (days) Rating
,
75.3 74 68.9 0-3 0-3 0-3 0-3
1 0-3 0-3 2 2
114 106.7 123.6
A-3 0-4 A-3
relains 100% 01 lear str. rela1ns 65.3% of lear Sir. relains 76.1% of lear str_ axcellent resislence
resist, lil)le/no wgl.
o~
vol. cng.
excell~nJ. r~slstahce
"
BASF BASF BASF BASF
Elaslollan Elastollan Elaslollan Elaslollan
C640 C85A C640 C85A
(TPAU) (TPAU) (TPAU) (TPAU)
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg'C Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C .:' Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C . Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C , Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C BASF ElaSlolian C640 (TPAU) BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
@
%Chang~
"I:l
S" ~
Reagent'
tl
Isooctane
n'en
Reagent Note Cone. Temp. Time ('C). (days)
(%)
<1l
en
~' ;:l
t-'
...0:$:l ...
POL' W~lghl Rating .
Volume
~i
ITe;;!!:I~longallo~ I $treil~llj,'
'..
50
23
7
16-30
·.lalr reslstance
BASF Elastollan 11640 (TPEU); annealed 20 hrs, @ 100C
"
50
23,:·'"
7
16-30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
50
..23
7
16-30
"
" "
50
23
7
16-30
with toluene, DIN 53521 Fuel 2
70
23
7
7
3-15
"
70
23
7
5
16-30
70
23
7
7.,
3-15
good resistlince
70
23
7
5
16-30
.Iair. resistan~~
7
B
':>
20
isopropanol
50 50 50
, , l,,:,
7
13
23
7
7
3-15
BASF Elaslollan 11640 (TPEU); annealed 20 hIS. @ 100C
fair resislBJ'Ce
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Ela,lolian C64D (TPAU); annealed 20 hrs. @ 100C ~
;:
BASF Ela,tollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU)
':<
JP 4
BASF Elastollan C85A (TPAU)
good resIstance
BASF Elaslollan 11640 (TPEU); annealed 20 hrs, @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100C
23
7
5"
16-30
fair resislan;e
23
7
7'
3-15
good resislance
BASF Ela'lollan C64D (TPAU); annealed 20 hrs, @ 100C
23 -" -': 22.-
7
~'
16-30
'·fair resistance~'
BASF Ela,tollan C85A (TPAU); annealed 20 hrs, @ 100C
~
22 22
,
270
::4:"
4
46,8
118
A-9
365
4
2,5
72
113,3
0-14
365
"4
5
51.4
118,2
A-II
white, tan,
re\~.ins·,61%~ft~ar·s![,
Miles Texin 591AR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg·C
iefai~s 40,7%'0Itear sir.
while coaling; retains 611,3%bf tear, Miles Texin 480AR (TPAU) 3,2 mm slabs, cured 30 days @ 22 deg·C ',. sir."",,'
270
6'
2
B9,6
lOB
A-3
. while; r61alns'95.3% of tear sir.
Miles Texin 591AR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg'C
22
365
6
1.5
96
111.1
0-6
"
Miles Texin 355DR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg-C
reillins 78.7% ollear str.
of ie',;r Sl~_
22
365
6.
87,8
110,9
A-3
Jet Fuel A
23
2.9
8
2
3
111
100
A-I
100% modulus is unchange,d
JP 4
23
2,9
7
4
6
111
100
A·2
100% modulus decreases
Jet 01111
100
2,9
A-5
100% modulus decreases I%"
23
3n
2
6
8
10
122
102
"""}"iV','"
<5
<5
>90
>90
8
<5
<5
>90
>90
6
5-15
5-15
80-90
BO-90
5,
5-15
5-15
BO-90
80-90
8
<5
<5
>90
>90
6
5-15
5-15
80-90
80-90
6
5-15
5-15
80-90
80-90
4
15-30
15-30
70-80
70-80
7
.
calcium based
,22, '
, 20
....
.;-
,
Parker Han. Parker P4700A90
Dow Pellethane 2102-550 (TPAU) Dow Pellelhane 2102-65A (TPAU) Dow Pellethane 2102·80A (TPAU)
".
Dow Pellethane 2102·90A (TPAU)
Iiltle or no elfec(·. "', l
Miles Texin 480AR (TPAU) 3,2 mm slabs, cured 30 days @ 22 deg·C
70{..
,', minor 'e"e~1
.
Dow Pellethane 2103·550 (TPEU)
minor ellact
Dow Pellelhane 2103-80AE (TPEU)
moderale'elle,ct
Dow Pellelhane 2103-90AE (TPEU)
Dow Pellethane 2103·90A (TPEU)
9
2
resist., IlllleJno wgI. or vol. chg,
BASF Elastollan C640 (TPAU)
9 9 9
0-3
excellenll8$ista~c'e : ... ..
BASF Elastollan 11640 (TPEU); annealed 20 hrs, @ 100C
"
BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100C
" "
BASF Ela,tollan C640 (TPAU); annealed 20 hrs, @ 100C
,
0-3 0-3
\~\/
,i
16-30
<0,5
270
"'9
;~
BASF Elastollan C85A (TPAU); annealed 20 hrs, @ 100C BASF Ela,tollan 11640 (TPEU); annealed 20 hrs, @ 100C
I
r
16-30 1
relains 89.8%
lillie or no effect
16-30
Tide
Miles Texin 355DR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg-C
22
16-30
Lubricating Greases
BASF Ela,tollan C85A (TPAU); annealed 20 hrs. @ 100C
good resislance
"
,
0-3
Laundry Detergents
"
mo'de(ieslsl:;exiended'eiiplls/has'
.
Lactic Acid
BASF Ela,tollan C640 (TPAU); annealed 20 hrs. @ 100C
~
some effeci on weight/dim en,
,"
Jet Aircraft Oils Kerosine
Material Note
wilh toluene, DIN 53521 Fuel 3
20
Jet Aircraft Fuels
<Wi I
Resistance Note
Hardness I Change
76,6
104
A-I
"
BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100C
""
BASF Ela,tollan C64D (TPAU); annealed 20 hrs, @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs, @ 100C
ythite; retains 99,1% of t~arslr~
Miles Texin 591AR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg,C
<0,5
76
95,6
0-3
retalns.8,O% bltetr ;,r, •..•. '.
Miles Texin 355DR (TPAU) 3,2 mm slabs, cured 16 hrs, @ 93 deg·C
<0,5
78.4
109,1
A-3
........•.. r.~Jl\iOs. 84.1.'4ofi~r $1(, ......
Miles Texin 480AR (TPAU) 3,2 mm stabs, cured 30 days @ 22 deg·C
0
·····iiisfst;Ii11felriOwgCofvol,cfili.'
1 1
BASF Elastollan C640 (TPAU)
" "';.,
BASF Elastollan C85A (TPAU)
--i
"'U C
Chemical Resistance - Urethane Thermoplastic Elastomer
-.,J ......
Chemical Resistance - Urethane Thermoplastic Elastomer
--i ""U
-...J
I\:)
C
Reagent
Reagent Note Cone. Temp. Time I'C)
Ito)
Lubricating Greases
calcium based lithium based
20 20 20 20 20 20 20 23 23 23 23 23 23 23 23 23 23 23 23
" sodium based
"
" " calcium based
"
" " lithium based
"
" " sodium based
" " "
Lubricating Greases
calcium based
"
100
7
3
sodium based
100 100
9 7
2 6
100
7
100'~
8
10 4
" " " lithium based
" " "
t""'
,
p
23 23
23 ".:
;:l
0: ,
30 30
Methyl Acetate
7 7
23 23 23
7 7 7 7
23 23
7 7
9.
2
BASF BASF BASF BASF
resist.. Iillleino wgt. or vol. chg.
..
"
" " "
" BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
"
" " "
" "
" " "
!
(TPAU) (TPAU) (TPAU) (TPAU)
"
"
, •
Elastollan C85A Elastollan C640 Elastollan C85A Elastollan C640
BASF Elastollan C85A (TPAU)
excellenl resislanee
"
"
1 3 2
2
calcium based
Methane
7 7 7
5 0-3 0-3 0-3 0-3 0-3 0-3 0-3 0-3 0-3 0-3 0-3 0-3
7 5 7 8
" "
~ IJl tEo
7
Material Note
"
100 100 100 100
"
Magnesium Chloride
7 7
Resistance Note
Hardness Change
1
2 4 3 8
sodium based
n' IJl
7
I
5 1 3
9 9 9 8 5
"
po
7 7
TenSile, Elongallon Slr.e~~l~
I
80 80 80 80 100
"
~
7
9 9 9 9 9 9 9 9 9 9 9 9 ·9 9 9 9 9 9 9
Welghll Length Volume
9 9 9 8 9 8
lilhium based
"1:l
7 7
POL Rating
% Retained
80 80 80 80 80 80
" "
@
(days)
% Change
resist.. Ihlle/no wgl. or vol. chg.
BASF Elastollan C640 (TPAU)
"
" BASF Elastollan C85A (TPAU)
7
" "
2 4
"
BASF Elaslollan C640 (TPAU) BASF Elastollan C85A ITPAU)
2 3
0-3 3-15 3-15 3-15 3-15 3-15 >30 >30
"
moder. resfst.. extended expos;. has . some ellecl on weight/dimen. resist., littlelno wgt. or vol. chg.
,.
"
BASF Elastollan C640 (TPAU)
"
BASF Elastollan C85A (TPAU)
" "
"
Ilnle res lsI., OK only under certain condit.
BASF Elastollan C640 (TPAU)
.
"
"
" BASF Elastollan C85A (TPAU)
"
"
moder. resist., exlended expos_ has some effecl on weighlld,men. little resisl.. OK only under cerlain condit. resist., littlelno wgt. or vol. chg. model. resisl•• exlended expos'-has some effeci on weighlldlmen. :
BASF Elastollan C640 (TPAU)
"
BASF Elastollan C85A (TPAU)
. ,
BASF Elastollan C85A (TPAU) BASF Elastollan C640 (TPAU)
"
.• "
"
excellent resislance:"! go~ resistance .' \ , ;
" -~
:;0'
:,.,
"
I
,
" "
,
poor resistance
l
"
,
.
..
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
% Reti!rii~
@
"1:l
~
C1l
~
n' C1l tl (1)
.....
'
Reagent
-
Reagent Note Cone. Temp. Time
Methyl Acetate
;:J
23 15-30 5-15 '. 15-30
t'"
0: .... ....
,"
i
II::
15·30 15-30 15-30 15·30 15-30
~.
270 365 365 2.9 7 7 7 7
22 22 22 23 23 23 23 23
15-30 5-15 15-30 15-30 15-30 15·30 15·30 15-30
Methyl Ethyl Ketone
~.
5.5 5 6
3 2
2
6
;.
5
15 16-30 16-30 8 12
15-30 15-30 >30 15-30 15-30 >30 >30 15-30
15-30 15·30 >30 15-30 15-30 >30 >30 15·30 22
5 7
7 4
5'
20
10
70-80 80-90
·
70-80
70·80 70-80 70·80 146 57.8 149,1 102
70-80 70·80 <65 70-80 70-80 <65 <65 70-80
70-80 70-80 <70 70-80 70-80 <70 <70 70·80
Dow Pellelhane 2102-550 (TPAU) Dow Pellethane 2102,65A (TPAU) Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103·550 (TPEU) Dow Pellethane 2103-80AE (TPEU) I u Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103-90AE (TPEU) Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C white: retains 48.1" of tear S1r, lighl pink; retains 18.7% of teal str, Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C .dirty while: ratalns 48.9% 01 tear SIr. Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C 100% mod~lus decreases 38% Parker Han. Parker P4700A90 BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C 'alr reslstal)Ce u BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100C BASF Elastollan C64D (TPAU): annealed 20 hrs. @ 100C good resistance If'-8ASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C l moderate ellilcl
I
80·90 70-BO 70-80 70-80
70·BO 70-BO 70-80 70-80 70-80 70·80 40.3 30 23 66
23\
Methyl Glycol Acetate
Methylpyrrolldone
7
~~ 23
Methylene Chloride
7
23
nmelhylpyrrolidone
7
23
.2
minor effa.~1 modell1l8 ellact
·· · ·
,
A·13 0-19 A-16 A-4
::-
>30 >30 >30 >30
2
7
;/0
7 7 7
"0 0
:'"
>30 >30 16-30 >30 :':
O.
. •• ::: ~::
Dow Pellethane 2102·550 (TPAU) Dow Pellethane 2102-65A (TPAU) Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102·90A (TPAU) Dow Pellelhane 2103·550 (TPEU) Dow Pellethane 2103-80AE (TPEUj Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU) BASF Elastollan C64D (TPAU)
moderate elleci
·
severe effect. not recommended moderate effect u
.
.
;:~
$Ivere effect, not recommended
·
moderate effect lillie resist, OK only under c~rtaln. '. .condit.·· . ~ fajr resiS1ance
· -.· ··
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU): annealed 20 hrs, @ 100C BASF Elastollan C85A (TPAU): annealed 20 hrs. @ 100C
poor reslslance
>30 >30 >30 >30
II~'-
Material' Note BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
poor reslS1ance
16·30 16-30 50 50
Methyl Glycol
I
Resistance Note
>30 >30
Methyl Alcohol
P
I Chanlle
Elg~g~t10n Hardness I
Rating
23
C1l
tE'
(days)
('C)
(%)
POL
.:";
••
......... ·:u·····
_
. N••• •
·····i·::~···
BASF Elastollan 11640 (TPEU); annealed 20 hrs, @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs, @ 100C
"'-'-'-'--'-;.::'"
u
"
" ."
... _............~.;:-:
'
'':-, '" ; ::,,'-'
:.........:...... ; .. :., .•.. :.:
..:,.
. .... .. " .... ."ii'"' '":::".. "," ........... '>.: ., ••
~
BASF Elastollan 11640 (TPEU): annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
t-.
BASF Elastollan 11640 (TPEU): annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU): annealed 20 hrs. @ 100C
~"
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
I
BASF Elastollan 1185A (TPEU): annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU): annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU): annealed 20 hrs. @ 100C
u'
L J
-l
-c
c
Chemical Resistance - Urethane Thermoplastic Elastomer
-..I U>
Chemical Resistance - Urethane Thermoplastic Elastomer
-l -0 C
% RJ.~~lned
% Change
Reagent
Reagent Note
MiI·H·5606
'J
,
I
<
..
10W40
.. .. .. ..
I
>
.
.. ..
,
, 20 "
..
20 80 80 100
Nitric Acid
©
C/)
.., ..,
$:I
It::
5-15 <5 <5 <5 <5 5-15 <5 <5
5-15
<5 <5
80-90 >90 >90 >90 >90 80-90 >90 >90
80-90 >90 >90 >90 >90 80-90 >90 >90
8 8"
<5 <5 <5 <5 <5 5-15
<5 <5 <5 <5 <5 5·15 <5 <5
>90 >90 >90 >90 >90 80-90 >90 >90
>90 >90 >90 >90 >90 80-90 >90 >90
<5 <5 <5 <5 5-15
<5 <5
22
365
4
0.5
23 23 23
7 7 7 7
9 9 9 9 9 9
Perchloroethylene
paralfin oil
23
·..
" 23 " 23 23
..
7 7 7 7
20 23
mitior effect little or no elfect
, ,
7
·. ·.. ··
"
..
,
minor eUect little or no effect
,
..
,
.. .. .
,
,.
."
.~'
,
,
minor effest little or effect
no
·. ··
.~:';
'.
5
Ozone
Paraffin
Parker Han. Parker P4700A90
little resist••.OK only under certain condit.
<0.5 1.5
23,
100% modulus is unchanged
'
7 5
1 1 1 10 10
Material Note
1DOl' modulus decreas~s 1%' 100% modulus decrese; 3%
9 9 '9
270 365
···
A-I A-2 A-2
Resistance Note ,
resist.. little/no wgl. or vol. ch9: "
22 22
C/)
0-
6 8 8 8 8 6 8 8
Oleic Acid
1? ~
88 102 102
';,0 0 2 3 ·0 0 0
tEo ;:l
102 116 113
7 7 7 7 270 365 365 365 365
~
~
4 5 5
23 23 23 23 22 22 22 22 22
S" ri'
3 3 3
5
... 100 3n
~~:;;~t~Ir-~j-rgetion H~~~~;~s
7 .. 8
8 8 8 8 8 8 9,
l
j
W'819hlllenglh Volume
,8
2.9 2.9 7
70 100 100
Mineral Oils
Motor Oils
I
c~~c. T~.~r- i~~~ R~g~9
--.J
.p.
16-30 >30
5 2"
1.5 <0.5
0 22
0 15.6
,
0·3 0-3
:.;;.
0·3 0-3
9 9
0·3 0·3 0-3 0·3
6'
18
2:
>30
:.~
116 93.3
A-I 0-4
33.8
152.7
A-7
8ASF Elaslollan C85A (TPAU)
8ASF Elaslollan 1164D (TPEU); annealed 20 hrs. lJ 100C 8ASF Elastollan 1185A (TPEU); annealed 20 hrs. lJ 100C , 8ASF Elaslollan C64D (TPAU); annealed 20 hrs. lJ 100e BASF Elaslollan C85A (TPAU); annealed 20 hrs. lJ 100C Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. lJ 93 deg·C failed; retains 75.5%. of lear sir•.. relains 58.7%·of lear sl~., . Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. lJ 93 deg-C failed, dislntegraled . Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days lJ 22 deg·C disintegrated , Miles Texin 3550R (TPAU) 3.2 mm slabs, cured 16 hrs. lJ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days lJ 22 deg-C failed. dls!lltegrated
·
A-2 0-7
92.2 54
Dow Pellethane 2102-55D (TPAU) Dow Pellethane 2102·65A (TPAU) Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103·55D (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103·90AE (TPEU) BASF Elastollan C640 (TPAU) 8ASF Elastollan C85A (TPAU) 8ASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) 8ASF Elaslollan C64D (TPAU)
fair'reslSiance poor resistance dissolved
l
.
n
.
Dow Pellethane 2102-55D (TPAU) Dow Pellethane 2102-65A (TPAU) Dow Pellelhane 2102·80A (TPAU) Dow Pellethane 2102-90A (TPAU) Dow Pellethane 2103·55D (TPEU) Dow Pellethane 2103·80AE (TPEU) Dow Pellethane 2103·90A (TPEU) Dow Pellethane 2103·90AE (TPEU)
(elains 115.1%.01 tear SIr. Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. lJ 93 deg·C dark.yellow; retains 54_7% of tear ',' Miles Texln 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. lJ 93 deg-C ·str. ". yelliowed; relains 68.2% of tear·slr.
Miles Texin 480AR (TPAU) 3.2 mm slabs. cured 30 days lJ 22 deg·C
eicelJent resistance
BASF Elastollan 1164D (TPEU); annealed 20 hrs. lJ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. lJ 100C BASF ElaslolJan C64D (TPAU); annealed 20 hrs. lJ 100C 8ASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
,
..
·
'-:"'~"";" O(
.. .
~~.:: U.'.
", f.nie'·reslst•• OK only under 'certain ';. ': ' condit.' .. llOor r~~I~jl
BASF Elastoilan 1164D (TPEU); annealed 20 hrs. @ 100C 8ASF Elastollan 1185A (TPEU); annealed 20 hrs. lJ 100C BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealad 20 hrs. lJ 100C 8ASF Elastollan C64D (TPAU) BASF Elaslollan 1164D (TPEU); annealed 20 hrs. lJ 100C
@
'1:l
~ ~
o'Vl ~ tEo
>30
Vl
;J
Petroleum
t"'
0: ..,
..,
I=l
u::
Petroleum Ether
Phosphoric Acid
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
36
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
3-15
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
2 3
BASF Elaslollan C64D (TPAU)
0-3
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
BASF Elaslollan C85A (TPAU)
concenlraled
BASF Elaslollan C64D (TPAU) BASF Elaslollan C85A (TPAU) 7
3n
>30
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
23
7
>30
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
23
7
16-30
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
23
7
16-30
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
20'/
10
BASF Elaslollan C64D (TPAU)
10
BASF Elaslollan C85A (TPAU)
20 20 20 ~>~
)\
20
Plasticizers
5-15
6. 4
5-15
5-15
15-30
15-30
5-15
5-15
80-90
80-90
Dow Pellethane 2102-90A (TPAU)
5-15
5-15
80-90
80-90
Dow Pellethane 2103-55D (TPEU)
<5
<5
>90
>90
Dow Pellelhane 2103·80AE (TPEU)
<5
<5
>90
>90
Dow Pellethane 2103-90A (TPEU)
5-15
5-15
80-90
80-90
Dow Pellelhane 2103-90AE (TPEU)
,t g;
20 20
6'
';:,.-
6
20
.. Ii
20
6 .
Flexo110-10
"
~:-:
22
•
270
8' ('
5-15
40
Potassium Dichromate
('<2i:;""
40
23
40
?~)
10
;~~!;
7
", 23
7
.,:: 23;>'-'
7
10 10
Potassium Nitrate
-i -0 C
3n
7
40
10
Potassium Hydroxide
.n·~3·
;':,:
...
/;
7 7 7 7 7
.:::::::~~.;.:
80-90
Dow Pellethane 2102-55D (TPAU)
80-90
80-90
Dow Pellethane 2102·65A (TPAU)
70-80
70-80
Dow Pellethane 2102-80A (TPAU)
<0.5
93.5
100
A1
Miles Texin 591AR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg-C
<0.5
90
93.3
DO
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
104.1
110.9
A-1
Miles Texin 480AR (TPAU) 3.2 mm slabs. cured 30 days @ 22 deg-C
<0.5
Potassium Chloride
80-90
)~:;
3-15
BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C
3-15
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
.9.;0) 9
0-3
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
t
!i/
It:>" """'9'/t
0-3
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
3-15
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
0-3
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
3-15
BASF Elaslollan 1164D (TPEU); annealed 20 hrs. @ 100C
3·15
BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
3-15
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C
3-15
BASF Elaslollan C85A (TPAU); annealed 20 hrs. @ 100C
Chemical Resistance - Urethane Thermoplastic Elastomer
~
01
Chemical Resistance - Urethane Thermoplastic Elastomer
-i ""U
-...I 0>
C
% Retained
% Change Reagent
"
I I
2
>30
poor reslslanca
5 5 5
23 23 23
7 7 7
2
5 5
>30 16-30 16-30
fair resistance
Propane
23 23 23 23
7 7 7 7
7 7 7 7
3-15 3-15 3-15 3-15
Pyridine
23 23 23 23
7 7 7 7
100
2.9
0 0 0 0 9 •
0
1
106
9B
8
<5
<5
>90
>90
8. ,,6 8 8 6 8 8 8
<5 5-15 <5 <5 5-15 <5 <5 <5
<5 5-15 <5 <5 5-15 <5 <5 <5
>90 80-90 >90 >90 80-90 >90 >90 >90
>90 80-90 >90 >90 80-90 >90 >90 >90
8 '8 6 8 4 B 8 9 9 9 9 9
<5 <5 5-15 <5 15-30 <5 <5
<5 <5 5-15
>90 >90 80-90 >90 70-80 >90 >90
>90 >90 80-90 >90 70-80 >90 >90
saturated solution; CaCL2 in water
Salts
r
·
l
I
"
..
,
,i I,
" " "
.
,
\
u
..
saturated solution; NaCL in water
'
u
"
..
. u
Sea Water
,
··
'.
,
,.
Shock Absorber Fluid
.20 "20
~
Skydrol
iVI? 0: .,
.,
p
u::
500B
aircrall hydraulic lIuid
Soap
Ivory
" "
1 1 1
22 22 22
<5 15-30 <5 <5
9 8
1 0-3 0-3 0-3 0-3 1 1 1
8
2
9 8 7
1 6
9
,
,
".
20
"
cEo
t"'
7 7 7 7
, BO 20 .,
"1:l
;:l
20 " 23 23 23 23 50 50 80
:":. -="
@
ri'
BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C
7
Rando HO·32
VI
Material Note
23
~;
VI
Resistance Note
5
Potassium Permanganate
~
I
Reagent Note Cone. Temp. Time POL Weight length Volume Tensile Elongallon Hardness (%) ('CI ('tays) Rating$1r~~~t.~· Change
· · ···
"
"
7 6 7
dissolved
BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C Parker Han. Parker P4700A90
lillie or no effect
Dow Pellethane 2102·55D (TPAU)
·
minor effect lillie or no effecl
l
::.
u
,
minor eftecl lillie or no effect
··
l
,
~'.
··
,
l
l
minor effect lillie or no effect moderate effect IiIffe or no effeci
! l
-'
'.
"
..
resist.. IItlle/no wgI. or 1101. chg. excellent iesislance u
l
.r
"
"
resist., Iitlle/no wgI. or vol. chg.
"
model. resist.. extended expos. has some effect on welghtl~!mefi.'
.. "
resist., 1~IIe1no wgl_ or
·
72.7 72 81.1
104 86.7 118.2
A-I 0-4 A-2
Dow Pellethane 2102-65A (TPAU) Dow Pellelhane 2102-80A (TPAU) Dow Pellethane 2102-90A (TPAU) Dow Pellethane 2103-55D (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU) Dow Pellethane 2102-55D (TPAU) Dow Pellethane 2102-65A (TPAU) Dow Pellethane 2102·80A (TPAU) Dow Pellethane 2102-90A (TPAU) Dow Pellethane 2103-55D (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU) BASF Elastollan C64D (TPAU) BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU)
VO!. CI\9.
BASF Elaslollan C64D (TPAU) BASF Elastollan C85A (TPAU)
moder. resIst.. extended elpos. has soma ellect on weight/dimen.'·
BASF Elastollan C64D (TPAU)
not resist., ;horl term C~~.lacl. damages parts
BASF Elastollan C85A (TPAU)
whita, retains 100% 01 tear·slr. retains 74.7%' of lear str. retains 87,5% of tear SIr.
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 355DR (TPAU) 3.2 mm slabs. cured 16 hrs. @ 93 deg-C Miles Tel;n 480AR (TPAU) 3.2 mm slabs. cured 30 days @ 22 deg-C
,
<0.5 <0.5 <0.5
BASF Elastollan 1164D (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
100% modulus JIlC!eaSe, 2%
x'
3 270 365 365
good resistance
·· ·
A-l
20
,
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
,
@
'g;."
p
(;. C1>
" % C~ange Reagent '. .
% Retained
Reagent Note Conc. Temp. Ti..me P~L.. welg~t.ll;nglhl' Volume 1%1 I'CI (~aysl Rating;:' I '.
Sodium Bisulfate
Tensile IElongallon Strength
Hardness Change
Resistance tJote
Material Note
goOl! resiSlan'ce
BASF Elaslollan 11840 (TPEU); annealed 20 hrs. @ 100C
10
23
7
,',7
3·15
10
23
7
7
3-15
tEo
10
23
7
'7
3-15
..
;:l
10
2~
7
7
3-15
•
10 10
1 1
resist..l"IIe/~o wg\_ or yol. chg.
20
10
22
385
7
<0.5
78
104.4
01
retains 72.7% of teafstr.
10
22
365
7
<0.5
77
109.1
AO.
relains 88,4"1> of tear sir.
10
23
7
9
0-3
excellenl resistance
10
23
7
7
3-15
goOl! resistance.
10
22
270
6·.
<0.5
54.5
100
A-7
10
22
365
5·
<0.5
32
88.9
0-3
10
22
365
6
<0.5
39.2
101.8
A-4
>90 >90
>90
15' C1> ~
.., ..,i=l
0-
Sodium Chloride
Il::
Sodium Hydroxide
base ..
20~I
20 20
9
"8
", ..•.
8
',.
..
20
..
20
• .. .. ..
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
,.
BASF Elastollan C84D (TPAU); annealed 20 hrs. @ 100C ".
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C BASF Elastollan C84D (TPAU) BASF Elastollan C85A (TPAU)
..
;:
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs.
dark brown coaling; ret~lns' 48% of tear sir. dark brown coating, retains 89.3% 01 tearstr. lillie or no ellect
I
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C Dow Pellethane 2102-550 (TPAU) Dow Pellethane 2102-85A (TPAU)
",'
5-15
80-90
80-90
5·15
5-15
80-90
80-90
20 20
8 6
<5 5-15
<5 5-15
>90 80-90
>90 BO·90
little or no effect mlnoreftecl
Dow Pellethane 2103·550 (TPEU) Dow Pellethane 2103-80AE (TPEU)
20 20..
8 8
<5 <5
<5 <5
>90 >90
>90 >90
lillie Or no effeci ..
Dow Pellethane 2103-90A (TPEU) Dow Pellethane 2103-90AE (TPEU)
excellent resistance ..
BASF Elaslollan 11840 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
'
23 23
7 7
9 9
Illinor·ellect
23
7
9
0-3
7
9
0-3
5
22
270
6
<0.5
5
22
365
4
<0.5
5
22
365·6
<0.5
Dow Pellethane 2102-8OA (TPAU)
"_
0-3 0-3
23
Dow Pellethane 2102-90A (TPAU)
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C
I . .
41.6
..
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 18 hrs. @ 93 deg-C
100
A-5
relains 92,5% of tear str,
44
75.6
0-9
retains 80'4 o(tilar str..
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 18 hrs. @ 93 deg-C
14.9
101.8
A-9
retains 87% of tearSfr.
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
7
7
3-15
23
7
7
3-15
23
7
7
3-15
..
23
7
7
3-15
..
22 22
365 365
7 7
Stauffer Chemical
100
2.9
6
3n ..
23 23
7 7
9 9
0-3 0-3
•
23
7
9
0-3
•
23
7
9
0-3
..
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
9 9
1 1
resist., mile/no wgt. or Yo1.Ctig;: ..
8ASF Etastollan C85A (TPAU) ..
2 2
>30 >30
poor.resi$I":%~:
BASF Elastollan 11840 (TPEU); annealed 20 hrs. @ 100C BASF Elaslollan 1185A (TPEU); annealed 20 hrs. @ 100C
20 20
20 20 2~.
'23
7 7
23'
7
2
23
7
'.' 2
' 2 2' 2
i
<0.5 <0.5 7
9
gaOl! re'slstance
'.
, "
BASF Elastollan 11840 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C BASF Elastollan C64D (TPAU); anneaied 20 hrs. @ 100C BASF Elastollan C85A (TPAU); annealed 20 hrs.
@
100C
78 82.4
102.2 114.5
0·1 A-l
relains 74% oflear str. relains 88.6% of lear sIr.
119
105
A-2
100% modulusdecreases'2%
Parker Han. Parker P4700A90
excellenlr8sistance •
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100C BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 18 hrs. @ 93 deg-C Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
" B A S F Elastollan C840 (TPAU); annealed 20 hrs. @ 100C
,
•.•.
i'"
>30
..
••'
>30
" B A S F Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
>30 . >30 <; >30
>30 >30 >30
<65 <65 <65
<70severeeiiecl;ri6fieii6iiifiieiidiiif' <70 " ....;.,. <70 ......,. ; .•'; .;
--l
"'0
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
5-15
1 10
C
93 deg-C
BASF Elaslollan 11840 (TPEU); annealed 20 hrs. @ 100C ,
dark brown ~~~~~~s:r~tains 74.5%.
> 9 0 ~ "..' .
@
,. Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-C
23 .
Sodium Thiosulfate
Tetrahydrofuran
<5 <5
.."
6
Sodium Sulfite
Tetrachloroethylene
<5 <5
l.
.•.. 6 '
Sodium Hypochlorite
Stauffer 7700 Sulfuric Acid
'; ,
,
Chemical Resistance - Urethane Thermoplastic Elastomer
BASF Elastollan C640 (TPAU); annealed 20 hrs. @ 100C Dow Pellethane 2102-550 (TPAU) Dow Pellethane 2102·65A (TPAU) Dow Pellethane 2102-80A (TPAU)
..... .....
-...
Chemical Resistance - Urethane Thermoplastic Elastomer
--i ""U
OJ
C :~
% Change
Reagent
Reagent Note
I
c~~c. T~.~r· i~~~ R~g~9'
Tetrahydrofuran I
Weight Length
Material Note
<70
severe effecl, nol recommended
Dow Pellelhane 2102·90A (TPAU)
"
Dow Pellelhane 2103·550 (TPEU)
" "
Dow Pellelhane 2103·80AE (TPEU)
>30
2 2
>30
>30
<65
<70
>30
>30
<65
<70
2
>30
>30
<65
<70
2
>30
>30
<65
<70
2
>30
7
2'
>30
23
7
2
>30
23
7
2
>30
<65
•
,
:.,
poor resistance
BASF Elaslollan 11640 (TPEU); annealed 20 hrs. @ 100e
" " "
BASF Elaslollan 118SA (TPEU): annealed 20 hrs. @ 100e
,
BASF Elaslollan e64D (TPAU): annealed 20 hrs, @ 100e >
5-15
80-90
80-90
minor effect
Dow Pellelhane 2102·55D (TPAU)
5-15
5-15
80-90
80-90
"
Dow Pellethane 2102-65A (TPAU)
4
15-30
15-30
70-80
70-80
moderate elfecl
4
. 15·30
15-30
70·80
70-80
4
15-30
15·30
70-80
70-80
'4
15-30
15·30
70-80
70-80
"
Dow Pellelhane 2103-90A (TPEU)
>30
>30
<65
<70
severe effect, not recommended
Dow Pellelhane 2103-90AE (TPEU)
moder. resist., extended expose' has some effect on weighVdimen.
BASF Elastollan e64D (TPAU)
,
35
365
5
22
365
4·
23
7
2
>30
poor reslstailce
23
7
2
>30
"
A·l0
white; retains 27.4% of tear sU.
106.7
0·9
light pink; rete;ns 28% of tear sir.
101.8
A-14
releins t4.8% of lear Sir >
46.8
106
9
68
17.5
44.6
270
6
<0.5
101.3
102
AO
365
8
<0.5
90
97.8
0-1
relains 96% 01
22
365
A·2
reteins 92% of tear str:.
Trichloroethylene
~ ;:;.
,
(J)
1
110.9 80-90
<5
<5
>90
>90
8
<5
<5
>90
>90
"
B
<5
<5
>90
>90
"
Dow Pellethane 2103-55D (TPEU) Dow Pellelhane 2103-80AE (TPEU)
,,
Dow Pellethane 2102-65A (TPAU) Dow Pellelhane 21 02-90A (TPAU)
5-15
5-15
80-90
80-90
minor elfect
<5
<5
>90
>90
little or no elleci
Dow Pellethane 2103-90A (TPEU)
8
<5
<5
>90
>90
"
Dow Pellelhane 2103-90AE (TPEU)
>30
poor reslsfence
>30
"
23
7
2
>30
23
7
2
>30
" "
'"
"" .
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100e BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100e
.}
BASF Elastollan e64D (TPAU): annealed 20 hrs, @ 100e BASF Elastollan C85A (TPAU); annealed 20 hrs. 0 100e
6
5-15
5·15
80-90
80-90
minor elfect
Dow Pellethane 2102-55D (TPAU)
8
<5
<5
>90
>90
litlle or no effect
Dow Pellethane 2102-65A (TPAU)
4
15-30
15·30
70-80
70-80
8
<5
<5
>90
>90
moderate'eflecl"
,
.
Ijille or no effect . .
,
Dow Pellelhane 2102-80A (TPAU) Dow Pellethane 2102·90A (TPAU)
6,
5-15
5·15
80-90
80-90
minor ellecf'
Dow Pellethane 2103·55D (TPEU)
4
15-30
15·30
70-80
70-80
moderate ellee\;<
Dow Pellelhane 2103-80AE (TPEU)
6
5-15
5-15
80·90
80·90
minor effect.:"
6
5-15
5·15
80-90
80-90
22
270
6
2.5
90.9
104
AO
22
365
4
6
54
111.1
0-14
22
365
6
2.5
95.9
109.1
A-3
23
7
9
;:l
pine oil
~
I
6
2
I I
Dow Pellelhane 2102-55D (TPAU)
8
2'
,
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg-e ./"
liltle or no effeci
7
(J)
t"'
minor elfect
7
~ Turpentine
124.3 80-90
.~
Ii
Miles Texin 355DR (TPAU) 3,2 mm slabs, cured 16 hrs. @ 93 deg-e
5-15
"
23
'1l
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-e
te~~ sir.
23
@
P
dark red; retains 109.4% of leer str.
BASF Elastollan 1185A (TPEU); annealed 20 hrs, @ 100e
5-15
6 8
Tricresyl Phosphate
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-e . Miles Texin 480AR (TPAU) 3.2 mm slabs. cured 30 days @ 22 deg-e BASF Elastollan 11640 (TPEU): annealed 20 hrs. @ 100e
22
"
Dow Pellelhane 2103-80AE (TPEU)
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-e
.~
22
<0.5
Dow Pellethane 2103·55D (TPEU)
BASF Elastollan e85A (TPAU)
22
7
,
"
4
12.5
>
"
20
6
Dow Pellethane 2102-80A (TPAU)
.,
"
270
,
BASF Elastollan e85A (TPAU): annealed 20 hrs. @ 100e
5-15
22
, , ,
Dow Pellethane 2103·90A (TPEU) Dow Pellelhane 2103·90AE (TPEU)
" "
.. .. .. ..
Ie:
.. : ~
oil, transmission A
"
~
.•...
"
6
7
type A
.,0: .,
..
6
~.
20
Resistance Note
>30
7
20
~~r;;~t~IEIOngetlon H~~~~~~s
2
23
>
16'
Ivolume
23
Toluene
Transmission Fluids
% Retained
0·3
Dow Pellethane 2103·90A (TPEU)
"
Dow Pellelhane 2103-90AE (TPEU)
yelllowed; retains 101';9% onear sir.
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs, @ 93 deg·e
yeillowed; retains 35,3% of.tear sfr.... Miles Texin 355DR (TPAU) 3,2 mm slabs, cured 16 hrs. @ 93 deg-C yellows; retains 85;2% of le'ar excellent resistance
-,
sir,
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·e BASF Elastollan 1164D (TPEU); annealed 20 hrs. 0100C
@ ~
po
CIl ~
Reagent
n' CIl
tl
Turpentine
~
CIl
lEi' ;:l
t"'
Water
I
I
Reagent Note Cone. ITem p, I Time
0: ., Ie:
TenS1I'1 Elongation Strength
Resistance Note
IHardness I ·Change
23
7
7
3-15
" "
23
7
9
0-3
..ceUent resistance ..
23
7
7
3·15
.go~.~~~~~t~~c~··
sea
,. l
distilled
20
deionized
22
distilled
<5
>90
>90
8
<5
<5
>90
>90
8
<5
<5
>90
>90
6·'
5-15
5·15
80·90
80·90
Dow Pellethane 2102·65A (TPAU)
·
Dow Pellethane 2102·80A (TPAU)
minor effect···
Dow Pellethane 2102·90A (TPAU)
5-15
80-90
80-90
15-30
70·80
70-80
6'< 8
5-15
5-15
80-90
80-90
minor effect
Dow Pellethane 2103-90A (TPEU)
<5
<5
>90
>90
little or no effeci
Dow Pellethane 2103·90AE (TPEU)
resist., lijUe/no wgt. or vol. chg.
BASF Elastollan C64D (TPAU)
83.1
104
AO
relains 80.2% 01 lear W.
Miles Texin 591AR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg·C
23
7
9
23
7
23
7
1 <0.5
Dow Pellethane 2103·550 (TPEU)
"
Dow Pellethane 2103-80AE (TPEU)
moderale.effect
<0.5
78
97.8
0-3
relains 82.7% 01 lear sIr:
Miles Texin 355DR (TPAU) 3.2 mm slabs, cured 16 hrs. @ 93 deg-C
<0.5
79.7
118.2
A-3
relalns 87.5% 01 lear . sIr.,
Miles Texin 480AR (TPAU) 3.2 mm slabs, cured 30 days @ 22 deg·C
excellent resislance
BASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C
,
0-3
:]
0-3 0-3
·
BASF Elastolian C64D (TPAU); annealed 20 hrs. @ 100C
.
5-15
5-15
80-90
80-90
minor effect
28
8
<5
<5
>90
>90
little or no effecl
23
28
8.
<5
<5
>90
>90
23
28
6
5-15
5-15
80-90
80-90
23
28
15-30
15-30
70-80
70-80
l
moderale eUecl"
23
28
4 8'··
<5
<5
>90
>90
~
IiUle or no effecl·.
·8
23
28
23
28
4
23
28
8
<5
23
28
6
23
28
<5
<5
>90
>90
15-30
70-80
<5
>90
5-15
5-15
80-90
80·90
<5
<5
>90
>90
. 15-30
moderate 811eci . lillie or no effect r
Dow Peliethane 2103-550 (TPEU)
,
minor effect· .
"
little or no eliecl··
Dow Pellethane 2103·80AE (TPEU)
Iiitle or no'~fiect
Dow Pellethane 2103-90A (TPEU)
15-30
70-80
70·80
<5
>90
>90
23 Ai 23
28
5-15
5-15
80-90
80-90
28
6
5-15
5-15
80·90
80·90
23,
28
6
5-15
5-15
80-90
80·90
23
360
<5
<5
>90
>90
360 360
<5
<5
>90
>90
<5
<5
>90
>90
.~
360
<5
<5
>90
>90
;:
360 360
>90
>90
>90
I
<5
<5
>90
>90
\
360
<5
<5
>90
>90
1
J
"sol
".1:;11
0
0
85
93
·t
~:,~
1
........:.9/. '\
A·1
1
" Dow Pellethane 2102-550 (TPAU)
·· ·..
f
>90
" Dow Pellethane 2103-90AE (TPEU)
~:.:
little or no effec!'
.)
<5
50
·
J,
<5
/:~;:H
"
l
<5
.
minor effect...
,
<5
,~
"
moderaluri~a.
\
>8"; .... 360 .•.•• "Jr" ~,,::;;
"
~:
<5
8.',-
Dow Pellethane 2102-80A (TPAU) .. · .".'"
>90
15-30
23
~·::s
70-80
28
; :::
"
minor ellect
Dow Peliethane 2102-90A (TPAU)
28
I
Dow Pellethane 2102·65A (TPAU)
"
23
23
Dow Pellethane 2102-550 (TPAU)
,
23
23
BASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
~~~
"
6
23
Dow Pellethane 2102·550 (TPAU)
"
5-15
365
28
BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C <~"
15·30
365
23
BASF Elaslollan C64D (TPAU); annealed 20 hrs. @ 100C
4
22
~;
BASF Elaslollen 1185A (TPEU); annealed 20 hrs. @ 100C
iittleor no eiieci ,. ;:
Dow Pellethane 2102·65A (TPAU) Dow Pellethane 2102-BOA (TPAU) .": ~:
,
:~.:;:.: .• • . . . . / i!
"I ,~::-.
',.. -
'.>:::
:~.: .~::::>.::-
;;7r4:Jit sortie aff8C1 on Walght@lm8~.·:r
;~;;r;·
2
100 \
2.9
1
2
75
102
A-2
1.9.9,/
7
2
2
60
110
A·1
J
100% modulus.decreaS8$:1S·%
--l
""tJ
c
Material Note
6
22
.23 ;
"
<5
9 .' ~.
I
good resistance
8
7 7 6
270
23
Water
I
pine oil
.
.,
POL I wel!ihtllength IVOIUIM
Rating
(clays)
" "
I:l
I
I"C)
(ft)
Chemical Resistance - Urethane Thermoplastic Elastomer
Dow Pellethane 2102·90A (TPAU) Dow Pellethane 2103-550 (TPEU) Dow Pellethane 2103-80AE (TPEU) Dow Pellethane 2103-90A (TPEU) Dow Peliethane 2103·90AE (TPEU) BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) Parker Han. Parker P4700A90 BASF Elastollan C64D (TPAU) BASF Elastollan C85A (TPAU) Parker Han. Parker P4700A90
....... co
Chemical Resistance - Urethane Thermoplastic Elastomer
-i
-u
CD
a
c
% Change Reagent Water
Reagent Note Cone. Temp. Time
"1J
is" ~
;:;"
't"J Cll
'" to" ;:s
t": 0-;
i=l -;
u:
Welghl IlenQlh VolulIHl
Tensile I,JElongatlon
~l!M~I~
...
Resistance Note
Hardness
Material Note
Chang~~
('C)
50
23
.. ..
50
23
8
<5
<5
>90
>90
.
Dow Pellethane 2102·80A (TPAU)
50
23
5-15
5-15
80·90
80-90
minor ellect
Dow Pellethane 2102·90A (TPAU)
u
50
23
6 6
5-15
5·15
80-90
80-90
u
Dow Pellethane 2103·80AE (TPEU)
u
50
23
8
<5
<5
>90
>90
u
50
23
8
<5
<5
>90
>90
,
u
50
70
8
<5
<5
>90
>90
1
..
u
50
70
5-15
5-15
80-90
80-90
I
minor ellect
u
.
50
70
6 ,4
15-30
15-30
70·80
70-80
50
70
8
<5
<5
>90
>90
u
50
70
5-15
80-90
80-90
70
6 6
5-15
50
5-15
5·15
80·90
80-90
50
70
8
<5
<5
>90
>90
wi 50% ethylene glycol
u
@
I
POL Rating
(%)
. Xylene
% Retained
(cIlIys)
8
..
<5
<5
23
7
2
>30
23
7
2
>30
23
7
2
23
7
";:.
>30
.?,....
>30
~
>90
-
......•
lillie or no effect
>90
I
,
Dow Pellethane 2102·550 (TPAU)
Dow Pellethane 2103-90A (TPEU)
litlle or no effect
.
,
Dow Pellethane 2103-90AE (TPEU) Dow Pellethane 2102·550 (TPAU) Dow Pellethane 2102-80A (TPAU) Dow Pellethane 2102-90A (TPAU)
,
moderate ell,ect lillie or no effect
Dow Pellethane 2103·550 (TPEU)
II
minor elleet
Dow Pellethane 2103-80AE (TPEU)
"
lillie or no effeel
, I ,
poor rnlSlanee
,
I
.
Dow Pellethane 2103·90A (TPEU)
, .,
..
.
..
Dow Pellethane 2103-90AE (TPEU) 8ASF Elastollan 11640 (TPEU); annealed 20 hrs. @ 100C 8ASF Elastollan 1185A (TPEU); annealed 20 hrs. @ 100C
.;(~:.~,
BASF Elastollan C64D (TPAU); annealed 20 hrs. @ 100e BASF Elastollan C85A (TPAU); annealed 20 hrs. @ 100C
@
"I:l
S" ~
Reagent
Reagent ~ote
("')
n'
VI
~ VI
Conc. ITemp'l 'Time ('C)
(days)
5
to·
.2
23
;:l
t"'
..,0: f,:l ..,
'23
0.0208
23
.0.0208
2
23
0.0208 .
'5 ....,
23\ 0.0208 •••
.5
:
It:
Acetate Acetic Acid
low molecular weight
23
"(:
7 7 5
23 23 ·23 23 0.0208
23
85
0.1
,. Ans. Edm. Wet· Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
.,..
Colorite; flexible PVC tubing
POOr; pIonounced degrading effecl; a.vold use
Ans. Edm. Wet· Wear 550; clothing; PVC outer layer w/lightweight liner
Ans. Edm. Wet· Wear 700; clolhing; PVC coating w/ Nylon/Polyester lining "'C,
·····piiOiieslSiiiilce·
Colorile; flexible PVC tubing
1.8
Pioneer Pylox V·20; glove Iilm
180
Ans. Edm. Monkey Grip; lined glove film
30
Ans. Edm. Wet· Wear 550; clothing; PVC outer layer w/ligh'weightliner
4
6
Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers
.5 .. S· ;;
16
.j ~~
Ans. Edm. Wet· Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
:~'
S·
\ 0.0208
Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers
. ". ,..'
Ans. Edm. Ever·Flex; lined glove film
t
',5
0.0208
.
'fair; modera'e degrading eftecl; suheble under Ans. Edm. Wet· Wear 600; clothing; nylon netting between Iwo PVC layers . careful uSa
\ .• ,2.
'
e~edropper'~ize
.poor r~sistance
;~air; mOfler~le degc':~~'~~:CI; suit.~b~eX~der"
Ans. Edm. Ever·Flex; lined glove film
:mino! deg;;;dlng eflecl; suilallie uode;care';i'; use .
Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweightliner
·fair, moderale degrading eftecI; suitable under Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers · carelul use
~:
'. 0.0208 5 1. 8 235
Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
23 <5 >5
Acetic Anhydride Acetone
good
23
50
23
i' 0.0035
50
23
{0.0208
50
23
0.0417 ·,ll
50
?S':: 23
0.167
.
8 ',,'8 :'}:
8.""; '.'
47
Acetonitrile Acetyl Bromide Acetyl Chloride Acrylic Acid Air Alcohols Aliphatic Hydrocarbons Alum Aluminum Chloride Ammonia
0.0208
23
0.0208 0.0208
23
0.0208 .
>30
23
0.0417·
>30
0.167 ;. 0.0208
Colorite; lIexible PVC tUbing Pioneer Pylox V·20; glove film
poor resls'~ce good degra!lalion rsling" .
Colori!e; flexible PVC tubing .'.'
Pioneer Pylox V·20; glove film Ans. Edm. Ever,Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
0.0208
23
r'
poor, resistanee perm. Iale 100 leIge 10 massure,
n~1 reco'rnmended"
23
23
. .'
0-10
11-20
Pioneer Pylox V·20; glove film
excelleQ,1 deg.radation raling'
2·."
23
23
. Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining poor degradation raling
Pioneer Pylox V-20; glove film
1
not recommended
Ans. Edm. Ever-Flex; lined glove film
2
poor resl51ance
Colorite; flexible PVC tubing
1
nol recommended
Ans. Edm. Ever·Flex; lined glove film
8
good resislen~
Colorlle; flexible PVC tubing
>30
~
232 23
23
0.0208
fair Iesi51ance " '
23 23.
gas liquid
Ammonium Acetate
23
Colorile; flexible PVC tubing
, "~'."
0.36
0·10
23, 0.0035
0.02
0-'0 0-10
<1 ;13
r~slstarice
fair resistance ".
;.' a
50
Material Note
'.
nol recommende'd
1
glacial
23
<9000', pool'perljl. ra'e: 50'110·50'00' • "", drops!hr. <9000 .~
3
23
I
Re~i~tance Note
:~
"0'
tt
23
Pe{meatlon
~elght'>' . ,.." I~'STT I'LDL I'" Rale·.1 2 (min.) (ppm) (Jlglcm /mln.)
POL. Rating
~".
Acetaldehyde
% Change I
I'
23
8
23
8 ':;':,
i.~: 23
good resistance
; fair reslsta.nee
8 ... ::-.:.
~ .goOd ie5iiiiiiiii:e
':'~
-~:
:.:'.
~:
':
"0
'1J
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
CD
.-..
Chemical Resistance - Plasticized Polyvinyl Chloride
~
"'U
<Xl N
< o
% Changel Reagent
Reagent Note
i
40
23
0.0208
40
0.25
concentrated
.23. '23
concentrated
23 23 ·23 ·23
0.0208 •
9
23 23
0.0208 " 0.0208,.
9,·
23
0.0208 0.25
Ammonium Fluoride Ammonium Hydroxide
conc'ITemp'l Time I." POL ('4) I'C) (days) Rating
Ammonium Nitrate Ammonium Phosphate Ammonium Salts Ammonium Sulfate Amyl Acetate Amyl Alcohol
8 8 ..•· 8."":':'
:If
0.167
23 23
~
(;.
'"
~
'" 15' ;:s
t
., P .,
0-
II::
o >480
i
Ans. Edm. Ever-Flex; lined glove film
Ans. Edm. Wei-Wear 600; clothing; nylon nelling between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating wi Nylon/Polyester lining Colorite; lIexible PVC tubing Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers
,:;-.:.
/Ow perm. iiile; O:f12 eyediopper size
dropsilll. felr resistance minor degrading effecl; suitable undar careful .,..•..' use . .
5 >480 0.00
0
0.0035 0.0208
7
180
<9
6 6 6' 2 8 5
12 30 10
<9
"\ 6
<
0-10
<9 <9
Colorite; flexible PVC tubing Ans, Edm. Ever·Flex; lined glove film
leir resistance
Colorite; flexible PVC lubing Pioneer Pylox V-20; glove film
5{;ad;~~~~r$i~e' '; •.• .•
very goodper';:'rale; 1 10 dropslhr.
Ans. Edm. Monkey Grip; lined glove film
Ans. Edm. Wei-Wear 550; clothing; PVC outer layer w/lightweighlliner Ans. Edm. Wet-Wear 600; clolhing; nylon nelling belween Iwo PVC layers Ans. Edm. Wet-Wear 700; clolhing; PVC coaling w/ Nylon/Polyester lining poor resislance Colorite; flexible PVC lubing excellent degradalion rating Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film .lair; moderale degrading effect; suhable under . carelul U$8
," 0-10 11·20 11-20
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Monkey Grip; lined glove film
no sleady stale perm. rale detected
9
~:,.,:
.
~. P~w.;'W9n9'W.9~.~.,~,g[Mwg.!!!'9!;:i!¥~.~'H~! .. <0.9
12
~:'.
{
Colorile; flexible PVC tubing
"
5 5
0.0208
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Wet·Wear 550; clothing; PVC ouler layer w/lightweightliner Pioneer Pylox V·20; glove film
a
no perm. delected during 6 hr.leS1 no steady statt perm. rale detected excellenl degradation rallng
pOor resistance
,7,
0.167
Ans. Edm. Monkey Grip; lined glove film
good resistance
9·'
23 23
o
2
23 .,
~3,
1
0·10 0·10 0-10 0-10
2
23i 23 '; 0.0208
23 Aniline Hydrochloride Animal Oils Antimony Salts
excellent: very lillie degreding effect; very well sOited lor uso no perm. detected during a 6 ~r. test
leir resistance excellenl; very lillie degrading effect; very w~1I suited for use
8
23,0.0208 5' 23 . 0.0208 5'" 23 0.0208 5 23 0.0208 . .•.• 8· 23" 0.0417·... 6.'
'1:l
;:i
Material Note
,.
8 8 8
23
Resistance Note
6"
::;
@
/late
240 18 11
li
~: .;
23 23 23 23 23 23
LOL
Iml ?) Jp~ml !~glcm2Imln.) o
';9';
23 23
Amyl Chloride Aniline
I I
very 1i1tle degrading ellecl; suitable under .•carelul use.
23 0.0035' . 23 >'; 0.0208 23·.J 0.0417
23
Permeation
en
9
5 5
?~
I
9'
'?5
2~
29 29 29 29 29
WeIght
excellent degradation rating good degradation rating ,.
2
poor resisla.nce
8a
good resistance
.,
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wei-Wear 600; clothing; nylon netting belween two PVC layers Ans. Edm. Wei· Wear 700; clolhing; PVC coaling w/ Nylon/Polyesler lining Pioneer Pylox V-20; glove film
Colorite; flexible PVC tubing
@ "1::J
P ~ (::;. V>
~ V>
Re~gent :-}:; .,:':::.:
. Reagent ~ote
:;J'
,: :~
Aqua Regia
120
~:
<E'
Ans. Edm. Monkey Grip; lined glove film Colo rite; flexible PVC tubing
\~
'1
Ans. Edm. Ever-Flex; lined glove lilm
;:l
t""
0: .,
.,
l:l <.c:
Aromatic Hydrocarbons Arsenic Salts
Colorite; flexible PVC tubing
bis(2·~ydroxyethyl)
>4BO
<
Amine
0.0035
.B,.:
0-10
?3
0.0417
B
0-10
23
0.167
':".8.: B .•
0-10
0.020B·
Benzene Benzenesulfonic Acid Benzoic Acid Benzyl Alcohol Bleach Liquor Boric Acid Bromine Bromopropionic Acid
.. excellent
::"": ::'~F
:,~.
0.020B
Ans. Edm. Ever-Flex; lined glove film
2
1500
Pioneer Pylox V-20; glove film
5 .'1.
lair resjstance
Colorite; flexible PVC tubing
not recommended
Ans. Edm. Ever-Flex; tined glove lilm
5 B
(air re'sistance
Colorile; flexible PVC tubing
good resistance
'.5
lair resiStance
....
5 B' bromine 1
d~9r~datiQn rati~'~
Colorite; flexible PVC tubing
good resistance
8 7 B
lBO
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Ever-Flex; lined glove lilm
good; minor.degradjng effect; verY well suited . -'loruse .
Butane Butanone (2-) Butyl Acetate
Butyl Alcohol
Pioneer Pylox V-20; glove film
1·
':2.:' benzol
o
2
23 23.
1.1
0-10
0.020B
23r
Barium Salts Benzaldehyde
"··.B
fair resistance ..
";.P~i!li;l~!~Wtl~!g~
Colorite; flexible PVC tubing Pioneer Pylox V-20; glove film
to measure
.. 110i ieC:~lllllleiideif
butanol 1BO
<9
B
<90 <90 <9
" ".
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
drOpsJhr.·'·
good.perrn.
. 40
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner
:.Iali resl$taoce':" . very'good pe;nL rato: i to 5 eyedr~~per si~e .•: •
35
Ans. Edm. Ever-Flex; lined glove film
:u
.o,
-'.... :•••
rat~: 6~5()eye!lropper'siz~» •
u
'..
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner
. .<
: .dropo/l'I. ...;/
v~ri gOod perm.~.te;J
,./;A:;r
Colorite; flexible PVC tubing Ans. Edm. Monkey Grip; lined glove film
.'
.
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
loS eyedropper.sizs··' Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
dro~siIlr.
.•..;.. •.. . \ .
..••. .,.
:good;-m1nor!legrading ellect: very··wen.sulted"
.;,/': <\i };: : .' . : :.: fO~[~~~;~ ,::::>d:::/:
Ans. Edm. Ever-Flex; lined glove film
mtnot~egrading effe~t:s~itable \!Mefcerelul Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner )\:: "\::/-' :~;-·::7:/.::::.;(~:;U~.~/~~':" ;;;\~:.-:-:: t:-\\~:::.:' .good; lllinoi,d~g:ia.ding:·'-tte~!;,Y.erY well)uJted Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers ;lorus~ ..,·: :" ','/"''''''';'
. "', <\.·<.. .
e~cellenli-veiY•..I~M ~eiihldihg ettic(; very." Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining ·.··'t<'C·well suit~d:jo('u~e\:.·.})"
Butyl Cellosolve Butyric Acid Butyrolactone (y-) Calcium Salts
poor; p~ono\lllcedde9i~liillgeffect; avoid'u~e
-·:n:'~f~~~!~~:;_:{~; i i~!'~:~
Ans. Edm. Ever-Flex; lined glove film Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film Colorite; flexible PVC tubing
"0 -U
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
00 W
Chemical Resistance - Plasticized Polyvinyl Chloride
"'C "'U
00
+>-
<
()
% Change Reagent
Reagent Note
conc'ITem p., Time'l POL ('4) ('C) (days) Rating
Carbolic Acid Carbon Dioxide Carbon Disulfide
poor resistance
1
4 .2
poor reslslance
Colo rile; flexible PVC lubing
23
0.0208
5
fair; moderate degrading effact; suitable under careful use
Ans. Edm. Ever-Flex; lined glove film
23
0.0208
2
. 'poor; p'rcinouneed degrading effecl; avoid use
23
0.0208
1
Ie:
not recommanded ......•...•... +.'.
23
2
poor resistance
23 23
2 1
not recommended
23
.2
poor reslsfal@
23
0.0208.1
23
0.0208
. 0.0208
23
not
Colorile; flexible PVC tubing
Ans. Edm. Ever-Flex; lined glove film Colorite; flexible PVC tUbing
recomme~~~d
Ans. Edm. Ever-Flex; lined glove film
'ii>:"
1
lair resistance
Colo rite; flexible PVC tubing
. 0.0208
1
not recommended
Ans. Edm. Ever-Flex; lined glove lilm
50
23
0.0208
8 9 S
50
23
0.0208
~
50
23
0.0208
8
50
23
0.0208
8
50
23
0.25
8.
50 50
23 23
0.25 0.25
/.8 8 .
o
50
23
0.25
8·
o
23
>480
0.1
o
'.0.0208
good resiStance
Colorite; flexible PVC lubing
no steady stale perm. rata delected
Pioneer Pylox V-20; glove film
good; minor degrading eflect: vety wefl suited for use
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer
wi lightweight
Ans. Edm. Wet-Wear 700; clothing; PVC coating
o o
no perm. delected during a 6 hr. lest
wi Nylon/Polyester lining
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC ouler layer
wi fightweight
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyesler lining
9
o
good resistance
Colorite; flexible PVC tubing
excellenl; very nnle degrading efleel; very well suited for use
Ans. Edm. Ever-Flex; lined glove film
no perm. detecled during a 6 hr.lesl
Ans. Edm. Monkey Grip; lined glove film
8..
good resistance
Colorile; flexible PVC tubing
23
2
poo~ resl~t~nce
0.25
m-Cresol 23
0.0035
23 23
0.0208 ·0.0417 ;.
23
0.167
3-Cresol
9.
6 8 8 8 8
150
0.0035
23
0.0208
23
0.0417
23
0.167
a
8 S.'·.'-· . S·' 4
23
36
0-10
.•. Pioneer Pylox V-20; glove lilm
excellent degradation raling
0-10 0-10 0-10 150
6·
23
5
36
0-10
excellenl degradation rating
0-10 0-10 0-10 16
liner
Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers
23
23
liner
Ans. Edm. Wel·Wear 600; clolhing; nylon nelling between two PVC layers
~S
23 23
~.~
..
5
23
"c
.,0:p .,
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Monkey Grip; lined glove film
gi~i~r::~~:~::e
s-
Cyclohexane Cyclohexanone
nol recommended
5
10
Colorile; flexible PVC tubing
fair perm. rate; 5110 100 eyedropper size dropslhr.
n
@
t""
<900
wet
10
;:l
25
a
Chromium Salts Citric Acid
<E'
Pioneer Pylox V-20; glove film
2 0.0208
Material Note
78
23
50
'" ~
32
Resistance Note
n
Chloronaphthalene Chlorosulfonic Acid Chlorothene VG Chromic Acid
Cresol (m-)
Rale
dry
Chloroform
o'
LDL
good resistan~e
23
Chloroacetic Acid Chlorobenzene
.... '"
I I
•.8
23
Copper Salts Cresol Cresol (3-)
aIT
23 23
solvenl
Permeation
(mill:) (~~ml!~g/cm2/mln.1
6
Carbon Tetrachloride
Cellosolve Cellosolve Acetate Chlorine
Weight
102 poor resislance
Colorite; flexible PVC lubing
@ ~~,
"I:l
po ~
r;' Vl
f?
Reagel}t
.~•.
Rea~en:t Note.
'b:-.
Cyclohexyl Alcohol
Vl
<0.9 <9
200 15
cEo ;:l
,.~ :p~i~;\~l:~ ~ ~ ~ ~'~ ~ P ~ '.!:)f~i "'.'· · ·
Ans. Edm. Monkey Grip; lined glove film
t""'
0: ...
...p
"(~j>
It:
" 23''~;.:
..
23'
o
<0.9
Dethylamine
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers •·r}il(··notiecomll1ilnded; ~:::::::;.::::}::
Diacetone Alcohol Diamine
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers Ans. Edm. WeI-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Ever-Flex; lined glove film
>480
0.7
o
Pioneer Pylox V-20; glove film
0-10 0·10 0-10 0-10
Dibutyl Phthalate
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
"23 .23'" 23
0.0208 . 5 0.25 .i· 0.25 •• , ••.••
6·
!,.>....
9' '8
Diethanolamine
:/ 8
Diethylamine Diethylene Dioxide (1,4-) Diisobutyl Ketone Dimethyl Sulfoxide
>480 •.,
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining • Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers ,. Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
o o 1.1
o
Pioneer Pylox V-20; glove film
1500
Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film
o
Pioneer Pylox V-20; glove film
0-10 0-10 0-10 0-10 6
DIBK 60
DMSO
0.00 4
0·10 Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V-20; glove film
0-10 11-20 11-20
Dimethylacetamide
20
DMAC
0.00 5
11-20 Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V-20; glove film
-0
"'tJ
<
(")
Chemical Resistance - Plasticized Polyvinyl Chloride
(X) (J1
Chemical Resistance - Plasticized Polyvinyl Chloride
-0 ""tJ
00
0>
< ()
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Dioctyl Phthalate
DOP
,;1';~~;r\
• ;"':5';·· ~:
. :i/ x, Ans. Edm. Wei-Wear 550; clolhing; PVC outer layer w/lightweight liner ... ':\?~~::~;~:;:-: :~: : :; ".:~~~rx ~:><~i «<~:_. . /;;. '.:: ·.. vt· Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
11 25
. -.
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/ lightweight liner Edm. Wet-Wear 600; clolhing; nylon netting between two PVC layers Edm. Wet· Wear 700; clothing; PVC coating w/ Nylon/Polyesler lining 0
'\::)\\}:::
:::::::~::::~:V<~?:
~~i:~~~?
Dioxane Dioxane (1,4-) Electroless Copper
MacDermid 9048
Electroless Nickel
MacDermid J60/61
"
0.0208
<0.9
{~
~;;;;)i~~l!.;;
1500
6
i~i~~~;~:i 0~0::8~~1-i~;;~";:;:
:;;~~~~i;il;~~iriit~(~I:iwlit;'-':1Ii
;i~0~~:;It 0.0208;~;i;;~iJf; monoethanolamine
',~;!;:;[r2ijil%j;f:W?:;i~~;j;;:~;'::i!'1!:;~};
i;;~~~;~1~~~~~~iMf;iJ;ll~~~i~~:
0
Mig;}, it 0.0208 HrJbiY; 0
Epichlorohydrin Essential Oils Ethanolamine
'~j~);{~~~i~~~~~~i1~~\~~~~~;~~"~;i~(;;'Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
~j;~;\~;;)fj;i::)I~~r~tl~~;;i;i!~!1~\}J;j~
Ai1g~b3 0.0208·j3~6n
{.e~~'''i#ltv~rYJiI1)e;(je9i;liliM,~lf~t;;y~rY;&
Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V·20; glove film Ans. Edm. Ever-Flex; lined glove tilm Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Ever·Flex; lined glove film Colorite; flexible PVC tUbing Ans. Edm. Ever·Flex; lined glove film
Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet·Wear 600; clolhing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining 0
<0.9
0 0 0
~NWf~:i@:fj{:
tK~~);;
Ethers Ethyl Acetate
{;1;t3~@I;
0_0208
\iib!klK
Ethyl Alcohol
60
<9
@
."
E" ~
n
ethanol
t:l
" "
n>
CIl
to ;:l t'"
S ... p
...
It:
20 0·10 0-10 0·10
"
CIl
Ethyl Bromide Ethvl Chloride
"
30
: T'lOw f~ml:"i~(8: O'f12.~yii\l'roPp8i
site ","
Ans. Edm. Monkey Grip; lined glove film
. . .::·::::·:::::~~~:S:=i:'~::~:::~:: (k1tN;;/MWi;~9,9!}'~~'~~M~&:;N;@:.··.;}H}··'
Colorite; flexible PVC tubing
:!:::tW:f:f:~t:~ :::~~:J~i~el:t~~jr.m!n~.~~:hMiJA~:mbm
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet· Weer 550; clothing; PVC outer layer w/lightweighf liner Ans. Edm. Wet· Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
--
Ans. Edm. Monkey Grip; lined glove film Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove tilm
0·10
!@g~X(
d\t~gLMf
@kifb1;n:;kU!8!9ttf,~#~@ti!d!EU0fk;:!
Colorite; flexible PVC tubing
@
'"
po ~
Reagent :",,;
~.>.«
r;' (I)
1?
Reagent Note ]conc·ITemp·1 Time 1%)
Ethyl Ether
;:l
..,
~
lC:
I
.. , . .
POL I"X Rating -;': "
WeIght
:::>~<..
:'\M;) 1\~~liIIHQ!C~~iTIM
Resistance Note
Material Note
not recommended ......'.. . poor; ptlmounced degradiO!teff&~I;,a~~~use,.
•• 0.0208 0.0208 0.0208 .0.0208
(I)
t"'
(days) .~..
15'
0: ..,
. I'C)
pe~~eatlon
.% ~hangel
Ethyl Glycol Ether Ethylamine Ethylene Chlorohydrin Ethylene Dichloride
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner . Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Ever-Flex; lined glove film Colorite; flexible PVC tubing
! Ans. Edm. Ever-Flex; lined glove film
Ethylene Glycol
o
>480 200
Pioneer Pylox V·20; glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Colorite; flexible PVC tubing fair iesislance, '. '. . . F Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film
exce'\~;~;~;~~:ii~?~~~~ii;~~~ii:~l1
0-10
"elY Iitlle degrading e,'ecit;;Sui\!!l!!(u!!de(") Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
;f.'
"
"carelulllS!n"!i.;\h:,,i
'., exceflent; ve.ry !itne degraC\ing .•ffeCf; very.;.;", Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers '. , . wtUsulted lor USe ";,Ai/t/;\ Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining «. '. Pioneer Pylox V-20; glove film
-·:;§·iT7;: :
0·10 0-10 0-10
Fatty ACids Ferric Chloride Ferric Salts Ferric Sulfate Ferrous Chloride Ferrous Salts Ferrous Sulfate Fluoborate Salts Fluoboric Acid Fluosilicic Acid Formaldehyde
o
<0.9
Ans. Edm. Monkey Grip; lined glove film
o o
<0.9 <0.9
Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Colorite; flexible PVC tubing
80
<9
Ans. Edm. Monkey Grip; lined glove film
5 360
<9 <90
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet· Wear 600; clothing; nylon netting between two PVC layers
30
<9
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
...... "'''!" ,.."., .
~~~~~!m:i~!~
Ans. Edm. Wet· Wear 550; clothing; PVC outer layer w/lighlweight liner
. , . ,.". :. "':~:: :~.,:.:;:-
exceflJI;very IlItI;de~r;dl~~l(~er;~w';;;' Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers " w,llsu~ed ~(use{ '')$ ..,;;} ;'. "j....... Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining 37
>480 0.01
o
T">,i-,
,,,~, no sleady slate perm.'rale ~~!e~t~i'>.
'
"0 "1J
<
()
Pioneer Pylox V-20; glove tilm
ex>
Chemical Resistance - Plasticized Polyvinyl Chloride
......
co co
Chemical Resistance - Plasticized Polyvinyl Chloride
"0
"'1J
< () Permeation Re~gent
Reagent Note
Formaldehyde
Formalin
conC~ITemp'l Ti.me (%): ..... ("C)
. (~ay~}
11·20 11-20 11-20 11·20
37 23 3 7 ' i~ 37 23. 37 ,<,~'3
>480 0.01
solution
o
11-20 11-20 11-20 11·20
Resis\ance Note
Material Note
good degrad~tlon rating
Pionaar Pylox V-20; glove film
no steady. state palm,'rate datected > good degradalion rating
.,, It~
Formic Acid 90 90 90 90 90
23
90 90 90
::.,
Il:.
::<~:
>360 25
Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweight liner
75
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
Ans. Edm. Monkey Grip; lined glove film
30
".
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
e~cellent: very llltle degrading eff8C1;
Ans. Edm. Ever·Flex; lined glove film
.,6
very little degrading'ettecl; suita~le '", caretul u~e'" ':
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
0.0208
····9
excellent; very .little degrading effe.ct; yery' . Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers ..,.; well·suited for use .,. '
0.0208
6
~3
0.0208
23
0.0208
23 23
well suiled fol.llse
Freon Freon TF
very little degrading 'effect; sUitable under caretul use poor iesiSiance-
23 .
11 6
192 <900
23
6
60
<90
23
'4
15
<900
23 23 2.3",
0.0208 ' 0.0208
1
5<
Colorite; flexible PVC tubing
lair perm. ral8; 51 to 100 eyedropper size dropslhr. . . good perm. rate; 6·50 eyedropper slie;. dropslhr.
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer
wi lightweight liner
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
fair perm. rale; 5110100 eyedropper Sile';, .. Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining ...., dropslhr.' "j?'j not recommended ".•'••, Ans. Edm. Ever-Flex; lined glove film
use. .,~:
0.0208
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Pioneer Pylox V·20; glove film
':'inor degrading eflect; suitable fair; moderate
undei'~arelul. ;;,:: ~::::'~,
Ans. Edm. Wet·Waar 550; clothing; PVC outer layer w/lightweight liner
::;.:. .
degc~~ru~=~:;.'~ .• ~~~:~~"\i%;~e~.i Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers
..
.\23
Freon TMC Furfural Gasoline
Colorite; flexible PVC tubing
fair resistance
."
....:-i:\:. Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Evar-Flex; lined glove film
poor reslst.ance· .
high aromaticity
Colo rite; flexible PVC tubing
non·aromatic white
@ 'tl
po ~
;:l
to'
.,p0: .,
u::
<90
good perm. rale: 6'51) eyedropper,sl~' ' .dropslh(, i\;.
5
<900
lair perm. rate: 51 to 100 .yedroppel~il'
5
<900
Ans. Edm. Wat·Wear 550; clothing; PVC outer layer w/lightweighlliner
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers •..•. ;.;.)}:i: •. c->. Ans. Edm. Wet·Waar 700; clothing; PVC coating w/ Nylon/Polyester lining
drop~r,,;\r:;
.·.•t·;··,. ~. poor: pronounced degr~~g~l!lfecira~JI~~~;
f:J~l moderate·de.~~ru~:~:~t;:sg~~bi~i~0;
n'CIl ~ CIl tEo
6
Ans. Edm. Ever·Flex; lined glove IiIm Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
".'\':'J!~i;';;,';:~ij~~!;~;'t';~,;\ ~~:: :::: :::::::~ ~~~: ::::~:~:: ;~~nc:::~~: :;~Wy::~/~:~y:~~rl~~~:: Glucose Glycerin Hexamethyldisilazane Hexane
-goOdi.slSianfi· ;;."';'., ;"ti6.;
Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
@
'"
i:i' ~
o'til
;&~;.;:.:~::..
:~.;
~ tEo ;:l
t"'
c;: .,
65
.,I:l
".23 23 23 ""'.
>~~~.!lIent}very lillie de~radjnll
.23
65
Hydrobromic Acid Hydrochloric Acid
65
23
65 65 65 65
23
23
concentrated
23 23 23
diluted medium concentration concentrated
" >
~
10 10 10 10
.•..';
;,:exfe.!i~n;;.~ery.lilll~ de~r~din9
o
., {:
10
23'" 23
o o
Colorite; flexible PVC tubing Ans. Edm. Monkey Grip; lined glove film Colorite; lIexible PVC tubing
>300
:.~:.:.::
,...••e~~ellenJ; very litUe degrading effect; )lery .;' . >} . )IIell-sulted for use .',
0.0208 300 55
23 23 23
';~ir: moderate degtadlng effect; su~able under: Ans. Edm. Wet·Wear 600; clothing; nylon nelling between two PVC layers careful use
Hydrocyanic Acid Hydrofluoric Acid 48 48 48 48 48 48 48
23 23
:23' >480
0 0 4
M~::::-::
48 48
•
0·10 good resist,ance
23
fair resistance no steadY $late perm. rale detect-';~
110 40 75 90 5
2~
:~
i':~;;~
23
23 2.3 ,..., 23
Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight line, Pioneer Pylox V·20; glove film
. nll ~teadY stale pilrm, 'rate detecied' excellenl degradation raUng
o
0-10
o
~:.
23 23
0-10
Colo rite; ttexible PVC tubing
~r"
; <;'eXgelleni d~gradation(~lingw. .~ulotd8grlKUng effect; suitebie under~ai.~I~1
.:';?-::
48 48
\ :':
no ·pel.m. detected during.a. 6 hr.' test
0-10 0·10 0-10
23 23 \'
Ans. Edm. Ever-Flex; lined glove film
.;' Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers • Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining 'e~cell"'t; very Uttle degracfing eflect:' verY:}: Ans. Edm. Ever·Flex; lined glove film ,H" well suited for u s e . " " 9~Od; minor degrading ellect; very w~tl suited"j Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner ../ for use '.
23
23 23 23 23
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers ,: Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
no perm. detected during a 6 Ill. test
23
10 10 10 37.5 37.5 37.5 37.5 , 37.5
Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
"well $u,ted or U$8 .'0.""
."'ii',. I>;,
?3 23 23
hydrobromic acid 1
Ans. Edm. Ever-Flex; lined glove film
;~:~~·'{~u(.4~:~:it;1~I;;f:jtabii··~nd!t:
i~'
u::
Pioneer Pylox V-20; glove film
~~~j
0-10 0-10 0-10 0-10
23 23
til
~~: . \}:;:~:
usa
~--'
'..
Pioneer Pylox V-20; glove fitm Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clolhing; PVC outer layer w/lightweight liner , Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove Ii1m
'\~~f:::::~i:::
." Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner "'fai,; moderate d~grading etiect: svftable u,nder: Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers careful U$8 -, . .,,,' Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining " ."ii' Pioneer Pylox V·20; glove film
"0
-0
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
00 <0
co
Chemical Resistance - Plasticized Polyvinyl Chloride
"0 "1J
o
<
()
Reagent> ',-
.
Hydrofluoric Acid Hydrogen Peroxide
4B 4B
Pioneer Pylox V-20; glove film
23
23 ,
concentrated diluted
Colorite; flexible PVC tubing
23 .23 23.
30
Ans. Edm. Ever-Flex; lined glove film
. 0.020B .
o
30
Hydrogen Sulfide Hydroiodic Acid Hydroquinone
Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
saturated 0
Hypochlorous Acid Iodine Isoamyl Acetate Isobutyl Alcohol
Ans. Edm. Monkey Grip; lined glove film
Ans. Edm. Monkey Grip; lined glove film
<0.9
Colorite; flexible PVC tubing and solutions
7 7 6
23 23.,
"'23 ., :23
0.020B
5
1602
Pioneer Pylox V-20; glove film
10
<9
Ans. Edm. Monkey Grip; lined glove film
200 120 7
<9 <9 <9
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
5·····
',.
.... .. ..' 'j'"
. ....•
."'('..
'fair; moderaie degni.ding efleoi;:~~~abl~ . .• careful use '...
~i1.der
mino;degradi~gelfeCI;$uitablk~;;ded:areful" use ;-'. ~:":"
",
,',',:.
• Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
~:
'k'":
;,
;~;})..~-
.
"'.'
,
good; minor d.eg/ading.elfect; very'weU suited Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers for uS'e'(;";: ."\. .very' little degrBlling .elfect; suitable under.·. Ans. Edm. Wet-Wear 700; clothing; PVC coating wi Nylon/Polyester lining c
·.<;i/o;:.
.>.J':' ,;.
Isooctane Isopropyl Alcohol
isopropanol; IPA
:2~:,.
isopropanol; IPA
.
isopropanol; IPA
Kerosine
S'
~ ;:;.
I
o <0.9
0·10 0-10
0.0035
~3 ::' 0.0417.. B: ;.23.:} 0.167'" B:, . ·23.· ..·· ;;.<::...;.: '\i. '~"
"tJ
20B 150
no s~ady;stalEipeimaal,(d8iected"
; .c . ,
,:;~;~~;i;~~;;:~;1-!:1~?](:;'i
"
0·10 0-10
';.',.;..':;,:';.:,
lVlf~:rS:: /~; ~~:.t
>360
<0.9
~:Jj\
10
<9
lBO
<90
75
<90
6I'
Pioneer Pylox V·20; glove film
goOd: mlnOfdeQradlngeflecl;'vel1¥iell suited ·<\::?4tP~·f~r.\l~e exi:e.lle.nl degnldati.Qn rating.:.·"
.:• ;."j:;:j :,&/.,
Pioneer Pylox V-20; glove film Ans. Edm. Monkey Grip; lined glove film
ki~ p~iale;' 0·112 eyedrQPper siZe
...'
::';·:~3:"'·'
@
'. B .'
~~
': ':.
.
..;>:.·S~~~i&i;jls~1~~~r~~~r~~jJG!~~
, ," ve,Ygood peim;iet~; (1o,5eVed'i.9Pper size
,~~~ ~j,~.ii~~;!~~:,t~;:~~~~i;iie'
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer wi lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Colorite; flexible PVC tubing Ans. Edm. Ever·Flex; lined glove film
V>
tJ
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
tEo
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
;:l
t"-
..,o: ..,
Pioneer Pylox V·20; glove film
gk,::.·' .
C1l V>
I:l Il:
Ans. Edm. Ever-Flex; lined glove film
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nyion/Polyester lining
IKetones
:pi:}::
Colo rite; flexible PVC tubing
@
'il
S" ~
;~
Reageni~
ri'
tl
Cll
tEo
Lacquer Thinners Lactic Acid
lacquer solvents
Colo rite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
;:l
.., ~ ..,
o
85
t
<0.9
Ans. Edm. Monkey Grip; lined glove film
0-
Lauric Acid
with ethylene oxide
\t::
Lead Salts Linseed Oil Magannese Salts Magnesium Chloride Maleic Acid
15
36 36
Ans. Edm. Ever·Flex; lined glove film Colorite; flexible PVC tUbing
magnesium chloride salts saturated
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner .
.:..,q",
Y'
_.
.
.
nO p~rm. d;teciliil dUil~g all ~i.te~··
o
'. "-. . ,<--,.,.,\ ~~"'\ .".,.......,:':'...
o o o
, Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Malic Acid Mercury Salts Methyl Acetate Methyl Alcohol
,:
Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wei-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
Colorite; flexible PVC tubing Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm, Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining methanol 23 23
. 23 :':"2'3'
3 45
<90
5
<90
30
<90 <9
200
18
Pioneer Pylox V-20; glove film Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
23
0.0208
Ans. Edm. Ever-Flex; lined glove film
23
0.0208
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
, Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Methyl Cellosolve Methyl Ethyl Ketone
Ans. Edm. Ever-Flex; lined glove film MEK
Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film Shore A68 Shore A78 Shore A87 Shore A93
Methyl Glycol Ether Methyl Iodide
Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film
-c
""tl
<
(")
Chemical Resistance - Plasticized Polyvinyl Chloride
co -'-
<0 I\:>
Chemical Resistance - Plasticized Polyvinyl Chloride
-0
-u
<
o
'~:'
Re.!!~n~" Methyl Isobutyl Ketone
"%'Change Reagent Note Iconc'ITemP. ('10) MIBK
Methyl Methacrylate
Methyl t-Butyl Ether Methyl-2-Pyrrolidone (N-) Methylamine
MTBE NMP
Permeation Material Note
Resistance Note
Weight
('C) 23 23 23 23
0.0208 '( 0.020B (.
23 23 23 23
0.0208 0.0208
23 23
0.0208 ;
Ans. Edm. Ever·Flex; lined glove lilm Ans. Edm. Wet·Wear 550; clothing; PVC ouler layer w/lightweight liner . Ans. Edm. Wet·Wear 600; clothing; nylon ne1ling between two PVC layers ''- Ans. Edm. Wet· Wear 700; clothing; PVC coaling w/ Nylon/Polyesler lining
not recommended
0.0208 0.0208
".~:
0.0208,. ". 0.0208 ::
Ans. Edm. Ever·Flex; lined glove Iilm Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet·Wear 600; clothing; nylon ne1ling between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coating wi Nylon/Polyester lining
.
;:':~
Ans. Edm. Ever·Flex; lined glove film
0.0208 \;
23 .23 23 . "23
135
<9
5
<0.9
60
<9
30
<90
~e;y'goOdpe;m,rale;1io~eyedroppe7size .:. t. dropslln, . . , .
Io'w per";~'r~le; 0:112 evedropper size .
••.. d!opslht.
';.
Ans. Edm. MonkeyGrip; lined glove film Ans. Edm. Wei· Wear 550; clothing; PVC outer layer w/lightweight liner
very good perm,. rate;" 10 5,eye~roppli;.siz8· . Ans. Edm. Wet·Wear 600; clothing; nylon ne1ling between two PVC layers " d r o p " " ' . ... good per~·. rat~;·1l:50 eyedropper size'~ ,., Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining dropsfhr. ,. ....
23 .
exceUenl; very liltle-degrading elrecl;·very'· .. " wei) suiled lor use ",:
23
very liltle degrading efle~l; suilable und.er ' Ans. Edm. Wet· Wear 550; clothing; PVC outer layer w/lighlweight liner cil/elut use· ,"ceUenl; very little degrading ellec1; very Ans. Edm. Wet·Wear 600; clothing; nylon ne1ling between two PVC layers well suited tor use Ans. Edm. Wet·Wear 700; clothing; PVC coating wi Nylon/Polyester lining .,.. , .•.. " ....'
23
Methylene Bromide Methylene Chloride
nOlrecommended
Ans. Edm. Ever·Flex; lined glove film
Ans. Edm. Ever·Flex; lined glove film Ans. Edm. Wet· Wear 550; clothing; PVC outer layer w/lightweight liner ., Ans. Edm. Wet·Wear 600; clothing; nylon ne1ling between two PVC layers Ans. Edm. Wet· Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Methylphenol (3-)
m·melhylphenol
150
5
36
150
5
36
Pioneer Pylox V·20; glove liIm
0-10 0·10 0-10 0-10
Methylphenol (m-)
3·methylphenol 0·10 0-10 0-10 0-10
@
Mineral Oils Mineral Spirits
Colorile; flexible PVC tubing
<9
150
Rule 66
~
pC/) .....
n-
C/)
tl
Ans. Edm. Ever·Flex; lined glove film
Morpholine Motor Oils
<1l
C/)
to;:l t"'
0: .,
.,I=l
ll::
Ans. Edm, Monkey Grip; lined glove film
-8.22 ·4.68 -1.93 -1.1
Muriatic Acid
Shore Shore Shore Shore
>480 >300 0-10
4
o
A68 A78 A87 A93
Pioneer Pylox V-20; glove liIm Ans. Edm. Monkey Grip; lined glove film Pioneer Pylox V·20; glove liIm
@
pitlneatl9n'
'"cl
s-~ o'Ctl
Reagent
Reagent Note
conc'l Temp" Time C%)
Muriatic Acid
?? Ctl ;:l
., .,>:l
CT
(days)
23
,0.0208
.23 .23 23
tEo
t
C'C)
Naphtha
VM&P
0.0208 0.0417' 0.167
23
I(p~#}I!~~~m2/mln.) tt!I.T1Rate
:: 9
~ 8 8.
0·10 0-10 0-10
6
6
"~
<9
6 200
<9 <90
9
<90
~
0.0208
VM&P
.,Resistance Note
Material Note :.;:::.
excellent; very Iit!l~ deQrading elleet; very, well sUlled for use
Ans. Edm. Ever-Flex; lined glove film
ex.cellent /legra,datlon rating
Pioneer Pylox V-20; glove film i,.:".
120
,7
23 23 .
Ie:
BTl (min.)
"vei'('goodpiiiiii:' ial.;·fio~eyediopper' s'z,"'· dropslhr• " good perm. rate; p-50 eyedropper size " dropslhr_
fair resistance fair; moderate degrading eliecI: su~able under:careful use
5
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Colorite; lIexible PVC tUbing Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweightliner Ans. Edm. Wet-Wear 600; clothing; nylon nelting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
Natural Gas Nickel Salts Nitric Acid
Colorite; lIexible PVC tubing concentrated diluted medium concentration red fuming 10 10
w/ 40% sulfuric acid
Nitric Acid
Ans. Edm. Ever-Flex; lined glove film Edm. Wet·Wear 600; clothing; nylon nelting between two PVC layers Ans. Edm. Ever·Flex; lined glove film
285
10
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
10 10 10 10 10 15 50 50 50 50 50
Ans. Edm. Wet·Wear 600; clolhing; nylon nelting between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining Colorite; lIexible PVC tubing Pionaer Pylox V·20; glove film
70 70 70 70 70
0 0 0 114
0.08
0
0-10 0-10 0·10 0-10 345 45 160 6
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC ouler layer w/lighfweightliner Ans. Edm. Wet-Wear 600; clothing; nylon nelting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining lla;r; moderate degiadinlle"eci;·su~a~IG,'!"ib.r': Ans. Edm. Ever·Flex; lined glove film .... .. -'.'~.'. .... - " --_. _. USA ":-<: . <::<:::' .>: ~~: f<: ::::{:::::::
70 70 70
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. WeI-Wear 600; clothing; nylon nelting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
Nitrobenzene Nitrogen Oxide Nltromethane
Colorile; lIexible PVC tubing Ans. Edm. Ever-Flex; lined glove film Colorile; lIexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
95.5
-c
-c
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
<0
C..:l
Chemical Resistance - Plasticized Polyvinyl Chloride
"0 "U
<0
~
< (") Rl!~gent
~~~,"lNol.j~~
Nitropropane
'Time
Resistance Note'
.~ (day~!'
95.5
;,-::,::,,;:{".,
23
<5
good perm, rete; 6-~0 eyedropper.siz.e
<90
95.5
23
95.5
2~
not iilcomrrien~ed .: .
;":-:'
,
95.5
suit~~';;~~$
23
23
animal mineral
. lair; moderate degrading ellect; .. caIef~!.~~~,,".«
8,,' .
;
23
9-
23
8 7
23
"
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
23
Nitrous Acid Octyl Alcohol
23
.0.0206
23
0.0206
23.
0.0206
2;3
0.0206
23
0.25
A>.; . .
. gOOiiiesisiance
Colorite; flexible PVC tubing
"%lOwpe'iiii:rate;o:l/2 eYedropper s1Le: drop$lhr_ . •.••'
<0.9
45
<0.9
Ans. Edm. Wet-Wear 550; ciothing; PVC outer layer w/lightweight liner
9
<0.9
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
5
Ans. Edm. Monkey Grip; lined glove film
,lair; moderate degrading effect; su~able unde' ..' cerelul use' ., .':.
o
low perm. rete;
<0.9
0:112 eyedropp~iske"':
dropsJhr_'
Colorite; flexible PVC tubing
poor resistance
23
fair resistance
23
90
<9 ;.very.gOOd
2 5
0.0206
23
per::~~~::~;:Y,:~i06Pil(Si¥~~
Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film
excellent; vary IlI1le degradlng.e.neil; very welt suited lor u~e .:.;. •• ••
Ans. Edm. Ever·Flex; lined glove film
goOiiieslstaiiCe .
saturated
good res.~lence
75
saturated
Colorite; flexible PVC tubing
no perm, detected d~ring a~ ~Lt~si':"
---0
gas
~..
Colorite; flexible PVC tubing
·t
Ans. Edm. Monkey Grip; lined glove Iilm
Pentachlorophenol '~;:
';d
Pentane
.'
."
4.' .'
23
@
""~
i:i
;;
fair; moderate
5· '';
4
.::
9
102
4
<90
11
<90
deg(adln~ effect; ,ui1abI8~n~&~: clllehl use;.
.
i.i';; •
.'.
not recollll1!en~~d
;·\:;r
}alr; mO
~
•'poor:
te:
;,.""
«carelul U $ 8 '
./
·....·••,.i)'
,;pooi'issiSiaiice,i/
60
o
,~
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
}:;
e~ceileAt;"e1Y,lit1ledBgAldlll9\ff~il~;~;;i
60
Pioneer Pylox V-20; glove film Ans. Edm. Wei-Wear 550; clothing; PVC outer layer w/lightweight liner
Pronci~n~ed degr8din~ ~ii~cl!8~~~~i.;: Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
:'(aii:'mOderal&~egrading effe~E);I1~a~t,~·i0.>~,li
Perchlorlc Acid
Ans. Edm. Ever-Flex; lined glove film
,,'.;,;'li.i;';i~; Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
A:',"dnC
n'
<E'
Ans. Edm. Monkey Grip; lined glove film
.••.: ....;:.
good perm. rate; 6;50.eyedropper size dropslhr
Ans. Edm. Ever·Flex; lined glove film
})(.
focuse
low perm. rete; O·1/~ eyedropper size···· dropslhr_," . ",. •.•.•..•
<0.9
Ans. Edm. Monkey Grip; lined glove film
)
>good; minor degrading'effecl; very well suitell·; 160 23 -; 0.0206.·
Ans. Edm. Monkey Grip; lined glove film
fair; moderate degrading ellect; suijable und;? '; / ...•.....•\ n , ;.E\If~fut use
Oxalic Acid
..,~
Ans. Edm. Ever-Flex; tined glove film
; good; minor de~rading ellect; vi'iyweU sUil'~ Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner for use,'[':'" :.. ••••.. :.;'\ very I~lIe degreding effect; sui\llble UMe( . Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers . """ ';". . carelul U.$8.;···· excellent: very ~1I!e degreding' ejlect;·very. :.; Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining well suited fOf U$e >' .,:..... <•• ;•••..
23
..,c:
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyesler lining
23
vegetable
;:s t"'
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
>300
23
Oleic Acid
Oxygen Palmitic ·Acid
Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
'~iOp'sIl1f.'/
95.5
Oils
Material Note
'-'-f;~
.'w~ SUII~ lor ~t'~n;!tjJ;i: -/'0 perm. ~etected dUlin~·~.jl.j1(, t~.~.M$·
Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Monkey Grip; ~ned glove Iilm
@
'~"
S' ."""".
0'
., ;\1~lt~;~91;!)~~ i~~:c .m~·~~",I~~te
Cone, .1. 1%)
C/)
tl
Perchloroethylene
<90
Cll C/)
5
cQ'
<900
r<~\e.:·6,50 eyadr
md perm.
.'.
.';
;.;',<%o~slllI.,,,::
dr~psl,h(:i/''''';';;
'.' " .
nofi.~omiM~ded
•lair, mod~tatedegIadinNeflect;
.,0: .,~
Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lighlweight liner
/.
!: fair perm:ra!e;.$.1)(lllo ey'edrOjlp~r site)? Ans. Edm. Wei-Wear 700; clolhing; PVC coaling w/ Nylon/Polyesler lining
;:l
t'"'
,X,}""
f
~<
'$:§iU~,fU U$:~
..
\k{%
···N.V~'
~lIilabla.unde!, ':::".: ;,,:':~:' :
..'
Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wei-Wear 550; clolhing; PVC ouler layer w/lighlweighlliner
: poor.: pfOllouncad d~r~dil)g elle~l: a~o!d usei Ans. Edm. Wei-Wear 600; clolhing; nylon natting between Iwo PVC layers
\Isir: 'm~alate \fB9rading,affec(;
tl:
~;'
Phenol
saluraled 23
:::-:;;{: ,"," caretuJ:vs'8.?'
32
78
75
<9
very good " ,
23
35
<9
23
90
<9
23
50
<9
23
suits~I~'lmd~';i '::. :-~:.:t:i~:@
,,"".....,
.
p~rm. rs\~: 1 I~ 5·eYB~roppe.r~ji~< dropslh.r.
'
23 23
,lair; mOdarste.degfadin.g effecl; suitable ; ' : " care/ul.use,,··
23
<,
,
u .. '.'
,.)i Ans. Edm. Wei-Wear 700; clothing; PVC coaling w/ Nylon/Polyesler lining
:.•...•, ....•.
·
23
!fair; moderata degr~ding eflect; suitable undet Ans. Edm. Wei'Wear 600; clothing; nylon nelling belween IWO PVC layers
23 23
'.. carelul use
23
0.25
23
0.25
o o o o
":~:
85
23
0-10
85
23
0-10
85
23
0-10
.
23
0-10
>480
0.04
no perm. detected during a 6 hr. test'·
o
0.0208 '/'9
0-10
50 50 50
0.4
o
...
~ood.r.a.s~an~a .
Colorile; flexible PVC lubing Ans. Edm. Monkey Grip; lined glove film
excellent; very little dagfading aflect; very weH suited tor use
Ans. Edm. Ever·Flex; lined glove film
good. (~~~!~~ca ..
Colorile; flexible PVC lubing
~::,~~;~~~ ,. ?
0-10
50
0-10
Pioneer Pylox V-20; glove film Ans. Edm. Ever·Flex; lined glove film Ans. Edm. Wel·Wear 550; clolhing; PVC oUler layer w/lighlweight liner Ans. Edm. Wei-Wear 600; clolhing; nylon nelling between two PVC layers
:.:.:;
50 50
Pioneer Pylox V-20; glove film
very good parm, fata; I to 5 .yedropper $ize dropsllir.
23 >480
Ans. Edm. Wei· Wear 600; clolhing; nylon nelling belween IWO PVC layers
., ,::.:. .( Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining
excallent degrildalilin ralln9
'-
<9
",
no St,adystata;,rm: rala dJte,cteJJ;~\
:...,:;
;
50
Ans. Edm. Wel·Wear 550; clolhing; PVC oUler layer w/lighlweight liner '~
'..
~1
40
23
Ans. Edm. Monkey Grip; lined glove film
.;;::"
23
23
"
Ans. Edm. Wei· Wear 550; clothing; PVC outer layer w/lighlweighlliner
Ans. Edm. Wet·Wear 700; clolhing; PVC coaling w/ Nylon/Polyester lining
0.0208",':) 5 0.25 8" 0.25 ·8
85
50
Colorite; flexible PVC lubing Ans. Edm. Ever·Flex; lined glove film
23
•
KOH
,
,goOd: mlnordagradlng effect: verywa1l1uila4. .' .• At· · for use
23
Plating Solutions Potassium Hydroxide
Ans. Edm. Wet·Wear 550; clolhing; PVC oUler layer w/lightweighlliner Ans. Edm. Wei-Wear 600; clolhing; nylon netting between two PVC layers
········'gD~ie$i$ianc.· .....,,":" ".
saturaled; wilh elhylene oxide
Colorile; flexible PVC tubing Ans. Edm. Ever·Flex; lined glove film
,
"..
ortho
85
Ans. Edm. Wei-Wear 550; clolhing; PVC oUler layer w/lighlweight liner Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Poiyesler lining
,.' ,.,' la.irresi$lan<:e ; good: rnil.or dagr8ping ellect; veryweU:suited.: · lor use . '.
concenlraled
Pioneer Pylox V·20; glove Ii1m Ans. Edm. Monkey Grip; lined glove film
., Ans. Edm. Wei· Wear 600; clothing; nylon netting belween Iwo PVC layers
23
Phthalic Acid Picric Acid
,
·,,'d
<"
~'
Phosphoric Acid
,,..,
Ans. Edm. Wet·Wear 700; clothing; PVC coaling w/ Nylon/Polyesler lining
Ans. Edm. Wei-Wear 700; clolhing; PVC coating w/ Nylon/Polyesler lining
exc~f18nt,degrad~lion rallng •
u
Pioneer Pylox V·20; glove film ~<~:_::~
"'C "'U
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
01
Chemical Resistance - Plasticized Polyvinyl Chloride
"0 ""U
<0 0'>
< o
v.-'-~
Reagent
IPotassium Hydroxide Potassium Iodide Potassium Salts Propyl Acetate Propyl Alcohol
Reagent Note KOH
COhctlTemp'l Titne
. (~)k
('C)
(days)
50 50 50 50 50
23 ; 23 23 23 23
0.167 0.25 0.25 0.25 0.25
potassium iodide 1
23 23 23
hydraulic lIuid solution concentrated diluted medium concentration
"tl
S' NAOH
0' C/>
~ C/>
NeOH
to ;:l ~
0' ""1
>l ""1
(C
8 9 9 9 9
0-10
.' 0.0208
NaOH
10 10 10 10 50 50 50
en
(min.)
I
IlOl JPRT) !lIg/cm /mln.)
90
0.0208
9
23 23 23
0.0208 ,0.0208 0.25
9 9 9
o
23 23
0.25 0.25 0.0208
9 9
o o
0.0208
23 23 23 23
0.0035 . 0.0208 . 0.0417 0.167
23 23
.0.0208
0.0208
2 1 6 8 8 8 8 7 5
9
7
9
7
'9
7
42
0.0035 0.0208
50
23 T.0.0208
50 50 50
23 . 0.0208 23 : 0.0208 23 ;" . 0.0208
0.02
9
:}
Colorite; flexible PVC tubing
not recommended
Ans. Edm. Ever-Flex; lined glove film
Iisr)'gOOdperiii::rale;lto 5 eyedropper size dropsillr. fair; moderate degrad!ng·ef1ecl;·suitable,·under ca'r~l~1 use ....
Ans. Edm. Monkey Grip; lined glove film
excellenl; liery littl\i'degradiiig.ffe~t; very well suiled for use
Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweightliner
low perm. rate; 0·1/2 eyedropper size dropslhr. no perm. detected during a 6 hI. te51
Ans. Edm. Wet· Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet·Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
not recommended
Ans. Edm. Ever·Flex; lined glove film
perm. rate 100 targe to measure poor resistance
Pioneer Pylox V-20; glove film Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove film Pioneer Pylox V-20; glove film
excellent degradation rating
150 ::lair;:modelatedeg;adingeffec1f'suhellle:under: t cereful«M, good resistance not recommended ,gOod,r~~i~t~pc!
.'
-0.28 ·0.18 -0.13 -0.11
.~~:'
.
/ >480 0.04
0-10
o
.no steady slate perm. rate detected
goodt~:;::;;~:;I~)r;r}I~::"~~~~:~~;~\~:
•••••
":'" excellepl; very little.degradinll ,effect, very { . '.,. ". wefl suited lor use :.,:. '"
0-10
Ans. Edm. Ever-Flex; lined glove film
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Wet·Wear 550; clothing; PVC outer layer w/lightweightliner
60
0-10 0-10 0-10 0-10
8 '1 8 8 8 8'
7
Pioneer Pylox V·20; glove film Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweightliner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers :. Ans. Edm. Wet· Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
notrecommep~ed.
"9
23
<0.9
o
" 0.0208
23,
le'
<9
23
23
Material Note
exceUenl degradation rating no petm:detected during a 6 hr. l~st
1
5
23 23
Resistance Note
good resistance
. 0.0208:
23 23 23 23 23 23 23 23 23 23
Rate 2
o o o o
7
solvent
@
~
Welghl
23
23
Silicon Etch Silver Nitrate Skydrol Soaps Sodium Hydroxide
p,DL Rating
Permeation
8 8
--
Propylene Oxide Pyridine Rubber Solvent Rule 66
I
23
Propylene Glycol
% Change
excellent deg'lldalion rating
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Ever·Flex; lined glove film Colorite; flexible PVC tubing Ans, Edm. Ever·Flex; lined glove film Colo rite; flexible PVC tubing
Shore A6B Shore A7B Shore AB7 Shore A93 Pioneer Pylox V-20; glove film Ans. Edm. Ever-Flex; lined glove film Ans, Edm, Wet-Wear 550; clothing; PVC outer leyer wI lightweight liner
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers , Ans. Edm, Wet-Wear 700; clothing; PVC coeting w/ Nylon/Polyester lining .' Pioneer Pylox V·20; glove 111m
@
Permeation
~
~
.....
R~agent··
'"t l
Sodium Hydroxide
n''"
Reagent
N0t~,I~f~c'l T~.~r-I ~i:~
NaOH
C1>
cEo '" ;:s t""'
..,0: ..,
i=l te:
aesls.t,ance Note 0-10 0-10
50 50 50 50 50 50
Material Note
excellenl degradation ,!!lIng no peem. ~'.l~~ :<". d',tecled :}' ,;-', duling'a.6 . c · · .. :,.,.., .•..•..
o o
Ans. Edm. Monkey Grip; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
::::
o o
Sodium Hypochlorite Stearic Acid Stoddard Solvent
Pioneer Pylox V-20; glove 111m
.;;
Colorite; lIexible PVC tubing
360
Ans. Edm. Monkey Grip; lined glove film
<0.9
Ans. Edm. Ever-Flex; lined glove film
Styrene Sulfur Chloride Sulfur Dioxide Sulfur Trioxide Sulfuric Acid
Colorite; lIexible PVC tubing
concentrated diluted medium concentration 10 10 10 10
w/ 15% nitric acid ballery acid
Sulfuric Acid
~ 0.0208!
10 10 40 47
23 23 23 23
47 50 50 50 50 50 95
·23,
95 95 95 95
23 23 23 23
95 95 95 95 95 95 95
Sulfurous Acid
6
0.0208 ·0.0208
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner . Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
60 140 120
,)
9
excellent; very little degrading effect; very well suited fonise
Ans. Edm. Wet·Wear 600; clothing; nylon nelling between two PVC layers . Ans. Edm. Wet-Wear 700; clothing; PVC coaling w/ Nylon/Polyester lining Colo rile; lIexible PVC tubing fair resistance. good; minor degrading effeci: very well sui~ed , Ans. Edm. Ever-Flex; lined glove film , for use (
9 9 .:·:i
/ 0.0208 0.25
0 >480 0.04 0-10 0-10 0-10 0-10
no perm..datec,led during a 6 hr. test
0
n9 steady state pel!".~t~ detecl~d .: .'. . ,,' axcellenl degradatIOn i~~!ngi;j
,
" :( :
Ans. Edm. Monkey Grip; lined giove film
220
;
5 60 37
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining minor degrading effect; suitable under caialul. Ans. Edm. Ever-Flex; lined glove film use; PVC not r,comOlf~~~ot ~2S94 O( f~ming ,
laJr;moderatedegr~inweri,ct;'SU~ati1eim,de~'
23 23<:' 0.0208 23'10.0208 23,} 7 23" 7 23 7 23 7
cer~f~ use
Ans. Edm. Wet-Wear 550; clothing; PVC outer leyer w/lightwelght liner
'.'<"
'~:;
2.46 6.18 9.96 23.5
Ans. Edm. Monkey Grip; lined glove film Pioneer Pylox V-20; glove film
<:: goOd ies[staniieT
Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Shore A68 Shore A7S Shore AS7 Shore A93 Colorile; lIexible PVC tubing
'0
""'lJ
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
co
Chemical Resistance - Plasticized Polyvinyl Chloride
"0 ""U
00
< () Reagent
Reagent Note
conc·ITem p (ll-)
I' C)
.! I Time
(days)
POL Rating.
%Change Welght~
permeation
BTl
Jm!~q
IIWlm}I LDL
Tannic Acid
o Tanning Extracts Tartaric Acid Tetrachloroethane
Resistance Note
Material Note
good resistance e.xcellent; very 1~t1e'dilgradil\g ellilct; very . well suited for use Iowpe",{rate; 0·1/2 eyed(opper slz. ;. .' drop$lhr. ". IiQQd r~si$!ilnce? .••...
Colorite; flexible PVC tubing Ans. Edm. Ever-Flex; lined glove lilm
Rate lH9/cm2/mln.)
<0.9
Ans. Edm. Monkey Grip; lined glove film Colorite; flexible PVC tubing Pioneer Pylox V-20; glove film
2502
6
(1,1,2,2-)
Tetrachloroethene Tetrahydrofuran Tin Salts Titanium Salts Toluene
.~••.
Pioneer Pylox V-20; glove film Ans. Edm. Ever,Flex; lined glove film
good resistance
Colorite; flexible PVC tubing
poor reslsiance
Pioneer Pylox V-20; glove film Cotorite; f1exibte PVC tubing Ans. Edm. Ever-Flex; lined glove film
2100
3
totuol
Ans. Edm. Ever-Flex; lined glove film
not re~ommend~d . perm:7iileioo large t6 measure" nof recommended
not recornmendil~ .
Toluene Diisocyanate
>480 0.06
TOI
o
0-10
r
11·20 21-30 >30
Trichloroacetic Acid Trichloroethane
. no sleaelY $iaieperm, ratedetected • exceflan\ dagradatlon rallng ..• poor; pronounced degrading effect; avokl use; goo~ degradation rating" •.
4
<90
23·,
2
<900
23
6
<9000
23''', 23.,
i4S:ls1a'ilC'e
felr perm.
;'n~;'l:~~~4~~h,:ii;~;i
,/;;;;ar.I:'&5~<;!'::";<·'V,i';;1Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers . .•..,<
11
Ans. Edm. Ever·Flex; lined glove film Pioneer Pylox V-20; glove film
200
TCP
, . ' , ' . <;"
. ...,; :;.' ") ••.•..•
;,:
'. ',:<:>"
o
r;'
o
~
C/)
<0.9
o TEA
>480 0·10 0-10 0·10 0-10
6
o
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightwelght liner Ans. Edm. Ever·Flex; lined glove film
"~"::;
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightwelght liner • Ans. Edm. Wet·Wear 600; clothing; nylon nelting between two PVC layers
.,.: ..•••• >.
weft suited lor q~e,.·:·.' : .
,
~
.,
'+.'
f~r; mOderalf d8~:~rur:l':ct".~u~~~'.~Jlh~~rl .~cellenl; very"r.ttle dellr~d)ng,elleCt;~ery~'
Triethanolamine
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
\
192
"tl
I:l It:
•.•.,....
TCE
'\. .
c;: .,
*
Ans. Edm. Ever·Flex; lined glove film ..Jlllr;•.inoderata;ilegiadinge!feClii,;;r\able;UI)d&f; Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
@
;:s t'"
Colorite; f1exibte PVC tubing
Ans. Edm. Wet-Wear 600; clothing; nylon nelling between two PVC layers .,.drop.S!h(." . {> ..• poor perm. rate; 501 to SOOO eyedropper size • , Ans. Edm. Wet-Wear 700; clothing; PVC coating wI Nylon/Polyester lining
,
tE'
....."
tal~f 51" to,lOi;eyedl))pper size
.', .'.
~
i.
'gooa~p8rm::r~le; .a::511·eyedroppe(s)i,'?', Ans. Edm. Wet-Wear 550; clothing; PVC outer layer wI lightweight liner ""'drop!Jlh("" ....,
1>
Trichloroethylene Trichlorotrifluoroethane Tricresyl Phosphate
Ans. Edm. Ever,Flex; lined glove film Pioneer Pylox V-20; glove lilm
fair degradatlon"tating
p'oor,~eg(i~~tio'tA~~g' fali
1,1, I-trichloroethane
Pioneer Pylox V,20; glove film
'"
<:.:,..... .,..,:': /-.
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nyton/Polyester lining Ans. Edm. Monkey Grip; lined glove lilm
@
~ ~
n'C1l ~ C1l
R~ag~nt
Triethanolamine
Reag~nt TEA
t""
0: ..,
"POL I
Note
~atlng 85
:~:<:
·'23'
Material ~ote
\. Ans. Edm. Ever-Flex; lined glove film
0
Trifluoroethanol Trihydroxytriethylamine
15 >480
~
0-10
u:::
0-10 0-10
..,
Fie~i~tanc~,N~te
. i
I
weight
85
<E' ;:l
Per~eatlRn . <-I
)
"tl
6
<0.9
Ans. Edm. Monkey Grip; lined glove film
1302
Pioneer Pylox V-20; glove film
o
0-10
Trisodium Phosphate Turpentine
Colorite; flexible PVC tubing 10
<9
Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner
6
<90
Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC layers
16
<90
Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Colorite; flexible PVC tubing Ans. Edm. Ever·Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet·Wear 600; clothing; nylon netting between two PVC layers " Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Urea Uric Acid Vegetable Oils Water
brine
Xylene
xylol
Colorite; flexible PVC tubing
4
138
>3
<90
xylol
Pioneer Pylox V-20; glove film Colorite; flexible PVC tubing Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining Ans. Edm. Ever-Flex; lined glove film Ans. Edm. Wet-Wear 550; clothing; PVC outer layer w/lightweight liner Ans. Edm. Wet-Wear 600; clothing; nylon netting between two PVC tayers Ans. Edm. Wet-Wear 700; clothing; PVC coating w/ Nylon/Polyester lining
Zinc Chloride
Colorite; flexible PVC tubing
"0
""'lJ
<
()
Chemical Resistance - Plasticized Polyvinyl Chloride
co
CO
100
Chemical Resistance - Fluorinated Thermoplastic Elastomer
Temp; TIme :'PDI> ('C) < '(daYI) ;Riitln~ ,} , . ARM 200 ASTM Oil No.3 ASTM Reference Fuel C Hydraulic Fluids Methyl Alcohol Motor Oils Transmission Fluids
FTPE
SAE reference oil
20% MeOH MIL H·5606E methanol Pennzoill0W·40 SG grade automatic; Dexron liE; Texaco Mercon
80
.150 ....·• ·150
16
62
48
7.9
90
62
0·13 0·8
23 •.,•. 23
43 17
50 77
72 82
0·25 0·14
ISO:'
13 49 3.9 4.7
66 51 88 85
25 67 33 49
0·8 0·25 0·5 0·7
23 150 150
3M L·12783C
© Plastics Design Library
Chemical Resistance - Polybutadiene
101
Benzene
Butyl Alcohol
n-butanol
Carbon Disulfide Carbon Tetrachloride
Chlorobenzene
Chloroform Cyclohexane
Ethers Heptane
n-heptane
Isopropyl Ether Methyl Alcohol
methanol
Methyl Ethyl Ketone
Petroleum Ether Toluene
© Plastics Design Library
Polybutadiene
102
Chemical Resistance - Butyl Rubber ,'"
T," ..,.
..;.,. .". , ,J"""
Reag'e,,!
:',' .,";" ',<"Vi ; ' ; ( ' "f
Acetaldehyde Acetamide Acetic Acid
6,"", 6" -.: 6·· 2 8
glacial hot, high pressure 5 30
Acetic Anhydride Acetone Acetophenone Acetyl Chloride Acetylacetone Acetylene Acetylene Tetrabromlde Acrylon itrile Aerolube Aerosafe 2300 Aerosafe 2300W Air Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride Aluminum Fluoride Aluminum Nitrate Aluminum Phosphate Aluminum Salts Aluminum Sulfate Amines Amino Acids Ammonia
.:(.. ~i.
i'
"~'._~ ",.. 2'
:
Carbonate Chloride Hydroxide Nitrate Nitrite Persulfate
Aero Lubriplate
<167 >167
Aniline Hydrochloride Animal Fats
Animal Oils Ansul's Ether
IIR
II
unsatisfactory for use recommended for use minor to moder. effect
" recommended for use II
.. '" i
6·· ;>. .;" ," 6 ' .6, «2'/(
denatured
II
unsatisfactory for use
2
',' 8, .', 2 ., '. (8
recommended for use "
" unsatisfactory for use " minor to moder. effect u
" unsatisfactory for use recommended for use unsatisfactory for use recommended for use
8'':·
S 8 8
.;<
8
8 8"
.;
mixed lactams
minor to modeL effect
:'-'.? 8
cold hot liquid
.,
'i:=,+ 6 8
recommended for use minor to modeL effect recommended for use minor to moder. effect recommended for use
8 .,8
,,6
concentrated
.'8
, . ,...8 ..., :". solution dibasic mono·basic tribasic
f .8/' ;)",.. ' 8 " ',8 ..'
8 8
8
Ammonium Salts Ammonium Sulfate Ammonium Sulfide Amyl Acetate Amyl Alcohol Amyl Borate Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline
{,
6
10
Ammonium Phosphate
".;
8 ':8::' :1' ;,
;'
Ammonium Ammonium Ammonium Ammonium Ammonium Ammonium
6 .. 8
minor to modeL effect
"
8
8 8"
8 ·"" .. f 8.".
··2"
.,
unsatisfactory for use
.. 2 2
2 di,ester
.r
2
2. ,2 minor to modeL effect
dyes oils
6 lard
,.:./:.:.2
lard oil
>.
6 6 4
unsatisfactory for use minor fo modeL effect modeL to severe effect
© Plastics Design Library
103 Chemical Resistance - Butyl Rubber
POL .... \ Rating Antifreeze Aqua Regia Argon Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Askarel Asphalt ASTM Oil No.1 ASTM Oil No.2 ASTM 011 No.3 ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C Barium Chloride Barium Hydroxide Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde Benzene Benzenesulfonic Acid Benzochlorlde Benzoic Acid Benzophenone Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax Bo>rdeaux Boric Acid Brake Fluids
Prestone
Butadiene Butane Butene Butter Butyl Acetate Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol Butyl Alcohol (tert-) Butyl Benzoate Butyl Butyrate Butyl Carbitol Butyl Catechol tert-) Butyl Cellosolve Butyl Ether Butyl Mercaptan (tert-) Butyl Oleate Butyl Stearate Butylamine Butylene
© Plastics Design Library
recommended for use unsatisfactory for use minor to mode.. effect unsatisfactory for use recommended for use unsatisfactory for use
recommended for use
unsatisfactory lor use minor to mode.. effect unsatisfactory for use minor to mode.. effect
unsatisfactory for use solutions
recommended for use
mixture
automotive Delco Girling Mopar non-petroleum Wagner 218
Brines Bromine Bromine Pentafluorlde Bromine Trifluoride Bromobenzene
.8
minor to moder. effect recommended lor use minor to mode.. effect
recommended for use unsatisfactory lor use
mono bromobenzene
2·Ethyl minor to mode.. effect recommended for uSe unsatisfactory for use butanoi
minor to moder. effect
recommended for use minor to mode.. effect recommended for use mode.. to severe effect unsatisfactory for use minor to mode.. effect unsatisfactory for use
IIR
104
Chemical Resistance - Butyl Rubber
Butyraldehyde Butyric Acid Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Cyanide Calcium Hydroxide Calcium Hypochloride Calcium Hypochlorite Calcium Nitrate Calcium Phosphate Calcium Salts Calcium Silicate Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Liquors Caproic Aldehyde Carbamate Carbitol Carbolic Acid Carbon Bisulfide Carbon Dioxide Carbon Disulfide Carbon Monoxide Carbon Tetrachloride Carbonic Acid Castor 011 Cellosolve Cellosolve Acetate Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents Chlorine Chlorine Dioxide
minor to moder. ellect unsatisfactory for use recommended for use
minor to moder. ellect
unsatisfactory for use minor to moder. ellect dry wet
unsatisfactory for use recommended lor use unsatisfactory for use recommended for use minor to moder. effect
recommended for use unsatisfactory for use hexadecane dry wet dry wet
moder. to severe effect
8% CI as NACI02 in solution
unsatisfactory for use moder. to severe effect
Chlorine Trifluoride Chloroacetlc Acid Chloroacetone Chlorobenzene Chlorobromomethane Chlorobutadlene Ch lorododecane Chloroform Chloronaphthalene (0-) Chloronitroethane Chlorophenol (0-) Chlor05ulfonlc Acid Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid Citric Acid Clorox Cobalt Chloride Coconut 011 Cod Liver 011
IIR
unsatisfactory for use minor to moder. effect
mono mono chlorobenzene
unsatisfactory for use
minor to moder. effect unsatisfactory for use
'·chloro '·nitro ethane
recommended for use aqueous solution
2N
0.88
minor to moder. effect moder. to severe effect recommended for use minor to moder. effect recommended for use minor to moder. effect recommended for use
© Plastics Design Library
105
Chemical Resistance - Butyl Rubber ,
,,',:,'"
"r''>'
'.'
·.F . ".
., ...
R~agent Note
Reagent . .....
Y'
Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride Copper Cyanide Copper Salts Copper Sulfate
....
Cone.
Temp.
(l'o)
('C)
8 2 2 2 8 .8
Corn Oil Cottonseed Oil Creosols Creosote Creosyllc Acid Crude Oils Cumene Cutting Fluids Cyclohexane Cyclohexanol Cyclohexanone Cymene (p-) Decalln Decane Detergents Developing Fluids Dextron Dlacetone Diacetone Alcohol Diazinon Dlbenzyl Ether Dibenzyl Sebacate Dlbromoethylbenzene Dlbutyl Ether Dlbutyl Phthalate Dibutyl Sebacate Dibutylamine Dichlorobenzene (0-) Dichlorobenzene (p-)
,
8 '.'
coal tar wood
moder. to severe effect
•!
2 2 2 ~.
"
" "
2 2
,"
CUffing oil
,
2 2 2
" minor to moder. effect unsatisfactory for use
2 2
"
2
> :{
"
8 6 2, , ,8 8
recommended for use minor to moder. effect unsatisfactory for use recommended for use
.2 .. 6
unsatisfactory for use minor to moder. effect
2 4 8.
unsatisfactory for use
"
·"""it..
" moder. to severe effect recommended for use minor to moder. effect unsatisfactory for use
6 2 2
"
2
" " " " "
'.'2',,·
Dichlorobutane Dichloroisopropyl Ether Dicyclohexylamine Diesel Fuels Diethyl Benzene Dlethyl Ether Dlethyl Sebacate Diethylamine Diethylene Glycol Difluorodlbromomethane Dllsobutylene Diisooctyl Sebacate Dlisopropyl Benzene Diisopropyl Ketone Dimethyl Phthalate Dimethylaniline Dimethylformamide Dinitrotoluene Dioctyl Phthalate Dloctyl Sebacate Dioxane Dioxolane Dipentene Diphenyl Diphenyl Oxide Dow Corning 11 Dow Corning 200 © Plastics Design Library
., 2'"
; <;j ~
:
diesel oil
2 2·
i
2
!
6 ./
" " " minor to moder. effect
6
"
8. ., '6
recommended for use minor to moder. effect
'2,. 2
unsatisfactory for use
L
,
" "
:i:'i,
recommended for use minor to moder. effect
2
unsatisfactory for use
.2
"
2
"
minor to moder. effect
6
,s,. 6 4 2
..
" "
"
6
solutions photo
" unsatisfactory for use
" "
'2
.
" " " " " "
'4 . 4 2
.' ,....
recommended for use
8" .
;
:'.,
" "
'.'
8 8
~ ~
recommended for use unsatisfactory for use
8
10 50
"'.: . .//'
::~;:;
Rating
"
..
Resist~nceNote. . :
"',PDL
Monsanto
<J" \<:;~
'<
" " moder. to severe effect unsatisfactory lor use
?
"
2
"
'8
recommended for use
.:} ?8.C
"
IIR
106
Chemical Resistance - Butyl Rubber
Dow Corning 220 Dow Corning 33 Dow Corning 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm A Dry Cleaning Fluids Epichlorohydrin Epoxy Ethane Ethanol Ethanolamine Ethers Ethyl Acetate Ethyl Acetoacetate Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol Ethyl Benzene Ethyl Benzoate Ethyl Bromide Eth I Cellosolve Ethyl Cellulose Ethyl Chloride Ethyl Chlorocarbonate Ethyl Chloroformate Ethyl Ether Ethyl Formate Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrln Ethylene Dlbromlde Ethylene Dichloride Ethylene Glycol Ethylene Oxide Ethylene Trichloride Ethylenediamine Ethylmorpholine Stannous Octoate Fatty Acids Ferric Chloride Ferric Nitrate Ferric Sulfate Fluoborlc Acid Fluorine Fluorobenzene Fluorocarbon Oils Fluorolube Formaldehyde Formic Acid Freon 11 Freon 112 Freon 113 Freon 114 Freon 114B2 Freon 115 Freon 12 Freon 13 Freon 13B1 Freon 14 Freon 142B
IIR
oil
unsatisfactory for use
minor to moder. effect recommended for use unsatisfactory for use recommended for use
resins
mono ethanolamine
minor to moder. effect
organic ester
unsatisfactory for use minor to moder. effect
recommended for use unsatisfactory for use
minor to moder. effect recommended for use unsatisfactory for use moder. to severe effect minor to moder. effect recommended for use unsatisfactory for use
recommended for use unsatisfactory for use minor to moder. effect moder. to severe effect recommended for use moder. to severe effect recommended for use with 50% stannous octoate
liquid
50
minor to moder. effect unsatisfactory for use recommended for use
moder. to severe effect unsatisfactory for use recommended for use
moder. to severe effect unsatisfactory for use
recommended for use unsatisfactory for use recommended for use minor to moder. effect recommended for use
© Plastics Design Library
107 Chemical Resistance - Butyl Rubber
Freon 152A Freon 21 Freon 218 Freon 22 Freon 31 Freon 32 Freon 502 Freon SF Freon C316 Freon C318 Freon MF Freon TA Freon TC Freon TF Freon TMC Freon TP35 Freon TWD602 Fuel Oils Fumaric Acid Furan Furfural Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline Gear Oils Gelatin Glaubers Salt Glucose Glues Glycerin GI coIs Greases
Green Sulfate Liquor Halothane Halowax 011 Helium Heptane Hexaldehyde Hexane Hexyl Alcohol HEF 2 Houghto Safe 271 Hou hto Safe 620 Hydraulic Fluids Hydraulic Oils
unsatisfactory for use recommended for use unsatisfactory for use recommendad for use unsatisfactory for use minor to moder. effect recommended for use unsalisfactory for use
*6 acidic
furturan minor to moder. effect
recommended for use minor to moder. effect Esso Golden super Shell
unsatisfactory for use
Texaco 3450 recommended for use minor to moder. effect recommended for use glycerol unsatisfactory for use
Keystone *S7HX light grease Shell Alvania *2 Sunoco; all purpose
recommended for use unsatisfactory for use
N·Heptana N-Hexaldehyde N·Hexane-1
recommended for use unsatisfactory for use minor to model. effect unsatisfacfory for use
high energy fuel water & glycol base
moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
Sunsafe; fire resistant Univis 40 petroleum base PRL-high temperature
Hydrazlne Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
recommended for use minor to moder. effect unsatisfactory for use
petroleum base
recommended for use
40
Hydrocarbons Hydrochloric Acid
© Plastics Design Library
saturated 3 molar concentrated
unsatisfactory for use recommended lor use
IIR
108
Chemical Resistance - Butyl Rubber
Hydrocyanic Acid Hydrofluoric Acid
Hydrofluosilicic Acid Hydrogen Hydrogen Fluoride Hydrogen Peroxide
cold hot
37 37
cold hoi cold hot
<65 <65 >65 >65
Hydroquinone Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Iodine Pentafluoride Iodoform Isobutyl Alcohol Isobutyl N-Butyrate Isododecane Isooctane Isophorone Isopropyl Acetate Isopropyl Alcohol
mode" to severe effect
4
recommended for use unsatisfactory for use mode" to severe effect unsatisfactory for use recommended for use
8 gas, cold gas, hot anhydrous
:
8 8
~
:, ...~./
:,.
II
90
Hydrogen Sulfide
recommended for use
./ '$
dry, cold dry, hot wet, cold wet, hot
\.,
4/:'::
8
mode" to severe effect
."
recommended lor use
.,.:.,jf.,..'\:
)
s?
.8'.'\ . "2 ....:~. 6 '
,~.•'.:.,.",
'.
6:
2
Swan Finch
"6'
,"',·2:
unsatisfactory for use minor to moder. effect unsatisfactory for use minor to mode" effect unsatisfactory for use recommended lor use
'8 8 8.
unsatisfactory for use
2 2 ketone ,.,'
,.··6
recommended for use minor to mode" effect
,
8
recommended for use
.8
8
Isopropyl Chloride Isopropyl Ether Kerosine Lacquer Thinners Lacquers Lactic Acid Lavender 011 Lead Acetate Lead Nitrate Lead Sulfamate Light Oil Llgroln Lime Bleach Lime Sulfur Lindol Linoleic Acid Linseed Oil Liquid Petroleum Gas Llqulmoly Lubricants Lubricating Oils
Lye Magnesium Magnesium Magnesium Magnesium Magnesium Malathion
IIR
2
unsatisfectory for use
2 , 2
'X(,; 2>, , cold hot
recommended tor use unsatisfactory for use recommended for use unsatisfactory for use recommended tor use
DTE
2',
petroleum ether of benzene
..
unsatisfactory for use
"."'2"
."
recommended for use
8
8
:8
hydraulic fluid; phosphate ester type :,·i,
2
unsatisfactory for use moder. to severe effect unsatisfactory for use
". ".'. 4 .'.'
'.,:2 "','. /
LPG
'.:.. 2 " recommended for use
H2; high viscosity U4; high viscosity di-ester petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50 solutions
Chloride Hydroxide Salts Sulfate Sulfite
i
2
unsatisfactory for use
,.,..,.2 2 2 " ,•. ·2,
;:;;.:.,
'."
"".,2'
;.~
'''"
2 ."
f?2
:;:;>:7' .'
recommended for use
8 8. '
8 ,8· ' 2'<'" ....
'_ unsatisfactory for use
© Plastics Design Library
109
Chemical Resistance - Butyl Rubber
Maleic Acid Maleic Anhydride Malic Acid Mercuric Chloride Mercury Mesityl Oxide Methane Methyl Acetate Methyl Acetoacetate Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol Methyl Benzoate Methyl Bromide Methyl Butyl Ketone Methyl Carbonate Methyl Cellosolve Methyl Cellulose Methyl Chloride Methyl Chloroformate Methyl Cyclopentane Methyl Ether Methyl Ethyl Ketone Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Isobutyl Ketone Methyl Isopropyl Ketone Methyl Methacrylate Methyl Oleate Methyl Salicylate Methylene Chloride Methylene Dichloride Methylhydrazine Milk Mineral Oils Motor Oils Mustard Gas Naphtha Naphthalene Naphthenic Acids Natural Gas Neats Foot 011 Neon Neville Acid Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
Nitrobenzene Nltroethane Nitrogen Nltromethane Nltropropane NItrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol Oleic Acid
© Plastics Design Library
unsatisfactory for use
recommended for use vapors ketone
minor to moder. effect unsatisfactory for use minor to moder. effect
methanol
recommended for use unsatisfactory lor use .;:::
recommended for use unsatisfactory for use minor to moder. effect moder. to severe effect unsetisfectory for use monomethyt ether
recommended for use
MEK unsetisfectory for use minor to mode.. effect moder. to severe effect minor to moder. effect
MIBK
unsatisfactory lor use minor to mode.. effect unsatislactory for use monomethyl hydrazine
recommended for use
Univolt #35
unsatisfactory for use
Esso recommended for use unsatisfactory for use
minor to moder. effect recommended for use minor to moder. effect recommended lor use
3 molar concentrated dilute inhibited red fuming; IRFNA red fuming; RFNA
mode.. to severe effect minor to moder. effect
textroxide N204, 1
mode.. to severe effect recommended for use minor to moder. effect
with 60% dinitrotoluene
unsatisfactory for use minor to mode.. effect mode.. to severe effect minor to moder. effect
40
unsatisfactory for use
N·Octane minor to moder. effect
IIR
110
Chemical Resistance - Butyl Rubber
Oleum Olive 011 Oronite 8200 Oronite 8515 Orthochloroethylbenzene Orthodlchlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid Oxygen Ozone Paint Thinners Palmitic Acid Peanut Oil Pentane (N·) Perchloric Acid Perchloroethylene Petroleum 011
minor to moder. effect unsatisfactory for use
OS 45 type III OS 45 type IV recommended for use cold liquid cold
unsatisfactory for use
93·149 minor to moder. effect unsatisfactory for use minor to moder. effect moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
Duco
crude <121 >121
Phenol with 30% H20 with 15% H20
70 85
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
minor to moder. effect 3 molar concentrated
moder. to severe effect minor to moder. effect
20 45
Phosphorous Trichloride Pickling Solutions Picric Acid
recommended for use moder. to severe effect
:/ H20 solution
minor to moder. effect
molten
Pine 011 Pinene Piperidine Plating Solutions Pneumatic Service Polyvinyl Acetate Potassium Acetate Potassium Chloride Potassium Cuprocyanide Potassium Cyanide Potassium Dichromate Potassium Hydroxide Potassium Nitrate Potassium Salts Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Proplonitrlle Propyl Acetate Propyl Acetate (N·) Propyl Alcohol Propyl Nitrate Propylene Propylene Oxide Pydraul10E Pydraul 115E Pydraul 230E
IIR
white
unsatisfactory for use
chrome others
recommended for use
emulsion
:::/(::~8
~.:
?'8.,
.:;?'(A·
unsatisfactory for use
minor to moder. effect recommended for use minor to moder. effect unsatisfactory for use minor to moder. effect
unsatisfactory for use
© Plastics Design Library
111
Chemical Resistance - Butyl Rubber
...." ,,;/
Re~.~?~~>;\>:. . .......'? ;
Pydraul 29ELT Pydraul30E Pydraul312E Pydraul50E Pydraul 540C Pydraul65E Pydraul90E Pyranol Pyridine Pyroligneous Acid Pyrrole Rapeseed Oil Red Oil RJ 1 RP 1 Sal Ammoniac Salicylic Acid Salt Brine Santosafe 300 Sewage' SIlicate Esters SIlicone Greases Silicone Oils Sliver Nitrate Skelly Solvent Skydrol500 Skydrol 7000 Soap Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide Sodium Hydroxide Sodium Hypochlorite Sodium Metaphosphate Sodium Nitrate Sodium Perborate Sodium Peroxide Sodium Phosphate Sodium Salts Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil SR 10 SR 6 Stannic Chloride
.
Reage.~f~.A.te.'; . ·. . . . . ,{'bonc.:temp. POL ·:«;(~!.i '.. ('c}R~t1ng ("
> .
~r
minor to moder. effect
6. ,.... ·· . 2
>
i'"
unsatisfactory for use minor to moder. effect unsatisfactory for use
6
minor to moder. effect
6
6 2
unsatisfactory for use minor to moder. effect
'6 6 "2 8 2
oil
MIL,H·5606 MIL·F·25558 MIL·R·25576
unsatisfactory for use recommended for use unsalis factory for use
2 2 8.':" .•
recommended for use
e :1
chlorinated
unsatisfactory for use moder. to severe effect minor to moder. effect
4 8 ',2 8
unsatisfactory for use recommended for use
8 solvent B solvent C solvent E
.{
;
8
.,.,
·2
'
2 ..... ·2 6
>}; ::: baking soda
,
).:
~:
:
.. .•..
....
soda ash
<"
6 6 8 8
minor to moder. effect recommended for use
:. ,,.8 dibasic mono tribasic
8 8 .
8'
8
8 B
B'" 8,.
8
"
moder. to severe effect unsatisfactory for use
2'
fuel
2
,
•.6 .
Stannous Chloride Stauffer 7700 Steam
•",i
'ca'" . <
© Plastics Design Library
minor to moder. effect recommended for use unsalisfactory for use minor to moder. effect unsatisfactory for use
<177 >177
Sucrose Sulfite Liquors
unsatis'actory for use
minor to moder. effect recommended for use
e" "':"'8
solutions
50
Stearic Acid Stoddard Solvents Styrene
.j
I'
minor to moder. effect unsalisfactory for use monomer solutions
· . .•.···,·i ..:..:.:.:.:,.e:,,:;,.:,.,.:....•
.~
re_c_om_m_e_n_de_d_'_or_u_se minor to moder. effect
-'
IIR
112
Chemical Resistance - Butyl Rubber
minor to moder. effect moder. to severe effect recommended for use
Sulfur Chloride Sulfur Dioxide Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
unsatisfactory for use dry Jiquidified; under pressure wet
minor to moder. effect recommended for use minor to moder. effect
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum
unsatisfactory for use moder. to severe effect unsatisfactory for use moder. to severe effect unsatisfactory for use
Sulfurous Acid Tannic Acid
minor to moder. effect recommended for use
10
Tar Tartaric Acid Terpineol Tetrabromomethane Tetrabutyl Titanate Tetrachloroethylene Tetraethyllead Tetrahydrofuran Tetralin Texamatlc Fluid 1581 Texamatlc Fluid 3401 Texamatic Fluid 3525 Texamatlc Fluid 3528 Thlonyl Chloride Titanium Tetrachloride Toluene Toluene Diisocyanide Transformer Oils Transmission Fluids
Triacetin Triaryl Phosphate Trlbutoxyethyl Phosphate Tributyl Mercaptan Trlbutyl Phosphate Trichloroacetic Acid Trichloroethane Trichloroethylene Tricresyl Phosphate Triethanolamine Trifluoroethane Trinitrotoluene Trioctyl Phosphate Tun 011 Turbine 011 Turpentine Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon Hydrolube J4 Ucon LB1145 Ucon LB135 Ucon LB285
IIR
bituminous
unsatisfactory for use minor to moder. effect moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
blend minor to moder. effect unsatisfactory for use
minor to moder. effect Pyranol
unsatisfactory for use
Mobllgas WA200; Type A autometic type A type A; Esso Texamatic IlAn recommended for use
unsatisfactory for use minor to moder. effect unsatisfactory for use recommended lor use minor to moder. effect unsatisfactory for use
china wood oil
recommended tor use moder. to severe effect
*15; MIL·L·780BA *35
unsatisfactory for use
lubricant
recommended for use
oil; polyacrylonitrile glycol derivative lubricant
lubricant
© Plastics Design Library
113
Chemical Resistance - Butyl Rubber
Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 Unsymmetrical Dlmethylhydrazlne Varnish Vegetable Oils Versllube Vinegar Vin I Acetylene Water Whiskey White 011 Wolmar Salt Wood 011 Xenon Xylene Xylidine Zeolites Zinc Acetate Zinc Chloride Zinc Salts Zinc Sulfate
© Plastics Design Library
lubricant unsymmetrical (UDMH) unsatisfactory for use model. to severe effect recommended for use monovinyl acetylene drinking salt water & wines
unsatisfactory for use recommended for use unsafisfacfory for use recommended for use unsatisfactory lor use mixed aromatic amines recommended for use
IIR
114
Chemical Resistance - Epichlorohydrin Rubber
Acetic Acid
;.'~~:
glacial
30
Acetic Anhydride Acetone Acetophenone Acetyl Chloride Acetylacetone Acetylene Alcohols Aluminum Acetate Aluminum Fluoride Aluminum Nitrate Aluminum Phosphate Ammonium Carbonate Ammonium Chloride Ammonium Hydroxide Ammonium Nitrate Ammonium Phosphate Amyl Acetate Amyl Alcohol Aniline Animal Fats Arsenic Acid Asphalt Barium Chloride Barium Hydroxide Barium Sulfate Barium Sulfide Beet Sugar Liquors Benzaldehyde Benzyl Alcohol Boric Acid Bromine Trifluoride Bromobenzene Butadiene Butane Butter Butyl Acetate Calcium Chloride Calcium Hydroxide Calcium Hypochlorlde Calcium Hypochlorite Calcium Nitrate Calcium Sulfide Cane Sugar Liquors Carbon Bisulfide Carbon Dioxide Carbon Monoxide Carbon Tetrachloride Castor 011 Chlorine Chlorine Trifluoride Chlorobenzene Citric Acid Corn 011 Cottonseed 011 Creosols Creosote Cyclohexane Detergents Dlacetone Alcohol Dibenzyl Ether Dibutyl Phthalate Dichlorobenzene (p-) Diesel Fuels Diethylene Glycol Dloctyl Phthalate
CO
»." .
unsatisfactory for use minor to moder, effect unsatisfactory for use
minor to moder. effect recommended for use minor to moder, effect recommended for use
denatured
\.: -.::":-"
concentrated
:.;.
minor to moder. effect recommended for use minor to moder. effect recommended for use unsatisfactory for use recommended for use unsatisfactory for use
lard
recommended for use
t'-
unsatisfactory for use
recommended for use unsatisfactory for use
recommended for use unsatisfactory for use recommended for use minor to moder. effect
dry
recommended for use minor to moder. effect recommended for use unsatisfactory for use recommended for use minor to moder. effect recommended for use
dry wet
minor to moder, effect unsatisfactory for use
mono chlorobenzene recommended for use
unsatisfactory for use
solutions
diesel oil
recommended for use unsatisfactory for use minor to moder, effect unsatisfactory for use recommended for use minor to moder. effect
© Plastics Design Library
115
Chemical Resistance - Epichlorohydrin Rubber
Dloctyl Sebacate Dowtherm Ethanolamine Ethyl Acetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene Ethyl Chloride Ethyl Ether Ethyl Formate Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylene Dichloride Ethylene Glycol Ethylene Oxide Ethylenediamine Ferric Chloride Ferric Nitrate Ferric Sulfate Formaldehyde Formic Acid Freon 113 Freon 114 Freon 12 Freon 13 Freon 21 Freon 22 Freon TF
moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
oil organic ester
recommended for use unsatisfactory for use minor to moder. effect unsatisfactory for use
moder. to severe effect recommended for use unsatisfactory for use recommended for use unsatisfactory for use recommended for use
minor to moder. effect recommended for use
minor to moder. effect recommended for use
Fuel Oils
Furfural Gasoline Gelatin Glucose Glues Glygerln Glycols Green Sulfate Liquor Hexane Hydraulic Oils Hydrochloric Acid Hydrogen Sulfide Hypochlorous Acid Iodine Penta fluoride Isophorone Isopropyl Alcohol Kerosine Lacquer Thinners Lacquers Lead Acetate Liquid Petroleum Gas Lubrlcatln Oils Magnesium Chloride Magnesium Hydroxide Magnesium Sulfate Mercuric Chloride Mercur Methane Methyl Acetate Methyl Alcohol Methyl Ethyl Ketone Methyl Formate Methyl Isobutyl Ketone Methyl Methacrylate Mineral Oils
unsatisfactory for use recommended for use
glycerol
petroleum base cold hot wet, cold wet, hot
ketone
37 37
unsatisfactory for use minor to moder. effect
unsatisfactory for use recommended for use
unsatisfactory for use
LPG petroleum base
MEK
minor to moder. effect recommended for use
unsatisfactory for use minor to moder. effect unsatisfactory for use
MIBK
recommended for use
Naphtha Natural Gas
© Plastics Design Library
CO
116
Chemical Resistance - Epichlorohydrin Rubber
Nitrobenzene Nitrogen Olive 011 Oxalic Acid Oxygen Ozone Paint Thinners Palmitic Acid Peanut Oil Pentane (N-) Perchloric Acid Perchloroethylene Petroleum 011
recommended for use minor to moder. effect moder. to severe effect cold
minor to moder. effect unsatisfactory for use recommended for use unsalis factory for use recommended for use
Duco
unsatisfactory lor use moder. to severe effecl crude
recommended for use <121 >121
unsatisfactory for use
Phenol with 30% H2O with 15% H2O
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
70 85
3 molar concentrated 20 45
Phosphorous Trichloride Picklln Solutions Picric Acid Pine 011 Pinene Piperidine Plating Solutions Pneumatic Service Potassium Acetate Potassium Chloride Potassium Cuprocyanlde Potassium Cyanide Potassium Dichromate Potassium Hydroxide Potassium Nitrate Potassium Salts Potassium Sulfate Propane Propyl Acetate Propyl Acetate (No) Propyl Alcohol Pyranol Rapeseed Oil Red 011 RJ 1 RP 1 Silicone Oils Sliver Nitrate Skydrol500 Skydrol 7000 Soap Soda Ash Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide
CO
H20 solution mollen
others
minor to moder. effect
unsatisfactory for use recommended for use minor to moder. effect recommended for use
minor to moder. effect recommended for use
unsatisfactory for use recommended for use unsatisfactory for use recommended for use MIL-H-5606 MIL-F-25558 MIL-R-25576
unsatisfactory for use solutions
recommended for use
baking soda
soda ash
© Plastics Design Library
117
Chemical Resistance - Epichlorohydrin Rubber ... ,.
, '.:
Reagent
Reagent Note' ".d
"
"
Sodium Hydroxide Sodium Hypochlorite Sodium Nitrate Sodium Sulfate Soybean Oil Steam Stearic Acid Stoddard Solvents Sulfite Liquors Sulfur Sulfur Hexafluoride Sulfuric Acid
"
Conc.
Temp.
(%)
('C)
POL Rating
>177
Tar Tartaric Acid Toluene Transmission Fluids Trichloroethylene Tricresyl Phosphate Turbine Oil Turpentine Vegetable Oils Versilube Water Xylene
© Plastics Design Library
6 8'
minor to mode" effect recommended for use
8 8 8' 2
.. ..
6 8
6 4, 8 2 "',; 2 6'"
20% oleum concentrated dilute
bituminous
6 6 2 8 2
type A
2 8 8 8 8 drinking
6 8
y"
},
Resistence Note
.
unsatisfactory for use minor to mode" effect recommended for use minor to moder, effect mode" to severe effecf recommended for use unsatisfactory for use
..
minor to mode" effect
.. ..
unsatisfactory for use recommended for use unsalisfaclory for use
..
recommended for use
.. ..
.. minor to mode" effect
..
unsatisfactory for use
co
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
()
en
-'-
-'-
CD
s:: % Change (Reagent
Reagent Note
Conc. Temp. Time Load ('C)
('4)
(days)
Acetaldehyde 2.3 •...
Acetamide Acetic Acid
.' "
23 5 20 30 30
8 8 8 8 8 8
23 23
Acetic Anhydride 23
Acetone Acetophenone Acetyl Chloride Acetylacetone Acetylene
6 5 4
23
Aircraft Turbine Oils Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride
Aero Lubriplate
,
"".,23
;,
@
"tI
P ~
ri' CIl
~
CIl
Amines Amino Acids Ammonia
23
'i
solution
;':;~1';;
mixed laclams
./;';~
cold hot liquid
;~;;;~',
;:l
t"'
.,$:l \l:
'.".
/:
<E'
.,0:
;
-.;.
,
Fluoride Nitrate Phosphate Salts Sulfate
anhydrous
6 2 7
. 8
solution
Aluminum Aluminum Aluminum Aluminum Aluminum
8 2 2 <·167 " >167 •
Sheillurbine oil 307 denatured
23
% Retained
I I
Tensile Modulus Elongation Strength
Hardness·' Chan9!l.
2 8 6 8 6 8 8 8 6 8 B B 2,
6 B
6 2 2 2 5
Resistance Note
Material Note
moder. 10 seve,e effecl fluid hn severe effect
DuPont Hypalon
.'./ ..
" "
I ; "',' )( minor to moder, effect moder. to severe effect unsatisfactory for use moder. to severe effect fluid has lillie to moderate effeci recommended tor use 'lIuid has little to no elfect recommended for use fluid has lillie to no effect
" " "
" " "
" " " " " " " " "
recommended lor use fluid has little to no effect .. •...lTIinor 10 modar, effect
6 5 2 2 2
23
Acrylonitrile Aerolube Aerosafe 2300 Aerosafe 2300W Air
4 2 6 4 2 4 6
glacial hot, high pressure glacial
POL . '.' Volume Rating' ::: :}
fluid has'mlnoHft.r!!.99~r~\~.~.,,,e.~.t unsatislactoiyforuse .
" " minor 10 moder. ellect JNi~.~~~}!'inor to moderate effect .". modeL to severe allecl recommended for use unsatisfactory for use
"
" " " " " " "
1
" minor to moder. effect unsatisfactory for use ." fluid. is likel{lobe eompaiibie recommended lor use unsatisfactory for use
l
'f;, , . ~.-:
.. , -,..
"
,
i
"
"
"
:::::::",,' ',"
"
"
recom"l~nded for use ';fuinor fOlOoder. eflect unsatisfactory for use :;;:
" " " "
.\; fluidha~'@leto no affect
:'..
"
"
; [ ' imsetlsiactory lor use mlnorto moder. effect
I
" " "
" "
flui(~as.ai!t!~mm~Mra~el!ect.
"
"
" " "
" " "
" "
@
" ~ ~
Reagent Note
Reagent
r;' Vl
tl
I
Vl
;:l
t""
..,0: !=l ..,
u::
I I P~L
Ammonium Chloride
(1)
15'
I
,cone. Temp., Time L,oad ("'t ('e) (days) Rating
Ammonium Hydroxide Ammonium Ammonium Ammonium Ammonium
Nitrate Nitrite Persulfate Phosphate
% Change Volume
% Retained Tensile Modulus EIOngation'l Hardnl!ss St~~nglh. . Change
Resistance Note recommended for use fluid has liUle to no etfe<:t recommended for use fluid haslml~lg'W~l(~~', ·;recommeiideiHiiHis'e"",""',·,·,·······
8·
aqueous solution concentrated solution
23
8
93
11
8'
N
8 8
solution dibasic
8
8 8 8'.
mono-basic tribasic
Material Note DuPont Hypalon
,
" "
I
.8
Ammonium Salts Ammonium Sulfate
'8 8
solution
-
Ammonium Sulfide Amyl Acetate
23
Amyl Alcohol
8
rec~()lllmeMMllii:@e'
2 2
urisatiSii!Cloiffiifuse fluid has severe efieci .recommende.d for .use fluid ti~~ IitUslo no effeel r$coTni.n~e,! for ~se u~sa.t1sfaclory for use
8
~ ::
. 93
Amyl Borate Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline
fluid haslitlleJonoeffeel
8
93
8 .8,.
"2. /
:+
2 2
..
:~:
2
di-ester
2 2'
dyes oils
m.inor,t() moder. efleet unsatisfactory for use
6 2.
.
2 23 38
Aniline Hydrochloride Animal Fats Animal Oils Ansul's Ether Antifreeze Aqua Regia Argon Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Askarel Asphalt
5 2 ·.·'.2··"j·,
lard
':.. ,.<
'2"";" 6
lard oil
6
Prestone
2 8 4
.
minor lomoder. elleel unsat~faclory
moder. t()severe elfel't . u~~a!~fa.~~iy for us~ .
2
:
2·"/·
.;:.
2
8
f1ui,! has ';',~or ;~ moilerate aflaet " fluid has little 10 no ellect
()
en
s:::
for use
ree6n;~;nde~ for use
2
.23
ASTM Oil No.1
fluid hils .minot!" fluid
. ~iM6o !,,~:d~r, eff~e;
--"
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
--"
co
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
()
en
N
o
s:
28
85 40
77 49
A-15 A-15
72
48
71
A-28
48
50
47
A-21
51
ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C 50% isooctane, 50% toluene
Barium Chloride Barium Hydroxide solulion
Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde Benzene Benzenesulfonic Acid Benzochloride Benzoic Acid Benzoyl Chloride Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax @
:J:! $:I ~
n'CIl ~
solution
Bordeaux Boric Acid
CIl
;:l
t""
.,
$:I
\t:
mixture solulion
Brake Fluids
16'
0: .,
solutions
Brines
automotive Delco Girling Mopar non-petroleum Wagner 218
DuPont Hypalon; bl.pig.; Shore A60 DuPont Hypalon; white pig.; Shore A60 DuPont Hypalon
@
'"
Ei ~
I~!!~gent
Material Note
;:;' V>
t:l
IBromine
ii*ld~::;:~r~~;~;:;;~;;~!l~~l
anhydrous
~
V>
-5" ;:l
t-'
c:.., ..,
$:l
It::
anhydrous liquid
Bromine Pentafluoride Bromine Trifluoride Bromobenzene
mono bromobenzene ,./\ • rntilorill~o1l8r;~!!eCi1\<·
'Butadiene Butane Butene Butter Butyl Acetate Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol
DuPont Hypalon
2,Ethyl
butanol
Butyl Alcohol (tert·) Butyl Butyrate Butyl Carbltol Butyl Catechol (tert·) Butyl Cellosolve Butyl Ether Butyl Mercaptan (tert·) Butyl Oleate Butyl Stearate Butylamine Butylene Butyraldehyde Butyric Acid Calcium Acetate Calcium Bisulfite solution
Calcium Carbonate Calcium Chloride solution
Calcium Cyanide Calcium Hydroxide solution
Calcium Hypochloride Calcium Hypochlorite 5 20
Calcium Nitrate Calcium Phosphate ()
en ~
~
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
I\;) ~
......
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
(") CJ)
N N
~
~
R~agent
% Retained Reagent Note
Calcium Salts Calcium Silicate Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Liquors Carbamate Carbitol Carbolic Acid Carbon Bisulfide Carbon Dioxide
DuPont Hypalon
dry wet
Carbon Disulfide Carbon Monoxide Carbon Tetrachloride Carbonic Acid Castor Oil Cellosolve Cellosolve Acetate Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents Chlorine
Chlorine Dioxide
© '1:l
;:;-
hexadecane dry wei dry wet dry gas moist gas 8% CI as NACI02 in solution
IChlorine Trifluoride Chloroacetic Acid
VI
M-
r;VI
~ tE·
Chloroacetone Chlorobenzene
VI
;:l
t'"
0: .,
.,
!=l
u::
Chlorobromomethane Chlorobutadlene
Material Note
mono mono chlorobenzene
@
"tl
P ~ r;o
't"J '" <5° ~
;::l
~
., .,~
Cl"
tt::
Chlorododecane Chloroform Chloronaphthalene (0-) Chloronitroethane Chlorophenol (0-) Chlorosulfonic Acid Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid
DuPont Hypalon
l-chloro l nitro ethane o
"
aqueous solution
Citric Acid solution
Clorox Cobalt Chloride Coconut Oil Cod Liver Oil Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride
2N
Monsanto
solution
Copper Cyanide Copper Salts Copper Sulfate solution
r8co",m~ryd8d lOr use
50
Corn Oil Cottonseed Oil Creosols Creosote
coal tar wood creosote oil
Creosylic Acid Crude Oils Cumene Cutting Fluids Cyclohexane
~;~~~~>::~~~~:J~~i @~~lIsja~\oiYl#ilJse
.
". .::".!,"
cutting oil
. ~:~
,":
(:~:
Cyclohexanol Cyclohexanone () C/)
s:::
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
N W
Chemical Resistance - Chlorosulfonated Polyethylene Rubber % Ch~nge
Reag~ritNote
cone'lump'l Time ILoad. (')0) ('C) (days)
I ~~L I
I
I\.) ~
% Retained
{"
Resistance Note
Material Note
2
unsatisfactory for.use
DuPont Hypalon
2
•
RatlOg
,VOlume
Tensile Strength
Hardness . Change
.·,.2" solutions
'6
photo
8 2 2 2 4· 2 2 2 2
23
2' 2 2'
minor to moder. effect recommended for use unsatisfaCI~ry for use
moder. to se_ere ellect unsatisfactory for use
lIuid has se_ere eflect unsatisfactory for use
2 :2 2
2 2 2 2
diesel oil
6 '2\· 2···.:···
2 "':•• :.'5' :.4">'
8
;2 2
""inor to ';;oder. effect
~ns~tislacforyfor us~
"'
.'~ '~:;
fluid has ';;i~of.to moder.leeflecl . "moder. 10 sa_ere 'elfecf': f~~~mmended for use •
uns~isfactQ&'~ru;f N'::':":"
:, ....,....
·:·.. ::··:-::·f~: :.: ',4.-;:
.'
:•• \hiid ha'S- s~~efJ e!ject"
{"
@
% Retalnl!d
'i:l
S" ~
n'CIl tI
(1)
CIl
lEi' ;J
t:
c-; ~ -;
u:::
IReagent Dow Corning 4 Dow Corning 5 Dow Corn in 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm A
oil ; : :~
5
2" 2,
fluid has mi~!i~ \0 m';~ei~I~' e~ecl . unsatisfaclory !of use'-,i
u'
-;i? \
.
.re~om~~'1d~f';{~.s,>
u
2 .2:' ' ..,
li~i\\t1(l,~s~~~re ~ff~c,/' . 'insatisfactory.fo, use .
.2 2 8
:/
(e~ommen~ed IOfUS~!><
fluid' has little'lo no eflecr'" ·,.i,. unsatisfacfory lor ·usa •.
~. 2' 2"
"
?
'u
2.
minor 10rilOde,r.;H~ct;,,;
6
#
f~~I~a~~:a:~t?;~~f~:i:+··'
2 2 2.. 2
~~.
. unsatiSiactory fo, .use <,: },. '::":"
2 23
..;':";
hasse'ie(~.;!f~cl,
2
fluid
6" .
~~:~~£:i;:~:~\i[:
8
4 "2 2
6 2 2;,
+;..
unsatlsf~~;o(yioiuse;'
mlnoilo'(Iloder. e.fled: unsatisfactory foi USI". . minor to·moder. aff~~t .~nsatl~hj~tOry fot~~a ffuid.
411.···
I
.' 'iiiillarl1iti\odei:eflec:I;.·'·········· .~ns~\lsf~g~ry f~(u~~t· moder. tei severe, effect< unsal1sfaFlory lar use.,/,···
'2
93
Ethylene Glycol
:-.:.;~::.>
f!~i~J~!iMlyiob8.~mP1l.lib.,le'.·'.
8(
23
.
Unsalisla~ioiy for use
6';
organic ester
"
"~ ..
2;""'>'.
Ethers Ethyl Acetate
Ethyl Formate Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrin Ethylene Dibromide Ethylene Dichloride
.:~.
8. 8 2
mono ethanolamine
Ethyl Chlorocarbonate Ethyl Chloroformate Ethyl Ether
DuPont Hypalon
u
a
Ethane Ethanol Ethanolamine
Benzene Benzoate Bromide Cellosolve Cellulose Chloride
Material Note
'~
.. 23
Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl
I·
u
'23
Acetoacetate Acrylate Acrylic Acid Alcohol
Res'i!;tance Note recommended fo, use',
Dry Cleaning Fluids Epichlorohydrin
Ethyl Ethyl Ethyl Ethyl
I
Tensile 'MOdlilus Elongation Ha. rdness Strength .' , <::hang8.
Reagent Note
. ·8
;>8
h(l,S~e,M!!;;;~B!~
,; reC?T~e.~8d f?r~~~i.: ",'." f1u!d§iiS'lilt!e 19 "0 ef!$cl.;
()
U>
~
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
N 01
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
()
en
s::
r
~eagent
POL I
Reagent Note
Rating
@
"tl
E" ~ n-Ul 0ell
Ul
tE· ;:l
t"'
0: .,
.,
$:l
ll:
13 1381 14 1428 152A 21 218 22
Freon 31 Freon 32 Freon 8F Freon C316 Freon C318
ReSisl~ce Note IH~rd.nes,sL Change ·\mm::~
UQ~atiSfaclory
fot uSe, .
. minolla-ilIoder. eflect nO,'elf&C1 .~ recommended. for use
40 40
Freon Freon Freon Freon Freon Freon Freon Freon
I
. . . liQklhaS,IiIl.le~lo
Formaldehyde
Freon 11482 Freon 115 Freon 12
I
··:".i;·ti;:;~1a~;n~;~~es~
Ferric Nitrate Ferric Sulfate Fluoboric Acid Fluorobenzene Fluorolube Fluosilicic Acid
Freon 114
Tensile Modulus Elongation Strangth ;
':':j
solution
Freon 112 Freon 113
,Volume
fl~id utlli~ely to)l!,compatib~
Ethylene Trichloride Ethylenediamine Fatty Acids Ferric Chloride
Freon 11
% fJetainlid
./ urisatisl.aclor~ 101' use
Ethylene Oxide
Formic Acid
% Change
N
en
Material Note DuPont Hypalon
@
'i:l
S' ~
n'en tl (1) en
<5' ;:l
t
., .,
0~
It::
Reagent Freon MF Freon TA Freon TC Freon TF Freon TMC Freon TP35 Freon TWD602 Fuel Oils
Reage~tNote .
I
I
Conc~ Temp: ITime ILoad ;P~L I ('4)
('C)· (days) ..•
RatlOg
% Change Volume
% Retained
I
I
I
Tensile Modulus 'Elongation H.ar.d ...ness Strength . . C~ange
Res!stanceNote
Material Note
unsatisfactory for'Us:'
DuPont Hypalon
rei:omme~~ecifor use
."
#6
acidic
Fumaric Acid Furan Furfural Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline
Gear Oils Gelatin Glaubers Salt Glucose Glues Glycerin Glycols Greases
Green Sulfate Liquor Halothane Halowax Oil Helium Heptane Hexaldehyde Hexane
furfuran
Esso Golden super Shell
Texaco 3450
glycerol
Keystone #87HX light grease Shell Alvania #2 Sunoco; all purpose
N-Heptane N-Hexaldehyde N-Hexane-l n-Hexane min9rl~m~~ei;;~niiCf >.,.
Hexyl Alcohol
~
high energy fuel
un$a@!Mi~r(''?r~.~,~
()
en
s::
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
N -..I
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
o
en ~
Reagent N4!e
Reagent ~:
/~.....
Hydraulic Fluids
Sunsale; fire resislant Univis 40
Hydraulic Oils
petroleum base PRL-high temperature
Hydrazine Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
petroleum base
" 40
Hydrocarbons Hydrochloric Acid
saturated 3 molar concentrated
20 20 cold hot
37 37 37 37 37
Hydrocyanic Acid Hydrofluoric Acid
anhydrous
48 cold hot cold hot
Hydrofluosilicic Acid Hydrogen
<65 <65 >65 >65 75
gas, cold gas, hot
Hydrogen Peroxide 90 90
Hydrogen Sulfide @
'~"
S"
n" C/)
~ <E" ;:l
t"-
o:., .,
l:l
u::
Hydroquinone Hypochlorous Acid Hypoid SAE 90 Iodine Iodine Pentafluoride Isobutyl Alcohol Isobutyl N-Butyrate Isododecane
dry, cold dry, hot wet, cold wet, hot
Swan Finch
N
co
·,·,..······,-','//,·,·.···1,"·','·.
@
S" ~
·,k··,
%Change
":;;';
'i:l
>.,
. v~lliirir';
Reagent .
r;' en
~ en
<E" ;:l
~
., .,
0-
DuPont Hypalon
Isooctane \,·23
Isophorone Isopropyl Acetate Isopropyl Alcohol
ketone
:'::-':
P
II::
fluid has lillle,looo effect , iinsat~I~.S.tory·ror use . i moder: 10 severil'effeliE,;;,
Isopropyl Chloride Isopropyl Ether ,'23
Jet Aircraft Fuels
~",
JP 4 JP 5 JP 6
JI~i~lJ~~mi~o(
23 23'
2,3'
Kerosine
10,
mo~~r~l~ eii;~,
,Huld has severe'. effeci
:':
" .;;
\ '23
Lacquer Thinners Lacquers Lactic Acid
Lavender Oil Lead Acetate Lead Nitrate Lead Sulfamate Light Oil Ligroin Lime Bleach Lime Sulfur Lindol
lacquer solvents cold hot
~.;
DTE petroleum ether of benzene
hydraulic fluid; phosphate ester type
Linoleic Acid Linseed Oil Liquid Petroleum Gas Liquimoly Lubricating Oils
moder: to Seyere effect ffuld ha;m!!~'9!igeJ'e~1
petroleum base SAE 10 SAE 20
""
SAE 30
"
solutions solution
Magnesiu-m Hydroxide solution
(")
s:::
".
1(:';:'
re~9mnjMif~M§iuS8'"
. ii~Jd~as 1Iltie!9nO etfect· .. reCOi1lmM~eiif~iu$e' .
Jruli! h~s'iiiW~\ono.elfecl
recommended lor use?
Magnesium Salts
en
.
unsatisJ@lMM~tu$e'"
LPG
SAE 40 SAE 50
Lye Magnesium Chloride
recommended tor use unsatisl.aCI~rYlor use "moder, to severe elfeel minor to mOder:effeet recommended for use un'sa.tlslaetorylor ~s.;
~
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
N
co
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
() CJ)
(J.)
o
:s:: rT' :k:~,
Reagent ,
.~.
Reagent Note "
,:.;" re~omme~dad
Magnesium Sulfate Magnesium Sulfite Maleic Acid Maleic Anhydride Malic Acid Mercuric Chloride Mercury
'\."
lor use
": ~. ",r
"'mlnor tj}mop9r, effect,., ,::}e~bmll1.ended lQr 'U,S8" lluidhas iittle IJ i\o~ff8cl (!recominended}or use
solution vapors
lltiid hast,lllIe 10;;0 8ff8~
Mesityl Oxide Methane Methyl Acetate Methyl Acetoacetate Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol
un~allsiaciory'll)iuse
ketone
i' mi~orio<nod8;:~ttect
'?n~~i~{a:-~rYf.oru~e., ' """
methanol 23
Methyl Benzoate Methyl Bromide Methyl Butyl Ketone Methyl Carbonate Methyl Cellosolve Methyl Cellulose Methyl Chloride Methyl Chloroformate Methyl Cyclopentane Methyl D·Bromide Methyl Ether Methyl Ethyl Ketone
@
"0
p
~
o' (I)
tl C\) (I)
tE'
Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Isobutyl Ketone Methyl Isopropyl Ketone Methyl Methacrylate Methyl Oleate Methyl Salicylate Methylaniline· Methylene Chloride Methylene Dichloride Methylhydrazine Milk Minerai Oils
MEK
MIBK
monomethyl aniline
monomelhyl hydrazine Univolt #35
;:l
t'"
.,0: .,j:l
tt::
IMotor Oils
Esso SAE 10
DuPont Hypalon
©
%Chang~
'1:l
S" ~
~eagent
en tl ~ en
Mustard Gas Naphtha
Reag!!nt Note
Volume
;:;'
% Retained Hardness Chan{!e'
Resistance Note
feco~m~J~~~igr us~, .
~
.,
0"
.,
P
It::
Naphthalene Naphthenic Acids Natural Gas Neats Foot Oil Neon Neville Acid Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
unsatisfactory for ~~!! ", , lIuldh~iseyeieeit~N unsatisfactory for' u.~~" rec~rninended for u~e tinsallsfaclory 'for . use r~~ommendeit for US8 unsatisfactory for use recommonded for use
8
8 3 molar concentrated
2 8
/'2.. 23
.2'
10 30 30 60
23
8
23 70 23
8
70
23
Oleum
textroxide N204, 1
lIuid has sel/ere eHect lIuid has linle to 1)0 effect • '. lIuid has sel/ele eflect
fluid~asmi~frto ~oJe;ete
40
eHect
lIuid ~~*-$el/ele effect unsatisJ~i:totY.for 'use
2 2 40::' ..
fJ~iq!1~~se\>er~e~ei:t
...
..
. 'iji~4~!:M~@@1:KM!Mr @~@MM!OiY'forii$e"
2 ·8
r~comm~~ded,f~r u~e,'
4 2
moder, to severe effect unsatisfactory for use
2" 2-
milior to' moder. effect unsatisfactory for use li1inor II; mOder:effetti moder. tose~'re effect ': fluid ~as minoftoinoderaJ!!.lteFl:' unsallslactory for. ulle
N-Octane
fuming sulfuric acid spirits 20-25
Olive Oil Oronite 8200 Oronite 8515 Orlhochloroethylbenzene Orthodichlorobenzene OS 45 OS 45·1
2 5 '2
for uSe
reCOi\lme9ded for use unsalislactory for use ,.
2'.:"
23
with 60% dinitrotoluene
". u~satisf.ctory
~.
Nitrobenzene
Nitromethane Nitropropane Nitrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol Oleic Acid
..
; ';
8
dilute inhibited red turning; IRFNA red fuming; RFNA red fuming
Nitroethane Nitrogen
DuPont Hypalon
unsaiistadory' for"us8 . lIuid.has se~ere .eHe.c{·
to' ;:s
Material Note '.
tiuid ha~ mlnorlo mod.e.rl!\'leltM! , ininor tomocm:elfiiCl" '.' :;~: ;"}'
unsali$fac1oryfo;~se ... ia' ';:u
OS 45 type III OS 45 type IV
()
en
s::
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
w --"
a(J)
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
w I'\:)
~
Reagent
Reagent Note
(%'-('C) '.'
OS 70 Oxalic Acid Oxygen
I
Hardness
co.nc.•. 1Tern..,: Time.,
~!lM9~.
(days)
Resi~tance Note'
Material Note DuPont Hypalon
cold liquid 2.1 MPa (300 psi); ASTM 0572
83 80
80 84
cold
Ozone 20 ppm; tested per ASTM 01149
DuPont Hypalon; bl.pig.; 1.9 mm slab; weath.res.
Paint Thinners Palmitic Acid Peanut Oil Pentane (N-) Perchloric Acid Perchloroethylene
Duco
DuPont Hypalon
Petroleum Oil
crude
Phenol with 30% H20 with 15% H20
70 85
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
3 molar concentrated
20 20 45 60 70 85
Phosphorous Trichloride Pickling Solutions 20% nitric acid. 4% HF 17% nitric acid. 4% HF
@
"tl
po
Picric Acid
~
n'Ul ~
Ul
cEo ;:l
t"-
.,o: .,$:l
te::
Pine Oil Pinene Piperidine Plating Solutions Pneumatic Service
H20 solution molten white
chrome others
©
'p"o ~
Reagent
Reagent Note
r;' Vl
tl (\) Vl
tE' ;::l
s:.,
0-
.,
P
u::
I I I
conc'l Temp, Tfme Load PqL I (%) ('C) (days) >~at'Dl! '
Polyvinyl Acetate Potassium Acetate Potassium Chloride Potassium Cuprocyanide Potassium Cyanide Potassium Dichromate
Volume
% Retained
s~;;~~:~:
I
g
MOdUlusJEIon 8tion
JH~ijl;§)~'
Resistance Note
Material Note
minor.lo.moder, ~lfect· U1\SatlsiacloryJoi ~S,.\ re~o'mmilOded 'Qr.use
DuPont Hypalon
.. '
emulsion
;:::::u
solution
Potassium Hydroxide dilute solution
Potassium Nitrate Potassium Salts Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Propionitrile Propyl Acetate Propyl Acetate (N·) Propyl Alcohol Propyl Nitrate Propylene Propylene Oxide Pydraul10E Pydraul115E Pydraul 230E Pydraul 29ELT Pydraul30E Pydraul312C Pydraul312E Pydraul50E Pydraul 540C Pydraul65E Pydraul90E Pyranol Pyridine
% Change
..--.-;;:
•iiu~ has,\itji~)ori~~ii'ci re¢o"lm'$rid~d focus. f1u;dh~;jil!i~ io lIo .•iiect . recommended for us~ ('"
oil
MIL-H-5606 MIL-F-25558 MIL-R-25576
chlorinated
.u~~c~:;~~~:e~··~~·~~~01;\.··' ~;::::~ ,fA
oCJ)
s:
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
w
w
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
()
en
w
~
s:: :.~.
Reagent;
/.'
Silver Nitrate Skelly Solvent
DuPont Hypalon solvent B solvent C solvent E
Skydrol500 Monsanto; hydraulic fluid
Skydrol 7000 Soap Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride
solutions
baking soda
soda ash solution
Sodium Cyanide Sodium Dichromate Sodium Hydroxide
20 20 46.5 50 73
Sodium Hypochlorite 5 20
Sodium Sodium Sodium Sodium
Metaphosphate Nitrate Perborate Peroxide solution
Sodium Phosphate
@
"tl
SO
~
n'V>
Sodium Salts Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soil Burial
dibasic mono tribasic
in topsoil
~
<Eo ;:l
Soybean Oil
~
..,
u::
SR 10 SR 6
97
99
110 112 128
104 136 123
97 83 82
DuPont Hypalon; 1.2 mm wire covering
..." .... ,·...·..,·-····..",·;w"···-··,.'
','·Y'.
-''''c''
DuPont Hypalon
t""'
P
104
fuel
@
"tl
S' ~
n'
'"t l
Stannic Chloride
'" 15' ;:l
~
.., ..,
0~
lr;:
u~salis.laclory for use .'
"
f1ui~ha$:~inor10 moderateeffec! "i'eunsatlsla~ioiy ~lcir~seHt{
(1)
frK~'~;~i1~j~~:"~ii:Cl;;i
Stannous Chloride 15
; u~sali~@!96i!#r.;~~#.;.'
Stauffer 7700 Steam
.IIUld has little to no etlect '}$~~ti$laClory .lor use'
Stearic Acid Stoddard Solvents Styrene Sucrose Sulfite Liquors Sulfur
'.
;ijM@~!@@)il#r@f
monomer
solutions
liquors molten
'unsatlsiaclory for use
"':-:"ii:j~Ci~j~~:~'KJ~W:~ , unsalisf~§\#fiJR(~S~'" " .... .....
dry liquidified; under pressure wet
gas
mOd~r, 10 severe eltect fluid has little 10 .no eltect .. . .:~:: }':'~"" -:..< .:::,::
23 23·
liquid
Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
mimH,tei moder. eltect ..
'M~M~';;og~h9m9~~(~I~i!(~~1
molten
Sulfur Chloride Sulfur Dioxide
DuPont Hypalon
;:-. ..
ia 20% oleum 3 molar concentrated dilute fuming; 20/25% oleum fuming, 20% oleum
23 ':~~:
>5 60 50-80 90 95 95
Sulfurous Acid
.
23 121' 23 .23 70 23
'S S'"
~3
6
':-:""mi,nor "'0 moder:.. elleeH unUlisllictoiy lor use.' fluid ~;js'$e~ereeff;ci ,'., unsatistactory for use . m;der. 10 sev~re etfeCl ,'" .minorto: moder. ell~et ;' moder, to s~vare alleel upsalistaclory lor use "'lluidhas modaral~ io~avere .:-:", . . elleet·:-:": ;'f1uldhas ljltla 10 .no elleet ..
8' 'S
\.~:/:
':
:
.
- ,.
.'. ':\:~: .. "
:~.
S S
50 :'~.,
70,
Tannic Acid 10 10
.23
()
en
~
-"
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
C..:l 01
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
(")
en s:::
Reage~l N,ote
Tar Tartaric Acid Terpineol Tetrabromomethane Tetrabutyl Titanate Tetrachloroethylene Tetraethyllead
P,' Time \Loaql•. e~~ COnC·ITem . (%) ····('C) (days) . "Ratlng
'>\'a
bituminous
8
8:
.2 . 2 8 2 '2'2.
blend
Tetrahydrofuran 2....
Tetralin Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Titanium Tetrachloride Toluene
2 2' 2 2
2:·· .2. ···.2
23; ~.
Toluene Diisocyanide Transformer Oils
? :2•../
Pyranol
6; 2
Transmission Fluids
Mobilgas WA200; Type A automatic type A type A; Esso Texamatic nAn
Triacetin Triaryl Phosphate Tributoxyethyl Phosphate Tributyl Mercaptan Tributyl Phosphate Trichloroacetic Acid Trichloroethane Trichloroethylene Tricresyl Phosphate @
::E
Triethanolamine
l:l
~ ;:;. VI
~
tEo ;:l
t""
c:., .,l:l
u::
e,.)
0>
Trifluoroethane Trinitrotoluene Trioctyl Phosphate Trisodium Phosphate Tung Oil
solution china wood oil
l:Iardne~s .Change
'. M!lterilil Note DuPont Hypalon
iC .
@
I
~ ~
~
Reagent
Reagent Note
Conc. Temp. Time Load ('C)
('f,)
r;'
(days)
POL Rating
(J)
~
(J)
t""'
.,& ., ~
u::
I I
Tens!I~: M9dUIl'S
Strength
Elongation ,.'
~esistahce
l:iardness Change
,
"
Turbine Oil
'i/····· :
2 2 2
23
2 2
#15: MIL·L-7808A #35
to· ;:l
Volume
.,.
.•. %Retalne.d
% Change
Turpentine Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon LB1145 Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 Unsymmetrical Dimethylhydrazine Varnish Vegetable Oils Versilube Vinegar Vinyl Acetylene Vinyl Chloride Water
lubricant oil; polyacrylonitrile glycol derivative lubricant
unsallslactory for us~
sev~re
tluid has
:~
,
,
8
I! 8 B 8
"
"
.
" oil
,
,
" unsymmetrical (UDMH)
i
."
drinking sail water .70 70
etlect
" " "
" "
" "
"
"
"
"
"
"
" " "
.
" " " " " " "
minor 10....moder. etlect ,. :'.':.:: unsatisfactory lor use
"
recommended lor use ..' '.
"
minor t9 moiler. eUect recommende\l filr use
2 6 B B 6 2 8 B 8 B
1' monovinyl acetylene
..
a
".,.,
" "
~.
8 8 B ' 6
" lubricant
· ·• ·· ·· · ··
"
recommenMdlci(use' .
8 B
J
" " "
DuPont Hypalon
·
..
~
8 8 8
"
,Material Note
Note
unsatislactory lor use mlnGOo modar.·effect
, , l
365
4
100
159
61
730 1095 2920
4 4 4
104 97 113
159 190
63 43 16
recomme~ded for' u·~e·"
.
::::
.
/
"
.~'
"
Uuid has little to no etlect
" "
·
DuPont Hypalon: 1.2 mm wire covering
70 70 70 100."
a
; ....• Uuid~asJiItl~tono.el!eC\, ...
" " " DuPont Hypaton
(")
en ~
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
cu -....J
Chemical Resistance - Chlorosulfonated Polyethylene Rubber
()
en
C.:>
(Xl
s:: I Reagent
;: ::~
ReagenfNote I
Whiskey White Oil Wolmar Salt Wood Oil Xenon Xylene
I·.··
c~n ..c.'.. ·.Temp'l. Time (%), ('C) (days)
Load
I'Ratlflg"'" P~L "".•1 •. •. •. .,
Volume '.',
s'"
&wines
2.
8 ; 4'
,s 23
Xylidine Zeolites Zinc Acetate Zinc Chloride
,I~charige
'.
mixed aromatic amines
2 2
.2 ,8, "
,:!
solution
Zinc Salts Zinc Sulfate
@
"I:l
~
(I) .....
(;, (I)
1? (I)
tE' ;J
t"'
.,0: .,>:l
c.e:
f1' 8
I
I'
%R~talned
:~
Hardness c:hange .·•.
,Resistance Note reeommended lor US6,' unsatisfactory lor use recommended lor use moder, to severe ellect reeommended for use unsatisfactory lor. usa lIuld h~s sever!! e«e'cl " unsatisfactOry lor usa 'IeCO(ll(ll~~~~d lor u~~ uri~aii$iaclRiY lor. U$',' ., recommendedioiilSe'''''' 'jl~i
Jeeommllndlldfoili?e, :.; "::f'"
If'
:':'::\
'M!lterial Note DuPont Hypalon
Chemical Resistance - Ethylene Acrylate Rubber
139
Reagent Acetaldehyde Acetic Acid
glacial
Acetone Aluminum Chloride Aluminum Sulfate Ammonium Chloride Ammonium Sulfate Amyl Acetate Amyl Alcohol Aniline Asphalt ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C Barium Hydroxide Beer Benzaldehyde Benzene Benzoyl Chloride Boric Acid Brake Fluids Butane Butyl Acetate Butyraldehyde Butyric Acid Calcium Bisulfite Calcium Chloride Calcium Hypochlorite Carbon Bisulfide Carbon Dioxide Carbon Tetrachloride Chloroacetic Acid Ch lorobenzene Chloroform Chlorosulfonic Acid Copper Chloride Copper Sulfate Cottonseed Oil Creosote Cyclohexane Dlbutyl Phthalate Diethyl Sebacate Dioctyl Phthalate Ethyl Acetate Ethyl Alcohol Ethyl Chloride Ethyl Ether Ethylene Dichloride Ethylene Glycol Ethylene Oxide Ferric Chloride Fluosiliclc Acid Formic Acid Freon 11 Freon 113 Freon 12 Freon 22 Furfural Gasoline Glycerin Hydrochloric Acid Hydrogen Hydrogen Sulfide Isooctane Isopropyl Alcohol Isopropyl Ether
© Plastics Design Library
2;!";C
23',j
20 30
~~~f,tt;8,/
"K
fluid has severe eflect fluid has Iitll: to no eflect fluid has severe effect fluid has little to no eflect
solution aqueous solution
solution
:r"
fluid has severe effect 2 "~j~ 23 fluid has moderate to severe effect 23 ., ~ "·.r> fluid unlikely to be compatible 23 L,.;)·!·;", fluid is likely to be compatible 23";'(8, . fluid has little to no eflec!
23
")'·ins);'
·f' 4 iC'.::)
23;:-..
50% isooctane, 50% toluene solution
23
:jo< '\'.; !'' ;';;.>;
23 23 $ 23·....
:".,
\
fluid has moderate to severe effect fluid has severe effect ffuid is likely to be compatible
•
fluid has severe eflect
solution
OFI-2023, silicone 2 3 · " ' ,•." 3-" :... 23
23\;.';~,.
23
solution
+. '.•",,'"
....
"Hi /
23;:
fluid unlikely to be compatible fluid has severe effect fluid unlikely to be compatible ffuld is likely to be compatible
•
5 20 ,~'..
23 232
"" .~ .•f ,f"
23
3'!!;:i ~);'
fluid unlikely to be compatible
~r
fluid unlikely t~, be compatible
~~ ?.'~;;~L,
.•
~~
23 ,'''\'':8-' 23 ' ....... " 23,'}"""" 8 .'..... '. .
solution
creosote oil
23 23 23
~4~'"
~~
23 70
3 223
i':~';~ 2;ii
.',., ;
solution
fluid has s:vere elfect
fiuid has little to no ettec! ffuid is likely to be compatible fluid has little to no effect fluid unlikely to be compatible fluid has minor to moderate effect fluid has severe eflect fluid unlikely t: be compatible
.L'" :..:r.. .·. ".
fluid has severe effect fluid unlikely to be compatible
;.!.:.. '~)h
fluid has minor to moderate effect fluid has severe effect fluid has minor to moderate effect ffuid unlikely to be compatible fluid has little to no effect
.••• /:n.", 23 23 '00 23 23 23
fluid unlikely to be compatible fluid has little to no effect
6" ., • ,,,
fluid unlikely to be compatible fluid is likely to be compatible
,g
•
23 23
,.::\i "",.. Ai
• fluid has minor to moderate effect
~~
)J:~ ~~;;;;:{
fluid has little t:'moderate effect
~~;]i
;",',
fluid has s:vere effect
23~t::}>··; fluid has moderate to severe effect H' '.:''', "78f ffuid is likely to be compatible
23
20
23
U"'}.,.
2 3 · " j p., 232 23
~~
"::
:;I:{;
);;3
fluid has little to no effect fluid is likely to be compatible fluid has little to no effect fluid is likely to be compatible
,....
fluid unlikely
t~'
be compatible
EACM
140
Chemical Resistance - Ethylene Acrylate Rubber
Reagent Kerosine Lacquers Lubricants LUbricating Oils Magnesium Chloride Mercuric Chloride Mercury Methyl Alcohol Methyl Ethyl Ketone Methylene Chloride
.., .;:,.
solution
23 23 23 23 23 23 23 23
Mineral Oils
Motor Oils Naphtha Nitric Acid
SAE 10 red tuming 10 30 70
Nitrobenzene Oleum Perchloroethylene Phenol Phosphoric Acid Pickling Solutions Pyridine Sea Water Silicone Grease Skydrol500 Soap Sodium Chloride Sodium Hydroxide
20·25
20
Monsanto; hydraulic fiuid solutions solution
23 23 70 121 23 23
EACM
··. ,.7"· '·8"
i~
. ':
7""" ..,8
j
~
fluid has little to no eflect fluid has severe eflect fluid is likely to be compatible fluid has little 10 no eflect fluid unlikely to be compatible
3 fluid is likely to be compatible fluid has little to no effect fluid unlikely to be compalible
fluid is likely to be compatible fluid unlikely to be compatible
fluid has little to no eflect fluid has severe eflect fluid is likely to be compatible fluid has little to no eflect
23 23
5
23 23
fluid has little to no effect fluid is likely to be compatible
molten
23 23 23 100 23 23
gas liquid
23 23
fuming, 20% oleum
23 23 23 23 23 23 23 23
fluid unlikely to be compatible fluid has little to moderate effect fluid has little to no eflect
23 23 23 23 23
fluid is likely to be compatible
15
>5 60 50·80 90 95
Tannic Acid Tartaric Acid Tetrahydrofuran Toluene Trlbutyl Phosphate Trichloroethylene Trlcresyl Phosphate Triethanolamine Trisodium Phosphate Tun Oil Turpentine Water Xylene Zinc Chloride
fluid has minor to moderate effect fluid unlikely to be compatible fluid is likely to be compatible fluid has little to no eflect fluid is likely to be compatible
20 73 20
Sulfuric Acid
8
.. 7 ,'-7.
23 23 23 23 23 23 23
~~.
3 ,,'7
23 23 23 23
17% nitric acid, 4% HF 20% nitric acid, 4% HF
Sodium Hypochlorite Soybean Oil Stannic Chloride Stannous Chloride Steam Styrene Sulfur Sulfur Dioxide
5
23 23 23 149 23
lacquer soivents Sunoco XS·820, EP
10
solution
solution
23 23 70 23 23 23 100 23 23
fluid has severe effect
fluid has little to no eflect fluid has severe eflect fluid is likely to be compatible
fluid unlikely to be compatible fluid has severe eflect fluid unlikely to be compatible
fluid has severe eflect fluid unlikely to be compatible '.2
'5 .~'.
a a-
fluid has severe effect fluid has minor to moderate effect fluid has little to no eflect
t,"
fluid is likely to be compatible
4
fluid has moderate 10 severe eflect fluid has little to no eflect fluid has severe effect fluid is likely to be compatible
a. . 2" 7
© Plastics Design Library
@
'1:l
P ~ n'
'"tJ
Reagent
Reagent Note
conc'ITemp'l Time ('llo)
('C)
23
'" 15' ...
\C:
I Hardness
<10
8
Acetamide
8"
23
Acetic Acid
Resistance Note
Material Note
recommanded for use little/no eflect'severe condo may cause changf ""'), '.' . fluid has Iilile \0 ng~fiect' "
(EPDM)
Change
23
;:l
... P
Elongation
Ii
Acetaldehyde
Cll
t: 0-
(days)
% Retained
IRating POL
recommended fortise' lillie/no effecHieve.re condo may. cause change ".
<10
8
6
glacial
lI'Iinor 10 modadiieci
4 8
23
2.9
8
8.6
97
92
A·9
IIIOder. to severl effect litlie/no effect'severe cQnd. may cause change fluid has minor to moderate effeci 'hlle/no effect·severe condo may cause change original hardness· Shore A72
23
2.9
7.
10.6
112
96
A·10
original' hardness· Shale 'A70
23
2.9
9
1.9
90
92
A·2
23
2.9
8
3.6
80
94
A·6
original hard~Js. Shore A52 original hardness'".Shore A60
23
glacial
aqueous solution
5 20 30 30 40
<10
5.
23 23
<10
8
30
7
6
11
12
93
86
A·4
30 70 70
14 7 14
'6
13 19
14 20 26
90 78 78
83 71 70
A·4 A·2 A·2
23 23 23
5
23
5 8 8 8 8
.original hardness·
.
~~~;e,;o.58 "'"".," .....
fluid ha~}ff\l8lo no .effe~t
2.9
0.8
106
99
A·3
origi~~1 hardiless'~~~re,~72
har~~e$s' ~h~i~ A70
40
23
2.9
1.6
113
92
A·5
original
40
23
2.9
6
108
99
A·8
original ~il(dne~~. Sh~(e AS.~
40
23
2.9
1.1
82
95
A·5
original hardn~, SharI A52
8
~
"
millorto model', effeCt IlUid is likely to b',:cO!Jlllalible ,
97 97
14
30.
8
96
98
A·3
93
98
A·3
.".
<10
2.9
3.9
83
87
A·7
23 >
2.9
3.9
87
96
A·9
23
2.9
·16.9
83
79
A·5
:~.:(::
' : : ~-:.
:.:.
Ausimont Dulrat TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bl.. cure·30min/160C ,'Ausimon! DUlral TER 044/E (EPDM); 100 phr TER 044/Ell00 phr foliat. laic; cure·30 min/160C Ausimon! DUlral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure·30 min/160C Ausimont DUlral TER (EPDM); 50 phr TER 044/Ell 00 phr TER 535/El50 phr FEF carbo bl, moon. visc-47 Ausimonl DUlral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure·40 min/165C
:,
(EPDM) DuPont Nordel (EPDM) (EPDM) Ausimont DUlral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclor H; cure·40 min/165C
U<:' .
.
~~..", ,',
6
~:;
... , recOinnie~d~~,f~~~~,e; fiitl8J~o effect·seve(~'cjin4/maY CaOse
Acetone 23
may cause 51. visible S~~\!'Io~'O! prop, originathardrtess· S~Qre ,6,60', .
DuPont Nordel (EPDM) (EPDM)
(EPDM) DuPonl Nordel (EPDM) (EPDM) DuPonl Nordel (EPDM) Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/E/50 phr FEF carb.bl., cure·30min/160C Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/Ell00 Phr foliet. talc; cure·30 min/160C Ausimont Dulral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure·30 min/160C Ausimont DUlral TER (EPDM); 50 phr TER 044/EI 100 phr TER 535/EI 50 Phr FEF carbo bl, moon. visc-47
recommended for use· fluid has Iiltle to no elfect recomm8nd~d for use
Acetic Anhydride
(EPDM)
;~;i' .\, c~~~~;j;j;f'i;(.< '. lI~id hu Ilft.l.e to'noelleC\ii
~;\.~ ~;.'.SJJ.·.•.·.',,•..•'\,.,"" ·'.O.\.'.~.·,A.'.".12. .•.
or,ginalh.. a.'.,d.·. .•. ." ,,, ..,
DuPonl Nordel (EPDM) Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure·30mln/160C
original h~~dnm:'~hOf;A7a'" .' Ausimont Dulral TER 044/E (EPDM); 100 phr TER 044/Ell00 ,""" " phr loliat. laic; cure·30 min/160C , ' ",., original hard~ess· Shore A58 Ausimont DUlral TER 535/E (EPDM); 200 phr TER 535/El140 > '::;~ ':f>:: >~ phr FEF carbo bl, cure·30 min/160C
m
:0
(EPDM)
6 hot, high pressure glacial
-0
DuPonl Nordel (EPDM)
~
Chemical Resistance - Ethylene Propylene Rubber
~ ~
Chemical Resistance - Ethylene Propylene Rubber
m
-0 :0
-t:>N
,
..
Reagent
Reagent Note
Conc. Temp. 'Time
Acetone
Acetonitrile
23
2.9
30
7
30
14
23
0-
'" <5'"
1? ;:l
t""'
& .,
.,
I:l
0.5
8 8
.
I
Hardne~s
Resistance Note
Material Note Ausimont Dutral TER (EPDM); SO phr TER 044/E/l00 ph, TER S3S/EiSO phr FEF carbo bl, moon. visc·47 Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Flectol H; cure·40 min/16SC
Change
-8.4
81
92
A-4
original hardness- Shore ,6.S2
2
85
76
A·2
original ha,dness- Shore A60
3
84
75
A·4
.
little/no effecl-severe condo may calise . change. .••
(EPDM)
<10
recommended 10' use lillie/no effect-severe condo may cause • c}lEll1ge
" "
un~@{laclory for use
" " "
no!~~!illble for service .•.
illcommendedlorllse ...
" <10
"
lillie/no effecl·severe conl!. may cause change fluid has 1~lIe to no effect
8
23 30
7
8. 2 1 8·
2.8
30
7
9
1.4
·3() •
7
9
1
111
102
original hardness· Shore A66
30 .
14
9
2.3
93.5
96.5
original hardness- Shore A63
r~coml)lended
110
(EPDM)
.....
not suitable for service original hardness· Shore A63 ..
109
14
9
1.1
103.5
110
original ha;dness· Shore A65
14
9
1
99
104
origi~al hardness~..Sho·re A60,.
73
7
8
25
99
102
original hardness· Sho(e A63
73
7
6
25
original hardness· Shore A65
73
7
7
24
102
o'rlglnal hardness- Shore A60
is
14
8
22
98
original hardness· Shore A63
73
14
7
24
105
original hardness- Shore A6S
73
14
8
22.5
98
original hardness- Shore A60'
8
<10
115.5
105.5
•.• lillie/no lllieWslliilliiicon&maycallsll change .
mtnortomode,eftett
>167 .
2
unsalisfacl~ryforus.~ ...
1 8'
not su~al)i$ for service.
..,,23
, ,
,8 2
" "
re.commend.e:d•.focuse.
8 6
'23
(EPDM)
unsallsfactory tor use
<161'
denatured
"
,
30
..
"
"
:~:~
<10 "
" " " "
..
reconimended lor use lillie/no effect·severe condo may cause 'c~~n~~ . . . .'.
..
unsatisf~cl0rYlor us~ •• ,.
" Ausimont Dutral CO (EPM); SO phr HAF carb.bUO.S phr Flectol H; cure·40 min/165C Ausimont Dutral CO (EPM); 60 phr FEF carb.bUO.5 phr Flectol H; cure·40 min/16SC Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.S phr Flectol H; cure·40 min/16SC Ausimont Dutral CO (EPM); 50 phr HAF carb.bUO.S phr Flectol H; cure·40 min/165C Ausimont Dutral CO (EPM); 60 phr FEF carb.bUO.5 phr Flectol H; cure·40 min/16SC Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.S phr Flectol H; cure·40 min/165C Ausimont Dutral CO (EPM); 50 phr HAF carb.bUO.5 phr Flectol H; cure·40 min/165C Ausimont Dutral CO (EPM); 60 phr FEF carb.bUO.5 phr Flectol H; cure·40 min/165C Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Flectol H; cure·40 min/165C Auslmont Dutral CO (EPM); 50 phr HAF carb.bIJO.5 phr Flectol H; cure-40 min/16SC Ausimonl Dutrat CO (EPM); 60 phr FEF carb.bUO.S phr Flectol H; cure·40 min/16SC Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Flectol H; cure-40 min/165C
original hardness· Shore A65
SO
Aero Lubriplate
" DuPont Nordel (EPDM)
for use
·······llM~ilsiiiCioiYfo{llSIl···
.,~::
2 8
,'.
"
<10
23
23
" Alkazene
7.
2 1 8'
" ..........
Adipic Acid
Aircraft Turbine Oils Alcohols
0.3
23 '.;..
Acetylene Tetrabromide Acrylonitrile
Aerolube Aerosafe 2300 Aerosafe 2300W Air
..
8
8
23·
~
Tensile I Elongellon Strength
I
•••. 8
Acetylacetone Acetylene
P
Weight Volume
7<1
23
Acetyl Chloride
@
% Retained
.
8
Acetophenone
"\'l
POL
% Change . (days) ~atln~
(·C)
(%)
.. ,.. ,
....
"
@ ~
po ~
IReage~t'
~::
~
I
Reagent
No~e
MateriafNote .:.:~
n' (I)
tl Cl>
(EPDM)
IAlum Aluminum Acetate
'l:"::". l"tiefnO~I'ec\-seYer';cllnd:maycatise
(I)
tEo ;:l
s:.,
0-
. . . " ·<.",~lllln~e""
.,
solution
>:l
.<'
r.eco"!m!~ge~:1~r.~~.~;><, .:¥::~. :·;.:i
Aluminum Bromide Aluminum Chloride
DuPont Nordel (EPDM) (EPDM)
L-
Aluminum Fluoride Aluminum Nitrate Aluminum Phosphate Aluminum Salts Aluminum Sulfate
~~~~j?i~;
solution
,origi/lal ha(d~ess; Shore -'60"
A-2
Amines Amino Acids Ammonia
38
30
14
0.3
1
93
84
A-4
38
70
7
0.8
4.8
98
88
A-2
38
..·70
14
2
5.6
97
85
A·2 ~
mixed
.
...
(EPDM) Ausimont Dutra' CO (EPM); 60 phr SRF carb.bUO.5 phr Fleclol H; cure-40 min/165C
(EPDM)
laclams recommeniled for use~
cold
",in~r to mode;. efteet.
hoi
reCOrMlended for:us;'; .
liquid
~er.·elteci.
minor to
recommended for
fluid is'likely to
anhydrous . 23
<10
gas, cold
23
<10
gas, hoi
23
"
ammonia water
30
I
7
0
30' solulion
30
23
95
.
AO
91
95
AO
96
96
A-2
0.2
123
96
A-l
30
0
102
92
A-4
30
-0.4
98
98
A-4
30
2.3
78
68
Al
30
1.6
106
79
A-4
•
.•
(EPDM)
:.:::
,:.,:""
.,
~.-~. ':;~
Ausimonl Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Fleclor H; cure·40 min/165C
.~
. original hardness'.~,:.:'
30
o
originalhardness,. Sh 'i'e'A60 " :?;;
-0.3
DuPont Nordel (EPDM)
may cause
~y'cau~e 51. ViSibl;swelIiIO$$o(piop. 92
0
ti'sli
be.~ompaiible
little/no eftec\.severecond; .. ·Cha.nge'
concenlraled
.
-'<:~,
shoieA7~:.}.-
Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.b!., cure·30min/160C
.::,"~~:C~:::'-::::_
,Jilil~e)~ard~~;Shor~
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E/l00 phr foliat. laic; cure-30 minl160C
A7,0 .,.
. .... .
m "U :c
DuPont Nordel (EPDM)
.> ;~
;oiig\n~lhard~'~~Shoii!iA~8
",f,
if
"'i ,.,'
""\V",,,:,, ':
• Ausimonl Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure·30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/El50 phr FEF carbo bl, moon. visc-47
\i·:.:;"{¥:i'/
. 'origin~1 hardrie~s':Shore A$2'
" ,,;".;;-
Chemical Resistance - Ethylene Propylene Rubber
....,.'.:' ':h,
Ausimont Dutrar TEA OWE (EPDM); 100 phr TEA 044/El50 phr FEF carb.bl.. cure-30min/160C
~
c.:>
Chemical Resistance - Ethylene Propylene Rubber
m
~ ~
-0 ::D
Reagent
Elongailori
Ammonia 2.9
30
126
R~~lstance Note
"/.
83
A-1
90
A-9
.
[~, :,
'.
ori~ina!~ardness-ShorilA!O
Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/8140 phr FEF carbo bl. cure·30 min/160C
Ammonium Carbonate Ammonium Chloride
Ammonium Hydroxide
(EPDM) aqueous solution
23
sal ammoniac
23
fluid hasliitla to <10
30
7
9'
o
90
95
AO
30 •.
14
"'9":'
o
90
95
AO
original hardness- Shore A60 ,.
(EPDM)
IiIUe/~oellecl-S~Va(e:cill;a;';;aycause"
<10
.
.. ·:.lIU\dhas!hl!~IO.~O i,IaCI
solution
DuPont Nordel (EPDM)
'ie{~(limeride~W~~e"
Ammonium Nitrate 2~ 50
'30
9
o
o
100
90
A-4
88 92 80
A-5
50
o
o
97
50
0.9 0.9
2.4
90 85
50
4.4
(EPDM)
litll~no~flect-s~~~~~~02d;flliIY,.c~~;e
<10
7
(EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
'. . ' (acomm~ndedfo(u~ey
8 ",8
cha~ge
original
harciriess~ Shor~ A60
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
AO A-2
Ammonium Nitrite
.recommended for·:use
•.••
.recommendeCfjorqse
.
<10
IhtlefnO~f1ect-s~~:~e~~O~~;~y.c,\~sii
<10
lillte/no allaci'severe cond.·may cause
solution
re~d~::::::jo;;~s::
10
Ammonium Phosphate
DuPont Nordel (EPDM)
.:.,?'
30 concentrated
~& affe~t
litiia/no.effecl-s.vera cond, maY cause '< . chariga .'.
30
23
Ammonium Persulfate
Ausimont Dutral TER 0441E (EPDM); 100 phr TER 044/8100 phr foliat. talc; cure-30 min/160C
(EPDM)
';;
."
dibasic mono-basic tribasic
lilii'e/no effect-seveie cona. may cause . change·) ..}:. ..'
<10
monobasic
7
20
9.
o
96
94
90
A-1
88
A-1
4.2
96 98 88
3.8 4.9
80 88 88 84 80
A-1
95 95 91 91
30 70
14
9
o
2
7
8
3.4
20
·70'
14
7
1.3 1.9
24
.30
7
@
It
o
24
30
"1:1
8
o
24
70
14
7
1.7
24
70
14
2.3
20 20 dibasic
;:;~
o'tJ> 1? tJ>
Ammonium Salts Ammonium Sulfate
t""'
0: ..,
..,~
u::
...... . .".
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
A-3 A-5 A-4 A-4 (EPDM) lIuid,has Iilt!a~~~o ell~~1 ,., . little/no allect-severe condo may ·causa ''j}.,<,., ch~~ge. ":.: : '. . origin~1 hardness' Shore:A60
)T}
h~i
solution
<0' ;:l
origlna"hardness;'Shoi~A60
A-1
<10
43
30
7
43
36
14
2
98
88
A-4
98
88
A-4
DuPont Nordel (EPDM) (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 minl165C
@
"1:l
S" ~
;:;. en
tl
l~ea9~nt
a~~genfNote ;))L:~·,:-:
."\, I' .' .
~.Change
o~~c:.h.~f~ idiW!'R~~kgW~19hIYOIUme
Ammonium Sulfate
% Reta.lned Te.nsne Sl~englh
I
Resis.tance Note
Material Not~
original hard~ess"ShQr& ASO
Ausimonl DUlral co (EPM); 60 phr SRF carb.bl.lO.5 phr Fleclol H; cure·40 min/165C
re.cQlJ)mended for use
(EPDM)
Elongallon Hardness I .
Ch~nge,
7
0.9
2.6
91
86
A-5
:6'"
2.4
4.3
82
84
A-5
~
en
lEi' ;:I
t0.., ..,I=l
Ammonium Sulfide Amyl Acetate
8 .".,8 ....
Iof'::'
.8"
"'2'
43
43
50
fluid' has lillie 10 no efieel moder)severe swen and/or loss of prop, . A - 1 6 ' ; original hardness· Shore ,1,50 . .
1 8'
43
38
43
A-16
4
u::
Amyl Alcohol
e.
".
<10
(EPDM)
'unsatisfaclOry for use
2 1
Amyl Naphthalene
unsalis!@!ilMlorusii, '.
2.
.1101 s~lt~~@I~i;~;yic'8
1
Anderol L744 Anderol L826 Anderol L829 Aniline
DuPonl Nordel (EPDM)
lor
'unsaiisfiido,y usa nOls"ilable hirse(Vlpe•...
2 1 '2
Amyl Chloride Amyl Chloronaphthalene
(EPDM)
recommended for uSe 1~lIe/no enecl,severe condo may ceuse cbange' f1uld has IiI", 10 n0'8f1ecl
'8 .
Amyl Borate
'unsailiifacioiyfor uiif
di-esler
:2
;
..
minono moder. effecl
dyes oils
6",
s dyes
8
<10
8.
<10
lillie/no eflect-severe condo may cause cbange
6 89
95
A-7
8
3
81
96
A-6
original bardness- Sho~e,A70
8
-6.9
89
92
A-3
original hardness- Shore ,1,58
-3.7
77
99
A-5
,., original hardness· Shore ,1.52. ' .' .,: .!::: .'
,':
5.5
90
96
A-1
5.5
89
96
A-2
DuPont Nordel (EPDM) Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure·30min/160C Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/Ell00 phr lolial. laic; cure·30 min/160C Ausimonl DUlral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/E/IOO phr TER 535/EI 50 phr FEF carbo bl, moon. visc-47 Ausimonl Dulral CO (EPM); 60 phr SRF carb.bUO.5 phr Fleclol H; cure-40 min/165C
fluid has "melo moderale eife<:l original hardness'- Shore A72
2.7
'·8
original
harJ~ess- Shore A60 ::~
7:' ,.' 6 6
Aniline Hydrochloride Animal Fats
DuPonl Nordel (EPDM) (EPDM) Ausimonl Dulral co (EPM); 60 phr SRF carb.bUO.5 phr Fleclol H; cure·40 min/165C
.
minono mod;efiiffect'
may catsesl. visible
'.
~;;MVI~~~~fP,!PP,}
(EPDM)
2
lard lard
Antifreeze
Prestone
i.
8'.J
recommend~d'fo@s8
m
""'0 :0
Chemical Resistance - Ethylene Propylene Rubber
~
01
Chemical Resistance - Ethylene Propylene Rubber
m
""U
--"' .j:>. 0)
:D
.. Reagent Note
Reagent ,",
Conc. Temp. Time I·C)
(%)
(days)
POL Rating
% Change
% Retained
Weight Ivolume
TenSile, 1ElonglUon Strength.
~
Aqua Regia 23
4
Monsanto
23
4
"
23
8
<10
23
8 8
<10
23
4,.
23
2 .1
unsalislaclory for use not suitable for seN.ice
23 23
2 1 3
nOI suil~ble for service fluid unlikely to be compatible
6
ASTM Oil No.1
lubricating oil
•
" ASTM Oil No.3
@
'1l
til
ASTM Oil No.4 ASTM Reference Fuel A
1?
ASTM Reference Fuel B
::;. til
~
0-;
P -;
u::
IitUelno effect·severe condo may cause change
~
(EPDM)
" " " " " " "
recommended lor use mUe/no effect·se~ere condo may cause change
"
moderJsevere swell and/or loss of prop.
" " " " "
"
unsailslacloryi()rus~
DuPont Nordel (EPDM)
2
4
11.2
11.5
59
69
A·5
22 23 30
7
27
34.9
59
66
A·14
"
"
7
3 2 3
56
55
A·l
ffuid has severe effect original hardness· Shore A60
DuPont Nordel (EPDM) Ausimont Outral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
30 70
14 2
2 1
29 50
62.7
46 49
46 48
A·8 A·16
" original hardness- Shore A65
70
7
1 2
82
100
45
49
A·21
.,
25
original hardness· Shore M5
Ausimont Dutral CO (EPM); 50 phr HAF carb.bl./5 phr Zn Oxide/0.45 phr sulpur. cure-40minl165 C
:~
" Ausimont Dutral CO (EPM); 50 phr HAF carb,bl./5 phr Zn Oxidel0.45 phr sulpur, cure·40minl165 C
"
"
unsalisfactory lor use
(EPDM)
30
7
3
33
58
55
A·9
original hardness· Shore MO
Ausimont Dutral CO (EPM); 60 phr SRF carb,bI./0.5 phr Flectol H; cure·40 min/165C
30
14
2 2
38
56
53
A·14
." "
"
22
2
3
31
38.8
48
54
A·12
22 23 30
7
93
111
33
34
A·20
7
1 2 3
56
58
A·9
lIuld has severe effect original hardness· Shore A60
30 70.
14 2
2 1
40 132
157
56 31
53 30
A·13 A·20
original hardness· Shore A65
Ausimont Dutral CO (EPM); 50 phr HAF carb.bl.l5 phr Zn Oxidel0.45 phr sulpur, cure·40min/165 C
70
7
1 2
144
171
31
31
A·21
" .-"
" " "
.
, ..
2 -
. }23 ,.
34
ASTM Reference Fuel C 23
Ausimont Dutral CO (EPM); 50 phr HAF carb,bl./5 phr Zn Oxidel0.45 phr sulpur, cure-40min/165 C
"
" DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0,5 phr Flectol H; cure·40 minl165C
"
"
(
'2 ';: 2
2 2 2
"
original hardness· Shore A65
"
,.'i':.
" tluid has severe e,ffecl
2 23
50% isooctane, 50% toluene
minor to moder. e f f e c t ; swell and/or loss of prop.
moderJse~ere
'l'~
22
,
<5' ;:J
minor to moder. effect moderJse~ere swell and/or loss of prop. ;
6
Asphalt
~
recommended lo.~ USe
23
Arsenic Trichloride Askarel
~
moder. to se~ere effect :. moder Jse~ere sW~1I andlor loss of ..prop.
Monsanto
Arsenic Acid
Malerlal Nole ~.
8
Aroclor 1254
ASTM Oil No.2
Resistance Nole
4 4
Argon Aroclor 1248
Aroclor 1260
Hardness Change
I
!
l
,.
"
DuPont Nordel (EPDM)
unsaUslaclory torO'e ffuid has severe effect
(EPDM) DuPont Nordel (EPDM)
unsalislaclory lor.use lIuid has severe effeC1
(EPDM) DuPont Nordel (EPDM)
@
% Change
"tJ
P ~
n' C/)
~
Reagent
Reagent Note
I
I'
conc., Temp. Time PI}L 1"'1 I'CI (daY~1 Rating
Barium Chloride
8' 8>
23
aqueous
W~'ght
I
Volume
% Retained
I
Tensile Elongallon Strength
I
<10
C/)
<E'
27
3D
7
t:0., P .,
27 27 27
30 70 70
;=!
lC::
. ,(I',
o
14
9
o
7
7 7
1.3 1.3
14
Barium Hydroxide solution
91
A-I
97
87 86 84
A-2 A-2 A-2
81 81
20
30
20 20 20
30 70 70 '
14 7 14
9
o
9 8 7
o 1 2
1 4.4 S.9
100
91
AD
100
89 86 86
A-2 A-2 A-2
97 96
recoml1lended lor us~ little/no effect-sevel~ condo n;ay.cause . . chan'ge . Orig!~al.ti'ard;{~- s~;;r~~~o .,
DuPont Nordel (EPDM)
8'
aqueous
23
8 8
aqueous
23
8
Beet Sugar Liquors
<10
lillie/no affect-severa condo change
8 8
recommended for use Iftlle/no ellett-savere condo may' cause chang. recommended lor use fluid has little to' no affect
. If
'recorii!!isndedloiliss'
ligroine
<10
<10
little/no effact-severe condo may cause change
23
.8 8
<10
IiItle/no effact-s~~~~!nd. ~y c~use
23
5 2
23
l'
23
2 1 \.,
23
Benzenesulfonic Acid
4
"
j
~:.:
1
(EPDM)
DuPont Nordel (EPDM) (EPDM)
iecommendedloiuse .
DuPont Nordel (EPDM)
flu.1d has minor to IT\Oderale effect unsatisfactory lor. use. not suit~bla.for.servica nukl has sevare elleci not suitable for service
(EPDM) DuPont Nordel (EPDM) (EPDM)
unsalisfactolY lor usa
2
23
Ausimont Dutral CO (EPM): 60 phr SRF carb.bl./O.S phr Flectol H: cure-40 min/16SC
may cause
8
Benzene
(EPDM) DuPont Nordel (EPDM) (EPDM)
;v-:~
23
Benzaldehyde
Ausimont Dutral CO (EPM): 60 phr SRF carb.bl./O.S phr Flectol H: cure-40 min/16SC
recoml)lended tor use
8
Beer
moder,(~e~,re~*~!!in~!dilSs of prop.
~_J~
"
;;~t!~~f~~i~;~~~:!'1ii
, •... "
: DuPont Nordel (EPDM)
A ·,···.·inmQrl~,~~erM>~t~FVi·I'··
Benzyl Alcohol
(EPDM)
< I D A little/no elhlct,severa.:cond/may: cau5.a
23/
j1/:
<so
7
0
3
92
87
A-S
30
14
0
4
87
85
A_6
Benzyl Benzoate 23 ;,
m -C :::c
Material Note
recommended for use lIuid has little to no elfect little/no effec·t-severa condo may cause change original hardness- Shora A60
<10
8 7
Barium Sulfide
Benzoyl Chloride
100
8 8
23 23
Barium Salts Barium Sulfate
::::::::~:.
2 3.1 4.1
Resistance Note
Hardness Change
i"
tL
...c~a~~e;;\,n?i/ >
original h!lr~~!~s'~hoi'e;~60
, .:"
"',,,,,~p~Mi
.
m~'OrlOmo(j6[i~triljh>
Ausimonl Dutral CO (EPM): 60 phr SRF carb.bl./O.S phr Flectol H; cure-40 minl16SC (EPDM)
may ca,u~e' ~I;visibl. ~w.'lIlo.$.s 'o!~io.jl'
.j::>.
Chemical Resistance - Ethylene Propylene Rubber
--I
Chemical Resistance - Ethylene Propylene Rubber
m -u
.J::>eD
:0
% Change Reagent Note
Reagent
('C)
,,
23 solutions lime bleach
23
~
~
8 8
<10
solutions
23
:.
8
<10
23 23
8 8 8
"
23
8 8
solulion
23 23
8 8 8
mixture
Boric Acid
automotive Delco Girting Mopar non-petroleum Wagner 218
7
9
0
5 5 5
30 70 70
14 7 14
9 8 8 8 .8 8 8
0 1.5 1.7
l
:, , 23
SAE 70 R 3
120
23
Bromine
"1:l
Bromine Pentafluoride Bromine Trifluoride
~
Bromobenzene
po ri'
23 mono bromobanzana
tl C1l VJ
;:l
t-<
0: ..,
..,
~
<.t::
Bunker Fuel C Butadiene
fualoil
93
100
A-I
93 90 90
100 100 96
A-3 A-l A-2
0
<10
8
5
8 8
<10
23
:
" "
103
"
" "
" " DuPont Nordel (EPDM) (EPDM)
" "
" DuPont Nordel (EPDM) (EPDM) Ausimont Dutral CO (EPM); 50 phr SRF carb.bUO.5 phr Flectol H; cure·40 minl155C
" " " (EPDM)
" " "
" " " Ausimont Dutral CO (EPM); 65 phr HAF carb.bUO.5 phr Flectol H, cure·1S min/150C (EPDM)
unsatislactory lor use not suhable for sarvice ffuid has severe effect may causa sl. visible swelUloss of prop.
" "
" nof suitable lor service unsatisfactory lor use
" not suhable .lor service •.
" ..... iiiOdeno savere affecl .•.....•.•
" "
recommended for use· little/no effect-severe condo may cause change
unsatislactory for use
.... ~ .......••••.•••
1
" ·····,ecommeiiiieiiloiuse
mllelno ellect·severe cono. may cause change IRHD 70; loses S IRHO hard..pts.
!
2 6 2
23
"
"
1
23
not SUitable for servici·············!ecommeriiieiiloitise·.
" "
8 8
2 2 1
urisailslacio;yloitise ".
" <
r
,
.2 23 23 23
VJ
~.
5
(EPDM)
recommended for use ffuid has IhUe to no effect little/no effect-severe condo may cause change orlginaf hardness- Shore A50
8
Brines
@
3 6
unsalisfaclo,ry for use notsui)abl~}orseryice..
"
<10
30
Material Note
recommended for use ffuid has Iilde 10 no effect IhUe/no effect-severe condo may cause .... " . Change ,ecommeriiiedioruse" fhUe/no ellect·savere condo may cause change
<10
"
Resistance Note
littlelno effect'severe condo may cause change
<10
5
"
anhydrous anhydrous liquid bromine water
Hardness Change
.;.h., .
Borax
Brake Fluids
Elongation
2 1 2 1
solution solution, sodium borate
,I
....: ·~tfength
23
Blast Furnace Gas
Bordeaux
Weight Volume :Tensile
Ratmg
(days)
Benzyl Chloride
Bleach
I
P~L
Conc. Temp. Time (%)
..
% Retained
modeUsavere swell andlor loss 01 prop.
"
DuPont Nordel (EPDM) (EPDM)
" " " " " " " " "
@
"tJ
','
~
~~ag!lnt
P 0'
m
tl
.. R~agent
Material ,Note
Change
;,,~.:,
ullSa\l~ia~I~Wfoi~i~
Butane
m
to· ~
.,0P .,
Butene Butter Butyl Acetate
(EPDM)
.•...
,iuid'has nUnoli{ino~er~te'~(i$CI ,. nol ~~ii~~i~il~r(~ivl.~a '. ,.....
~
;:l
:~::
Hardness
Note
.,·~~~~S~~~%f~{~~~;j
2·Ethyl
DuPont Nordel (EPDM) (EPDM)
./
., ..... r~~~n:\flie~d~~f?!tI~~>.;T .'.
•,.,'>., •. "iriii'iohomo'dllietlecf,
moder}$evara $w~1I ~d/oilo" of prop.
23
fluid uiillk.aly to beco~patibl" :..
23
23
2.9
23
2.9
55
70
A-15
original
h~idn&;~;~,il~r~A72
-9.6
48
79
A·18
or'gina\
hiidness.S~~"lA70
·20.2
89
85
A2
original
18.6
'4
.~:<
~.3, "
2.9
23'
2.9
'·"·3~.:,·
7
har~~~::s~~~.Afi~
Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl, cure·30 min/160C
31.4
75
A-12
9rlginal
39.7
39
58
A·20
~iiginalhNdnm~S~oi~:A65f .... ... .....,., ... ..(::;..
7
20.5
26
55
67
A·15
14
30.1
38.2
39
58
A·20
20.5
2.9
2 ....'
,
",
Ausimont Dutral CO (EPM); 50 phr HAF carb.bl./5 phr Zn Oxidal 0.5 ~Iactol H, cure·40 min/165C
~:::::~:::':.:
,'.,
&rI9Inal. h~;~n;ssr$hQ~;""59
26.6
52
66
A-18
::::::::.,~~;~:~~:~:;:~::
35.1
27
55
A·25
origi~~lh~rdness.
':':-
AU$imont Dutral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzena oil. cura·40min/165C AU$imont Dutral CO (EPM); 50 phr HAF carb.bl./5 phr Zn Oxidal 0.5 Flectol H, cura·40 min/165C ..•.
Ausimont Dutral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzane oil, cura·40min/f65C
:'?,':
Shore 1.52; .
. ,'~" .
",,12
100
2.9
2
57.7
38
66
A·32
origin,al hardn'!SS- Shoie , , .... -.
100
2.9
3
31.8
37
82
A·45
o,i~inal hardness- Shoi'aNO
100
2.9
7
1.8
89
79
A-l0
-,~;,
Ausimont Dutral TER (EPDM); 50 phr TER 044/E1 fOO phr TER 535/E1 50 phr FEF carbo bl, moon. vi$c·47
, Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044lEl50 phr FEF ca'b.bl., cure·30min/160C AU$imont Dutral TER 044/E (EPDM); 100 phr TER 044/E1100 phr foliat. talc; cura·30 min/160C
Origin~lhardn~'.Shore~58
---
Butyl Acetyl Ricinoleate
Ausimont Dutral TER (EPDM); 50 phr TER 044/E1100 phr TER 535/E1 50 phr FEF carbo bl. moon. visc·47
53
3«('
14
haldo.$s.S~oie As2
1.4
30
1,00
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E1100 phr foliat. talc; cure·30 min/160C
.. '"
,
. 30
DuPont Nordal (EPDM) Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E150 phr FEF carb.bl., cure·30min/160C
Ausimont DUlral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl, cure-30 min/160C (EPDM)
<10
Butyl Acrylate Butyl Alcohol
butanol butanol
23 23 23
~;l
n·butyl alcohol
may.~aij$e
6'" ;;.
2.9 2.9 2.9
-5.5 -26.5 -27.8
91 105 90
90 96 89
A-5 A-3 i
A14
-13.6
88
95
A-l
4
82
75
A-4
4
74
70
A-4
$1. visible
$wellllo~of prop'
oilglnal hardness; ShoreA72 , '. ",. .'
, ,
'( origmal hardness· Shore A70 original
~.ardoess· s~~re A5~
.... . '":':. '>.
origin~(hardneWStlO(e A52
O;iginalh~;d;;esS:~~6;e~io,., :.:::';; :::};:'.
'~;r~ :~i-: : : !: : : :
:·;;!4:··
Butyl Alcohol (tert·)
.::
,('
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044lEl50 phr FEF carb.bl., cure·30min/160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E1100 phr foliat. talc; cure·30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/E1100 phr TER 535/E150 phr FEF carbo bl, moon. visc·47 AU$imont Dutral CO (EPM); 60 phr SRF carb.bl.lO.5 phr Flectol H; cure·40 min/165C
" (EPDM)
Butyl Benzoate Butyl Butyrate
m
-c
:D
Chemical Resistance - Ethylene Propylene Rubber
~
(0
Chemical Resistance - Ethylene Propylene Rubber
m
"""U
01
o
:0
Reagent
Reagent Note
conc·ITem p ., Time (%)
('C)
23
Butyl Cellosolve
Material Note (EPDM)
;" 6
recommended for use liltIe/no effecHevere condo may cause chang,!;". " nimorto moder. effect;,
6
may cause sl. visible ,sweliJIoss of prop,
<10
8 Union Carbide
<10
4
moder. to severe effecI
23
2 1
unsalisfaclory lor use not suitable for selVice
23
6 6
may ~~~~e~l:yi~i~l~s~ell/l~ssoLprop, '
Butyl Stearate 23
Butylamine 23
Butylene 23
Butyraldehyde 23 23 30
7
30
14
Butyric Acid
minoi tomodei:effecl
if
'miiloilomoder:'eftecl"
4'
moderJsevere s~eU and/o~,loss o,~ prop.
2 6 2 1 8
unsatisfactory lor'use " may cause sl. visibla swelli10ss of prop"
6
may cause sl. visible sW81V1os,s of prop. lluid has minor to moderate'effec!;,:,
unsatisfactory lor 'use nqtsUitable for~e!v.ice,
mlnorto modei:8ltett
5' 4
14
14
74
74
A-5
4
14
17
63
62
A-7
6
23
3
Calcium Acetate
8
23
1
23 23
;,"'"
Calcium Bisulfite
8 8
23 23
solution
@
'1:l
7
9
50 50 50
30 70 70
14
9 9 :). 9 8'
Calcium Cyanide Calcium Hydroxide
8
30
7
14
o
o
96
87
A-4
o
0.5 0.5 1.5
94 94 94
90 92 88
A-2 A-2 A-2
0.2 0.4
t"-
..,o:
..,
!:l
tt::
(EPDM) DuPont Nordel (EPDM)
recommended for use not suilable for selYice
(EPDM)
DuPonl Nordel (EPDM) (EPDM)
fluid has lillie to rio effect lillie/no effect-severe condo may cause change original hardness- Shore A60
DuPonl Nordel (EPDM) (EPDM) Ausimont Dulral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
recommended iotuse'
(EPDM)
lluld has lilde 10 no ellect lillle/no effect-severe condo may cause change
DuPont Nordel (EPDM) (EPDM)
8.,
soluIion
23 23
,8
8
<10
til
;:l
minor to moder. aill!ct fluid unlikely to be C~;;;~~tible
recommended fo.l use
8
50
DuPont Nordel (EPDM) Ausimonl Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fieclol H; cure·40 min/165C
lluid is likely 10 be compatible not suitable lor service
;'1
Calcium Carbonate Calcium Chloride
original hardne$S' Shore A60
'unSiilsfacioi)iloi usa'
2 solution
recommended lor use effect·severe cond: mey cause change
8
Butyl Oleate
tE·
lilt~/no
23
Butyl Ether Butyl Mercaptan (tert-)
i6'
Resistance Note
l!
Butyl Catechol (tert-)
til
% Retained
8
23
~ ;:;.
I
POL \Velght Volumo TenSllo' Elongation Hardness (doys) Rating Strength Change
Butyl Carbitol
~
%Change
I
8
Calcium Hypochloride Calcium Hypochlorite
recommended lor use 'u
II 23
8
<10
mUe/no effect-severe condo may cause change
%'Cban~~ .
@
'il
S"
~ ;:;.
'~"
'" to· ;:J
Reage~t Note
:Reagent Calcium Hypochlorite
..,i=l
It:
Calcium Calcium Calcium Calcium
.
Resistance Note
8
lIuid his 1"lIe 'to no effecl
23:.
8
"
23
8 8
<10
lil~itl~O~~:~~a!~g~::d~~;ca;:~
DuPont Nordel (EPDM) (EPDM)
"",
II ·U/:·:"
8 8'
<10
8" 8'
liquors
8 8
'23
<10
8 6, ·6
liltlelno ~fleel.sev~f~ :~nd. may cause . ,~hMg~) . recommended lor use
Iittlelno ellect-severe condo may cause' change • recommended lor use ,. minor to moder: ~lIecl
"
23
6
maypause.~!.visiblesVi~JV!o.~so.,.prop,
Calgon
23
6 6 6
minor to moder. ellact may caus~ sl. visible sVieIVIOSs·ofprop.· minD! to moder. ellect
phenol
:'23
6
Carbolic Acid
, .' l1latc,!\\s~ SI,~j~i~I,~.Vi~,0Mto.!P(o.p,. ···Ilri'satisfactorY!cir9s{···· not stit'lble lor service fluid is.likely to. be compatible )n1nOr to mcider; effect'
2
Carbon Bisulfide 23
1. 7
23
'6:":'
dry wet
lIuki is likely lo"be compatible
7
23 Carbon Disulfide Carbon Monoxide
6
may cause sl. ~isibl~swel.vi;'sso! prop:
2 8
.uJlsatislaclory..lor··use " reco.mmended'for use" I,ll!e/no effecl-sev~re"cond: may cause
"8
23
<10
':~: ,"
g;r
,•
\·7 2
Carbon Tetrachloride
2
23
1
8.
Carbonic Acid 23
.8
<10
., 6.
Castor Oil
.?3 Union Carbide
. ~~
Union Carbide Tenneco Chemicals, phosphate esters
.23.,..",,"
23.
unsatisfactory lor usil. fluid has severuffecl" not suitable lo( ~lll:Vi~;: recommended lor use 1"lIelno ellect-.severe condo may cause . ' , change; •
DuPont Nordel (EPDM) (EPDM)
DuPont Nordel (EPDM) (EPDM) DuPont Nordel (EPDM) (EPDM)
miriQ't~.rii()der: e~'rl
'6i: ' 6·
Cellosolve Acetate
f1U~IS~,;h~;:;R911l~;il~I~.
may cause sl. v)sibl~ swel~~~s' .. f prop. fluid has .minor IO'mOdet1l1~ ~lIect." , minono./IiOder: effect···., . maY·caU$e~~;YiSibleswellf,los;~i prop. ',' minono "!Oder. effect'; ••..
6 5
23
Cellosolve
DuPont Nordel (EPDM) (EPDM)
6 . '''23'
.,. 6 .'..,.. 6 ,','
;, IllI'( ~au'se
<10
DuPont Nordel (EPDM) (EPDM)
sli·~isibl~swellflosiolpi~jl,
'1}ii~lel1feffecl;~;;:~~;~t 0~~~~~e i;
m
'1J
Material Note
..:."
',ecommen'ded lo"u.;!'
8
Carbitol
:0
""j .. .;.::
23
Cane Sugar Liquors Caproic Aldehyde Carbamate
Cellulube
~aitained
5
23
Carbon Dioxide
I
20
Phosphate Salts Silicate Sulfide
Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar
.
Cf~c'IT~~~r'l ~i:~ IFia~~gIW'!~~: I~OI"001~jit#i!tl Elongallon ,Hardness' Change
Calcium Nitrate
t-'
0: ..,
..
Chemical Resistance - Ethylene Propylene Rubber
01 .....
Chemical Resistance - Ethylene Propylene Rubber
m
""U
01 !':>
::D
% Change Reagent
Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents Chlorine
Chlorine Dioxide
Reagent Note
dry wet
2 2
,
"
dry wet dry dry gas moist gas wet
8 4 1 3
recommended lor use moder. to severe eHecl not suitable for service lIuid unlikely to be compalible
~ 4 2
"
23 23 23 23
8% CI as NACID2 in solulion 23
4 :;:'. '4
,
.,,' 2
25
23 30
7
25
30
14
23
23 Chlorobutadiene Chlorododecane @
IJ>
23 23 30
7
f?
30
14
~
r;'
t""
..,i=l
u::
7
88
91
A-4
5
7
82
89
A-4
Chloronitroethane
,
Chlorophenol (0-)
..
...,
,
" " " " " " " "
" "
,
;~/ ..
"
"
"
unsalislactory tor use
DuPont Nordel (EPDM) (EPDM)
"
" " "
unsa~islacloryforu's~
" "
not suitable for service
):
135
37
29
A-15
135
28
20
A-18
not suitable lor se,rvice lIuld has ~ev9ie effecl original hardness- Shore A6ll
"
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb,bl./O.S phr Flectol H; cure·40 min/I6SC
"
"
unsatisfactory lor use
(EPDM)
"
~~ls~it~~I~I,~(~er~ice,.
1'" ----"
" " "
nol suilable for service
2
,
DuPonl Nordel (EPDM) Ausimonl Dutral CO (EPM); 60 phr SRF carb.bI./0,5 phr Fieclol H; cure·40 min/I65C (EPDM)
6
2
(EPDM)
"
fluid unlikely to be com~atible minor to moder. effecl may cause sl. visible swelllloss of prop.
0,
2 23
DuPonl Nordel (EPDM)
recommended lor use lillie/no eflect-severe condo may cause . change
··
1", •, 2
I -chloro I ·nitro ethane
" " "
unsatisfactory lor use,.
'2
Chloronaphthalene (0-)
"
lillie/no effect-severe condo may cause change fluid has 1~lIe to no eflect or,ginal hardness· Shore ...6ll
<10
.'
IJ>
..,c;:
8 6
:";,2
Chloroform
" " " "
"
<10
2 ,:,1
23
" "
moder. to severe eHect moderJsevere swell andlor loss of prop. ' unsatisfactQ\yfor use not ,suitable j~( service minor lomodei;.if.Cl
6
Chlorobromomethane
"unsatisfactory lor use
, IllQd,~r Jsevere sVlell ~ndforlo~s~f~ro~. " '" " uosatisfildorY loiiise
2 2 1 1 3
23 23 23
(EPDM)
· "
. 2,
mono mono chlorobenzene
recommended for use
"
8 8
Ch loroacetone
;:l
.,
1 6 6 8
23
16'
.,
"
Chloroacetic Acid
'"
Material Note
Resistance Note
I
"
hexadecane
23
~
Hardness Change
8 8 ":2 2, .'.2
Chlorine Trifluoride
Chlorobenzene
% Retained
Conc. Temp. Time POL Welghtlvolume TenSile, \ Elongetlon (") ('C) (days) Rating Strength
' iinsaiisiaCtorY for use
" ,
, o w , ",x
..... .
" "
@
'1:l
S" ~
n-
,.
f·:
~i&n9atlQn
Temp.
Reagent'
('C).
R,eslstanc~ Note
,",I
.
Ul
tl
('I)
Ul
to-
Chloroprene Chlorosulfonic Acid
chlorobutadiene
~
98
30
7
~
98
30
14
lI:
filii
DuPont Nordal (EPDM)
test. specimenS,d\~~lyed; Shore.t60
Ausimonl Dutral CO (EPM); 60 phr SRF carb.bI.f0.5 phr Fleclol H; cure·40 minl165C
23
., .,
Chlorotoluene
;\:;;~:.ic':
0
:'<'~"""
(EPDM)
2
:.-
'1
23
Chrome Alum Chromic Oxide Chromic Acid
(EPDM)
.' riois~ita~18 for sel1liC~\
23
cr
\~
nOI suftabte for s~tvice' , ut\S~ti$faC;loiY f~r use
.23
;:l
Materja(Note
.i'
8'
aqueous solution
6
0.88
4 23,
4
23
2
DuPont Nordel (EPDM)
50
30"
7
7
0.5
4.5
76
75
A-4
50
'30, .,
14
7
0.5
5
68
75
A-4
Citric Acid solution
-
·'··.'~.·.II:i:C~:~~;~!::~O:·~::C;···
23 ~.
:.:
33
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI.f0.5 phr Flectol H; cure·40 minl1S5C
30
8
<10
littlelno
elle~;:seJ~i~;;Orid~~~y Cliusa "y
.
~
7
0
0.5
98
88
A-3
change····
origInal hardri'as,s:'Shore ASO :'<>.-:::: ".: . .:.,".:
·Y::.-
(EPDM) DuPont Nordel (EPDM) (EPDM)
" .\
Ausimont Dutral CO (EPM); SO phr SRF carb.bI.f0.5 phr Flectol H; cure-40 minl165C
~.
33
30'
14
9
0
1
98
88
A-3
33
70.
7
7
1.3
3.8
92
86
A-3
33
,',',i'i?R"·'·····
14
.]
1.5
5.6
88
82
A-3
Clorox
(EPDM) Chlorox
Coal Tar Cobalt ettloride
23 23'
2N
8
Cobaltous Chloride
<10
Coconut Oil Cod Liver Oil <10
Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate
Monsanto
<10
Copper Chloride DuPont Nordel (EPDM)
solution <10
(EPDM)
m
"U
:0
Chemical Resistance - Ethylene Propylene Rubber
01
(.,)
Chemical Resistance - Ethylene Propylene Rubber
m
""U ::IJ
U1
"""" Reagent Note
Reagent
Conc. Temp. Time ('ll.)
(days)
('C)
Copper Cyanide
% Change
% Retained
Weight Volume
TenSile. Elongallon Strength
I
POL Rating B 8
23
Copper Salts Copper Sulfate
I
Hardness Change
Resistance Note
10 50
<10
B B
Corn Oil
..
.
recommended for use
8 B 8
23 23
(EPDM)
recommanded for use litlle/no effect-severe condo may cause change
<10
B solution
Material Note
..
..
..
fluid has mUe to no effect lilUe/no effecl-severe condo mey cause change recommended for use
DuPont Nordel (EPDM) (EPDM)
..
23
4 4
moder. to severe effect moderJsevere swell and/or loss 01 prop_ :
23 23 23
2.9
4 6 6 8
-3.4
94
93
A-7
moder. to severe ~flect may cause 51. visible s"(elVloss of prop. 1Iu1d has lillie 10 moderate effect origina\hardness- Shore.,A72·
23
2.9
7
-26.1
94
85
A-5
23
2.9
8
-18.3
91
98
A-3
original hardness- Shore A58
23
2.9
B
-7.8
94
102
A-IO
original herdness- Shore A52
100 100
2.9 2.9
4 4
17.3 28.7
53 67
80 77
A-16 A-22
original hardness- Shore A72
100
2.9
4
2
56
79
A-24
original hardness- Shore A70
7
-7.2
91
A-15
original hardness- Shore AS8
Cottonseed Oil
..
DuPont Nordel (EPDM) Ausimont DUlral TEA 044/E (EPDM); 100 phr TEA 044/E/50 phr FEF carb.bl., cure-30minl160C Ausimont Dutral TEA 0441E (EPDM); 100 phr TEA 044/E/l00 phr folial. laic; cure-30 min/160C Ausimont DUlral TEA 535/E (EPDM); 200 phr TEA 535/E/140 phr FEF carbo bl, cure-30 min/f60C Ausimont Dutral TEA ~EPDM); 50 phr TEA 044/Ell00 phr TEA 535/EI 50 P r FEF carbo bl, moon. visc-47
original hardness- Shore A70 I
100
Creosols Creosote
o
23 23
"1:1
~
Cupric Chloride
CIl
CIl
lEi'
t
., .,P
0-
Cutting Fluids Cyclohexane
I I
30
7
5
3
3
68
68
A-4
30
14
5
3
4
58
62
A-4
...
not suitable for service ffuid has severe effecl unsalisfaCIOfylor use nol sulteble for service
.. original hardrisss:StioTe AGO
.
1 2
nol suheble lor service unsatisfaclory lor use
.
2 1
Ausimonl Dutral TEA 044/E (EPDM); 100 phr TEA 044/EI 50 phr FEF carb.bl., cure-30min/f60C Ausimonl Dulral TEA 044/E (EPDM); 100 phr TEA 044/Ell00 phr folial.lalc; cure-30 min/160C Ausimonl Dulral TEA 535/E (EPDM); 200 phr TEA 535/El140 phr FEF carbo bl, cure-30 min/160C
',:
(EPDM)
.. .. .. ..
DuPonl Nordel (EPDM) (EPDM)
..
Ausimonl Dutral CD (EPM); 60 phr SAF carb.bUO.5 phr Flectol H; cure-40 min/165C
..
(EPDM)
.. ..
not suitable for service
.
50
30
7
9
0.3
2
100
90
AD
original hardness-'Shore A60
50 50 50
30 70 70
14 7 14
8 B 7
0.3 1.3 2.7
3 2.4 3
94 100 92
85 88 85
AD A-I A-I
. . .
Ausimont Dutral CO (EPM); 60 phr SAF carb.bUO.5 phr Flectol H; cure-40 min/165C
isopropylbenzene
tI
. .. .
2 1
23
(1)
;:l
.•
23
methyl phenol
)
Cresylic Acid Crude Oils Cumene
r;'
unsatisfactory for use
2 2 2 1 2
coal tar wood
Creosylic Acid Cresol Cresol (m
S"
95
.
..
2
coallar creosote oil
@
2.9
.. .. .. .. ..
23
culling oil
2
1
i
23
;.
1
•
. .
unsatisfaclory lor use
(EPDM)
not suileble lor service
.
.
2
..
..
""""l~~~~~~~~~~--.c~~--cc~.--'~~-
@
's"~
"
Re~ge'rit
ri'
Ie}"'!"'. (,.
tl (1)
Cyclohexane
VJ
Reagen,
Not~ '1 COl)c·l±e.rn~~)fJ;.
,
!.%) •.•.
fIOIi~~1I0n
r{~;;i~[: (d:~)
28
Mat~rlal
Hardness Change
:/
.::
30/;
;::l
~
0-
Cyclohexanol Cyclohexanone
Cyclohexyl Alcohol
14
27
26
A-18
....
30
~ol
7
7
61
65
A-7
14
7
59
65
A-9
mod8:~:g~~:~~:~k~f~J~~~,:tPiOP"" un~alistatfc>ry}~~u~. .
Cymene (p-) " '23'
;.nC>l~uhabi&joi~~&.,~~·
1
~6
7
236
260
24
18
A-19
14
236
265
23
12
A-21
--;~:-:~-
Decane
, 23'
23.
.,,.·:~~~\t~~~j;:(~r~~' . ,('·
100
<10
Ihl,le/no
100
4
5
100'
31.2
5
100
62.5
}{
3.9
6
7"~
92
92
A-3
7.85
8.8
93.7
77
A-l
4
3.8
92
104
A3
3.5
3.3
87
109
A3
;~:~ntt~;~Wd:~~CB~~8" ···.:r '.
Shore AS?;
waSh~9 lIIa.i:~j.n.\.iO~.~. :? :.,
Shore A49; washing
"",c~l~e ,;in~;;;'
gas~elfor'l'l!I,.
original
.. \:::,;:V
.'
~~
Ausimont Dutral TER (EPDM); 87.5 phr TER 235/E2/42 phr TER 334/E; inj. cure- 120 sec/17SC Ausimont Dutral CO (EPM); 50 phr CO 054/50 phr CO S54/P/45 phr HAF carb.b!.. cur. 40 min-165C
maYEBU;~~~V;~~~ii~i~~}~~;!:;.pro:p,
(EPDM)
re~OI1lIll.n.dedlQt'll~e'
<10
IItt'efnO;eifecl'$~~t~;o,T\;~~.,caus.
<10
little/no
'. recommended lor. 'use '•.,
8 8'
).2'
Diazinon Dibenzyl Ether
ef1e~t,severe eondArili;' cause Qha~ge
>·Pt,;.: ,
unsatislacloly fG~ J{s"\, "
6 y ' " ' ' ' '~mot!().~d~i...~ecl
.• 23:&<> 23
~{
, .J'derjs:rr~W~it~~~;~~~i~;op.
····;a;.~e~;~~~!~j~i~~1S~:~!~J:·········
m
""0
Ausimont Dutral TER (EPDM); 87,5 phr TER 23S/E2/42 phr TER 334/E; compo cure- 20 min/l60C
Ausimont Dutral CO (EPM); 50 phr CO 054/50 phr CO S54/P/45 phr HAF carb.b!., cure-40 minl165C
, millo'r 10 moder.'ellecl."
23
23
:D
t"
h~idoet-:Sh6re'ASO""" •
photo
Diacetone Alcohol
Dibutyl Phthalate
(EPDM)
chang.·'.... .•• ..,.. .
4.8
4
gasketJormul. ...... ." •.
Dibutyl Ether
(EPDM)
Ausimont Dutral CO (EPM); 60 phr SRF carb,bUO,5 phr FI.ctol H; cur.-40 min/I6SC
solutions
Dixan d.t.rg.nt solution
Developing Fluids Developing Solutions Dextron Diacetone
Ausimont Dutral CO (EPM); 60 phr SRF carb,bUO,S phr FI.ctol H; cur.-40 minl16SC
Dupont d.cahydronaphthal.n.
Detergents
(EPDM)
····.·~~~·~~~1'it;~,~~]~illi;~I~;6~,
~,:'
Decalin
lJilsatl~fa~ioriiloi;@ii;;i
";
;' 23
isopropyltolu.n.
Note
'';'
Ausimont Dutral CO (EPM); 60 phr SRF carb,bUO,S phr FI.ctol H; cur.·40 min/I6SC
':':::':f:::~':k::~:
<0'
.':
DuPont Nord.1 (EPDM) A-15
VJ
.., ..,>l
--
Chemical Resistance - Ethylene Propylene Rubber
DuPont Nordei (EPDM)
()1 ()1
Chemical Resistance - Ethylene Propylene Rubber
m
-0
(]"I
0>
:0 ?~:
I ~~efllined ,I corC'lrelY\p, ITime lip~L yj~lghi IV~lu~et~r;:~;~lll~~~~llon .'. ("'I·· ('C) . '(days) ~atmg .:~ I
;
% Ch al1g e •
Reagent
'Re~gent Note '.' '
Dibutyl Phthalate
,30 '
7
.30'"
14
Dibutyl Sebacate
8·."
··.·f .
r
::-f:
Resistanc~ No~e
Hardness' Change
3
100
100
A-I
3
90
95
A-I
minodii'iiiode(effecf
..6
Dibutylamine Dichlorobenzene (0-)
';
···;@~¥&~~~t~isibje~w~t~qs~~ipr~t)
(EPDM)
unsatisl*\iorylo(\Ise . ; ;
'2·
mOde·~.fseve.r~'~.~jiand/ori~ss.011';011,
4
23
Material Note Ausimont Dutral CO (EPM); 60 phr SRF carb,bl.lO,5 phr Flectol H; cure-40 min/165C
·•• ····6· 23
:.:,..
,.
.Un~~~:~~~~~o,?-T~;~[~~
'::'..
'. notii9!1~~~J!i~Mwjc~, ."
23,
Dichlorobenzene (p-) Dichlorobutane Dichloroisopropyl Ether Dicyclohexylamine . 23
Diesel Fuels
2':.<-"
::::<"
2
modeUo seve'rireflect'·",; m~derA~v~r~~w;ii~.n~/~i1455 01 prop; uns~tisfaclOfY;to(use , n~I,;uitaille i4., seryice:" ..•. 'unsallsfsclQrY for u~e"i/x
,I.
diesel oil
.u$lllsfactpry 'to)::use nlii~ui;~bI~'i6rs~;~ice
.;.~
~':
Diethyl Ether
", ~nsallsf~cl~ry t~ril~e . '';4Is~Mble io(ie·ivic~... .original hludn8ss~~ii~r~A60
~~.
,23"
,;30:
;.: ~( '.
.n~I~~\la~I~Io(~ervic~
1
Diethyl Benzene
:
7
34
54
62
A·11
34
44
53
A-16
Ausimont Dutral CO (EPM); 60 phr SRF carb,bIJO,5 phr Flectol H; cure-40 min/165C
::""';
'i30
14
Diethyl Sebacate
2
2~\
:6 5
Diethylamine
23 •••.•
6 6
Diethylene Glycol Difluorodibromomethane Diisobutylene 2.~
.,,:"
~.~:: .. ~.
Diisooctyl Sebacate Diisopropyl Benzene
0' en
~ en
Dimethyl Phthalate
;:s
Dimethylaniline
<.5'
~
.,
te:
methyl ether, monomethyl ether
···23 .;~:<
.. :::~; .
23 ./.
xylidine
t"'
l:l
..23
..... 23.
Dimethylformamide DMF
',:23."
.,c 4 l' 6 6
6
,
change., to}n.9der,. eflect unsatisfactory,lol use .not's~it~IlI.~ior se&ibe \
"
.;,'>
ii:' · · · . .··.·.lIlOd.rlo·silI'M~)ifleH·
~
P
Inllefn~ elle~i~<;ev~le~nd, ';'ay cause ~lnor
.6 2'" 1
. . :&
.····m~y:~~~~:ti;~;~~:~~ia:~;,~f'pr~~:i .<. recommended lor use·.···
<10
::;.unsalis,fac!ory lor use· npisult~~iAfor:sei,vi6~ _, .
,."
Diisopropyl Ketone Diisopropylidene Acetone Dimethyl Ether
.'
·2·.. . '
'tl
~
1!'!11!rl!l~mm~iI9'9i~~~'a!~:M!~~" '
8'
. !l'\
(EPDM)
"1lnolloino~er,efle~l . .••. may causesl.visib'esw8lVI~SS 01 prop,
6.
23
@
'.
<10
\ . , ·j·i:?mT~ti~il~:~o('u~~:,\' . . iittlefno .ffec!:s;eveiecond,i!tay c:a'use
'"
.<~~~~~e
.
' j
hi\ld.H.e'~(."~~~11.1itId/oi··ioss6f::p(6p;;
'. nOl suliable for service· ~,v
:},.
: ..::.;"/
m~Vcau~l~i.IJ~i~~Wei~;~lof pr.~~, minor to mode'" etlect
:,. 6
mil' st\~~.$;., l'iSibieswelVl9~s of prop' '...
"·6 .,' 6
m~~"c;~;jff~~~~~a.:~~~JI:~PJ.pr~p~) ••
DuPont Nordel (EPDM) (EPDM)
. % Chan~;; I
@
'il
S" ~
n' (I)
t:l
[R~agent
Reagent Note
C'C)
[%)
IOimethylformamide (N,N-)
(l> (I)
tEo ;:3
t
..,Cl" i=l ..,
I
%R~tained
7
5
4
73
77
A·3
14
I?
4
73
77
A·5
IDinitrotoluene
.:
·'-1
IDioctyl Phthalate
6
L
7
5. 6
11
90
95
A·5
14
6
11
89
95
A·5
Oioctyl Sebacate
6
Dioxane
6 6 6 6·
Dioxolane
6 2 1
Dipentene
biphenyllphenylbenzene diphenyl ether
11 200 220 33 4 5 510 55 550 710
ii\iriodomod"r;elie.Cl .•'., .•. .
j
e
.'llj,$i,lisl#iolY1oi'iisQ': t~i. ~~~ice
'. not. ~U!la.bl~
u~tistaclory'lor US8 ..
~ot.suilablll iorserVice."r recommended for'use" ~
u>;/
".
'.
."
a
solution
,~;
2····
oil fluids, Dow Chemical
23
'1
a
50
2
23
2
23
2 1.0:.
~;.
1
nOlSUit.bl,JOr'seryi£a i~eOriiiiieriiie(ioiiise. diiSiiiisfacioijloiuse
fluid has seYer~ effe;1 unsatislaClo!y to! u,sa ,. nOI sUilable lor seivice
miriollo' mo.d~~~.effacl·.. .' may causes!. y;siblsswe!U!c>-ss9! prop. fluidh"!sonlnOi 10,Todef~I!;'ff.8~t ..
8
iec~!iiiieifioiiisa
2
mono ethanolamine
..':
6 5
6
resins
.
Ilrisatisfactory for use
.......•.. . . . u.nsiiiisfaciory'Iofusei'"
l'
n~l suilabiaf6(SelVic"
.8
. r!~~!!,rn,end.dl~!yse .•...
6 ; 6'
····4.
DuPont Nordel (EPDM) (EPDM)
DuPont Nordel (EPDM) (EPDM)
~~lriorl01~~f:,;~e:t~f'
m.oder, 10 sev.re •.1jecl\:"
.....
m
-u
(EPDM)
may cau~ast yisibl. sW8UIl~. of prop. < minor tomoder.e~1 may cause stYi~ibl~ sw·ellil.~ 01 prop. Ilris .lisfactory lor lisa . nOI~uil~!>1e (or.se!:Yi£a..•
8
23"
::D
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.S phr Flectol H; cure-40 min/16SC
8 ....
23 23
~
.':."
.·iiJliiilfio·moji8(:'ffec,·'.
a
Epichlorohydrin
Ethanol Ethanolamine
(EPDM)
m"!Y;~8~~~!;~i"i~18~!81Y1p~9ipr9'bi
8
Dry Cleaning Fluids
Epoxy Ethane
·nuo7:~:;::~111~~~~ee.
.may cauSa si. visibhl;swall/loss ol:prop;;' .lluidhas ",inor 10~de';;18·efflicl .. original ~lirdness .. sh~re 1\60 .
2 1 8 6 8 8 8····
Diphenyl Oxide
Dowtherm 209 Dowtherm A
Ausimont Dutral CD (EPM); 60 phr SRF carb.bUO.S phr Flectol H; cure-40 min/16SC
.....
2 1
Diphenyl
Material Note
:oflginal hardna... Sh'''..··J'60
····\r
6
It::
Not~ p
2
DNT
Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dow Corning Dowtherm
. Reslstanc~
POL WeighIEI~n9.i1~n Hardness (dayS)' Rating "Change
conc'ITerTip ., Time
Chemical Resistance - Ethylene Propylene Rubber
(]l
'-I
Chemical Resistance - Ethylene Propylene Rubber
m ""U :n
01
ex>
% Change Reagent Note
Reagent
(leo)
: ...C.'.
Ethyl Acetate
% Retained
POL wel9htlVolum. T.nslI.r!!'ElongatlOn Hardness (days) Rating Str.ngth • Change
('C)
,
6 6 2.9
8 5
11.4
70
81
A-l0
minor to moder. effeel may cause 51. visible swelll10ss of prop. lIuld has lillie 10 no elleet original hardness· Shall A72
23
2.9
6
11.2
80
91
A-l0
original hardness· Shore A70
23
2.9
6
-22.2
88
82
A6
original hardn.ss· Shore A58
-14.7
80
88
AD
original hardness' Shore A52
organic ester
23 23 23
23
2.9
7
30
5
8
-4.5
-4.5
100
100
A2
original hardness· Shore A50
30
5
8
3.9
3.6
97
100
A-4
original hardness- Shore A67
30
7
4
9.6
12.6
57
68
A-8
original hardness- Shore A65
30
7
4
9.5
9
56
68
A-6
original hardness· Shore A60
30
7
7
1.9
2.9
87
90
A-4
original hardness- Shore A59
30
10
6
-5
-4.3
120
110
A4
original hardness· Shore A50
30
10
7
7.8
7.2
95
100
A-7
original hardness· Shore A67
55
67
A-8
original
54
64
A-6
:~:
~;
Ethyl Acetate
30
14
4
8.9
30
14
4
9.5
9
30
14
30
20
7
-5
30
20
7
7.2
S
23
6 6
23
Ethyl Acrylic Acid Ethyl Alcohol
denalured
n'
Ethyl Benzene
;:l
Ethyl Benzoate
"
., ~
7 14
30
-5
87
100
A4
original herdness· Shore A50
6.7
93
100
A·6
original hardness· Shore A67
original hardness· Shale A59
minor 10 moder. ellect recommended lor use may cause 51. visible swelVl9ss of prop. lillie/no effect-severe condo may cause change
<10 <10
6
"
2
84
88
A-S
2
80
82
A-S
lIuld has lillie 10 no effect original hardness- Shor8' A60
",
,
2
8
23
Ethyl Bromide
6 2 1
23
t'"'
0: .,
91
;
'~"
tEo '"
,
87
2
. l1lay cause%i~ISlbll s\VIIVloss of p,rop. minor to moder. effect may cause 51. visible swetVloss of prop,
8 8
23 23 30
Shore A65
,... lIuld has minor to moderat, effeci .. ·····tr\\OQfto iiiOder.eiiee:!' '
8 6 8
23 23
~
A-2
h~rdness.
original hardness· Sh.ore A60 I
6 6 6 '
Ethyl Acrylate
'S""
0.9
8
70
Ethyl Acetoacetate
@
~
11.8
:~
2
<10
Material Note
Resistance Note
Conc. Temp. Time
(EPDM)
" DuPonl Nordel (EPDM) Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044lE! 50 phr FEF carb.bl., cure-30min/160C Ausimonl Dutral TER 044/E (EPDM); 100 phr TER 044/E!100 phr lolial. laic; cure-30 min/160C Ausimonl Dutral TER 535/E (EPDM); 200 phr TER 535/E!140 phr FEF carbo bl, cure-30 min/160C Ausimonl Dulral TER (EPDM); 50 phr TER 044/E/l00 phr TER 535fEf 50 phr FEF carbo bl, moon. visc-47 Ausimont Dutral CO (EPM); 50 phr CO 054/P/50 phr CO 554/35 phr HAF carb.bl., cure-20 min/150C Ausimont Dutral CO (EPM); 60 phr FEF carb.bl./ 0.5 phr Flectol H/3 phr Zn oxide, cure-18minl150C Ausimonl Dulrat CO (EPM); 50 phr HAF carb.bl./ 5 phr Zn Oxide/ 0.5 Fleclol H, cure-40 min/165C Ausimont Dulral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure-40 min/165C Ausimonl Dulral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzene oil, cure-40min/165C Ausimont Dutral CO (EPM); 50 phr CO 054fPf 50 phr CO 554/ 35 phr HAF carb.bl., cure-20 min/150C Ausimonl Dulral CO (EPM); 60 phr FEF carb.bl./ 0.5 phr Fleclol H/3 phr Zn oxide, cure-18min/150C Ausimonl Dulral CO (EPM); 50 phr HAF carb.bl./ 5 phr Zn Oxide/ 0.5 Fleclol H, cure-40 min/165C Ausimonl Dulral CO (EPM); 60 phr SRF carb.bI./0,5 phr Flectol H; cure-40 min/165C Ausimonl Dulral CO (EPM); carb.bl.; 85 phr CO 054/15 phI polyalkylbenzene oil, cure-40min/165C Ausimonl Dulral CO (EPM); 50 phr CO 054/P/50thr CO 554/35 phr HAF carb.bl., cure-20 min/150 Ausimonl DUlral CO (EPM); 60 phr FEF carb,bl./ 0.5 phr Fleclol H/3 phr Zn oxide, cure-18min/150C DuPont Nordet (EPDM) (EPDM)
" " " " " " " " DuPonl Nordel (EPDM) Ausimonl Dulral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure-40 min/165C
"
"
iinsaiisfaclor)'loillss' not suitable for service
(EPDM)
unsatlsfaclory lor use '. Iilllelno ellect-severe condo may'~ause Change ." ::.',:00 unsatisfactory for use ;i":OO
"
" " "
@
'tl
Ei ~
;:;.
....··"·':I,{
IReagen~
'"tl '" <5'
IEthyl Cellosolve
~
IEthyl Chloride
Reagent Note, ..;,
",1.~Ot 10 mod~t. eHafl '-0.01 s~ilabl.~ hiHervi¢a • .niill()iloffiOd~i. eHacl may ca~sa sl. visible s';'~illlo$$ 01 prop~ '., , recoriuiiende\flO{use .(mo,det)sev.ere so(ell. andlor loss of prop. ". . , lIu'ld hasmmo~ IO}~p~,r:alaeff~~t' ,unsatisfactory fot use may caus.e ~I.,visible s",elllloss 01 prop. u.nsatisfac)oryfor uS.e may cause sLvisi~l, sW&'llIIossol·prop.
Union Carbide
(\)
IEthyl Cellulose
;::l
... ... Ie
0-
\:l
'Ethyl Chlorocarbonate Ethyl Chloroformate
(EPDM)
DuPont Nordel (EPDM) (EPDM)
···mOdei'. 'tose~eie&jj8el~""
Ethyl Ether
moderJsevate s~eli andi~rlosS'ofptop. t1uid ha~ sava.te effa~t mmor 10 II\Odat. affeel may c~use sl. visible s"allllo~s of prop,' i r~c()iiiiiiellded lot usa
Ethyl Formate Ethyl Hexyl Alcohol Ethyl Mercaptan
DuPont Nordel (EPDM) (EPDM)
.;....unsatiSfaClo;yfoi' ~$.8·, "!oderJs~varaswell,an'llor.losso.fPtOR,
Ethyl Oxalate
urisatlslae1o!yf9' .use . lilll'elno ajlachsava;e cqnd: may causa"
<10
,
Eth~1
. c~ailg8::i . .
unsalislaclolY for use
entachlorobenzene 0.01
Ethyl Silicate
su~abl~!ot servi~e.·
tecommended for u'se
lrtllelno elieCI~$eVera cond,~y cause· chan(a.. .,.
<10
Ethylcyclopentane Ethylene Ethylene Chloride
"(\Satisfactory Jot .usa may ca~';e ~t vi~ib;e swellllospf prop. ,.' u~llsf~etory foi USe
~de,t;lsei~(fs.~el!!~~gL!9~~~!;~t?Pi ifuliJ()doiriddjjr8~'W
Ethylene Chlorohydrin
"
,,;a~"c,;;s;~1. vis!b'! s;;!ei0oss!!f Porop,
Ethylene Dibromide Ethylene Dichloride
(i
,.
mod.e t,. fO;~eVe(~~~eC.k .• DuPont Nordel (EPDM) (EPDM) DuPont Notdal (EPDM) (EPDM)
Ethylene Glycol <10 0.1
.. :
98
96
A·5
o
92
91
A-I
0.1
102
98
A-8
0.3
87
95
A·4
·0.3
82
80
AD
Ausimonl Duttal TER 044/E (EPDM); 100 pht TER 044/El50 phr FEF carb.bl., curo·30min/160C
.
liW~~ "?~i')D Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/Ell00
:."
phr folia!. talc; cure-30 min/160C Dutral TER 535/E (EPDM); 200 pht TER 535/El140 pht FEF carbo bl, curo-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/El50 phr FEF catb. bl, moon. visc-47
m
"
::D
Chemical Resistance - Ethylene Propylene Rubber
U1
<0
Chemical Resistance - Ethylene Propylene Rubber
m
""U
(J)
C>
:D
% Change Reagent
Reagent Note
Conc. Temp. Time ("')
Ethylene Glycol
Ethl'ene Glycol Ethyl ther
antifreeze fluid w/60% distilled water
40
" "
40 40
('C)
(days)
POL Rating
100
2.9
8
% R~tained
Weight Ivolume • Tenslle!lElongauon Hardness .~y~n~m •...........•.. .•. ..~~ang~ -0.7
106
79
A2
Resistance Note
Material Note
original hardness- Shore A72
Ausimont Dutral TER OWE (EPDM); 100 phr TER 044/E150 phr FEF carb.bl., cure-30min/160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E/l00 phr foliat. talc; cure-30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E/140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutrai CD (EPM); 60 phr FEF carb.bU30 phr HAF carb.bl., autoclave cure-40 min/6.5bar
100
2.9
6
-0.5
146
79
Al
l
original hardness- Shore A70
100 .
2.9
8
-0.2
112
79
A-I
,
original hardness- Shore A58
1
8
1.4
1.3
106
100
A-3
2 4.2
8 7
2.2 3.3
2 2.3
108 109
100 109
A-3 A-3
"
"
"
5
6
-9.4
-9.4
118
110
A6
"
original hardness- Shore A50
Ausimont Dutral CD (EPM); 50 phr CD 054/PI 50ghr CO 5541 35 phr HAF carb.bl., cure-20 min/150
origina' hardness- Shore A67
Ausimont Dutral CO (EPM); 60 phr FEF carb,bU 0,5 phr Fleclol H/3 phr Zn oxide, cure-18min/150C Ausimont Dutral CO (EPM); 50 phr HAF carb.bU 5 phr Zn Oxide/ 0,5 Flectol H, cure·40 min/165C Ausimont Dutral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzene oil, cure·40min/165C Ausimont Dutral CO (EPM); 50 phr CO 054/PI 50 phr CO 554/35 phr HAF carb.bl., cure-20 min/150C Ausimont Dutral CO (EPM); 60 phr FEF carb.bU 0.5 phr Flectol H/3 phr Zn oxide, cure-18min/150C Ausimont DUlral CO ~EPM); 50 phr HAF carb,bU 5 phr Zn Oxide/0.5 lectol H, cure-40 min/165C Ausimont Dutral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzene oil, cure-40min/165C Ausimont Dutral CO (EPM); 50 phr CO 054/P/50 phr CO 554/35 phr HAF carb.bl" cure-20 min/150C Ausimont Dutral CO (EPM); 60 phr FEF carb.bU 0.5 phr Flectol H/3 phr Zn oxide, cure-18min/150C
105 105 105 . ·30····
,
original hardness- Shore A72
30
5
8
5.7
5
100
100
A-4
30
7
5
8.3
9.9
76
83
A-4
original hardness- Shore A65
30
7
5
7.2
8.5
66
87
AD
original hardness- Shore A59
_ 30
10
5
-11.6
-10.1
124
110
A8
original har,d~$SS' Sh,oreA50
30
10
7
6.3
6
94
90
A-4
originaf hardness- Shore A67
30
14
5'
11.5
13,9
72
83
A-6
original h'ardneSs- Shore A65
30
14
5
9.7
11,4
61
81
A-2
original hardness· Sh'o're A~9
30
20
5
-10
-10
115
114
Al0
original hardness- Shore A50
30
20
7
8
7.5
100
100
A-6
original hardness-'Shore A67
30
5
6
-7.4
-7
110
100
A7
original hardness- Shore A50
Ausimont Dutral CO (EPM); 50 phr CO 054/P/50 phr CO 554/35 phr HAF carb,bl.. cure-20 min/150C
30
5
4
16
15
55
75
A-l0
original hardness- Shore A67
30
7
5
5.6
6,8
79
83
A-5
30
7
6
7,2
8.1
76
90
A-5
Ausimont Dutral CO (EPM); 60 phr FEF carb,bU 0,5 phr Flectol H/3 phr Zn oxide, cure-18min/150C Ausimont Dutral CO ~EPM); 50 phr HAF carb,bl./5 phr Zn Oxide/0.5 leclol H, cure-40 min/165C Ausimont Dutral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzene oil, cure-40min/165C Ausimont Dutral CO (EPM); 50 phr CO 054/PI 50ghr CO 554/35 phr HAF carb.bl., cure-20 min/150 Ausimont Dutral CO (EPM); 60 phr FEF carb,bU 0.5 phr Flectoi H/3 phr Zn oxide, cure-18min/150C Ausimont Dulral CO ~EPM); 50 phr HAF carb,bU 5 phr Zn Oxide/0.5 leclol H, cure-40 mini' 65C Ausimont Dulral CO (EPM); carb.bl.; 85 phr CO 054/15 phr polyalkylbenzene oil, cure-40min/165C Ausimont Dutral CO (EPM); 50 phr CO 054/P/50 phr CO 554/35 phr HAF carb.bl" cure-20 min/150C Ausimont Dutral CO (EPM); 60 phr FEF carb.bU 0,5 phr Flectol H/3 phr Zn oxide, cure-18min/150C
:~
Ethllene Glycol Methyl ther
,
original
:
@
"tl ~ f;'
Ethylene Oxide
't"J '" 15'
Ethylene Trichloride
(1)
;:l
~
... ...
0'
P
u:::
hardriess-~h:~e A59
30
10
6
-9.9
-9.7
118
108
A7
original hardness· Shore A50
30
10
5
14.5
13.5
80
87
A-9
original hardness- Shore A67
30
14
5
7.9
9.6
74
77
A-6
original hardness- Shore A65
30
14
4
9,3
10.7
67
79
A-9
original hardness- Shore A59
30
20
5
-9.6
-9.4
122
110
A7
30
S"
original hardness-.Shore A65
20
4
15
14
4 23 23
"
4
4
23
8 8
Ethylenediamine j
80
A-8
original hardness- Shore A67 moder. \0 seveieellecl ' lIuid unlikely' t,o be c~mpatible moderJsel/ere sWell end/oi:!oSs.ol prop.
3 4,····
23
67
original hardness- Shore A50 >
moder. 10 severe effect moder.lsel/ere swell end/odoss 01 prop.
tor
<10
recommended usa IitUe/no eUect·sellere condo may cause change
(EPDM) DuPont Nordel (EPDM) (EPDM)
"
" " "
@
'p"o ~
0'
VI
16' VI
<E'
Ethylmorpholine Stannous Octoate Fatty Acids
w/50% stannous octo ate
(EPDM)
.~~;;jseov~:~:~i~1~~i>r:~o;··Pt~~;:'···
;:l
t-
o:..,
'ji;;;(~F;f;~~~ii~:~~~~~~~~:"',
Ferric Chloride aqueous
..,i=l
<10
solution
II:
o
95
95
A-2
15
o
95
95
A-2
aqueous
<10
--
-
aqueous
<10
17
0.4
1.3
96
87
A-1
Ausimont Dutral CO (EPM); 60 phr SRF carb.bl.lO.5 phr Flectol H; cure·40 min/165C
17
0.4
1.6
94
90
A-2
17
1.1
5.9
96
90
A-2
17
1.6
7.3
88
85
A-2
~;::~~~?~;;);
Fish Oils Fluoboric Acid
(EPDM)
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flector H; cure-40 min/165C
(EPDM) f1uoboric acid
Fluorinated Cvclic Ethers Fluorine
DuPont Nordel (EPDM)
~ri9i~~I~~\dn:~~~;: ~§oie.~$O .
,>\
Ferric Nitrate Ferric Sulfate
'.' fluid has iimeio no efie~tS
.. 15
<10
--
<10
liQUid
Fluorobenzene Fluorocarbon Oils <10
Fluorolube <10
Occidental Chemical
Fluosilicic Acid DuPont Nordel (EPDM)
Formaldehyde
(EPDM)
40 solution
40 40 40 40
<10
i},,;~; .
i,~~;; i;
..
. 2:V: :::~:<,:.~;'
";
: .>23: ',:"
%:r~;/; :"'::;::;::;?.:.::;::}::. '"y:?::::.:';\:
8 ': 2.9,.8., 2.9
://:1;1%". ".:.. •
DuPont Nordel (EPDM) 101
93
A-5
-27.4
137
95
A-3
-10.7
99
90
A-5
. >origfnalhllrdnew Shore 1.58 ."::'~ }:. ';:::;'.;.~:: ::~r "r:~:;:' ..
-3.8
88
93
A-4
,
,.'
'~.:.
2.91iL8{" 2.9
. .::::,.
::>:;:,
~';;
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E150 phr FEF carb.b!., cure·30min/160C
-7.4
.ori9i~al haldness. Sh'o;g 1.70 :'r· o;i9in~1 h.~rd~8St Stiofe A5?
Formic Acid
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E1100 phr foliat. talc; cure·30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure·30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/E11 00 phr TER 535/E1 50 phr FEF carbo br, moon. visc-47 (EPDM) DuPont Nordel (EPDM)
m
."
::D
Chemical Resistance - Ethylene Propylene Rubber
0> -"
Chemical Resistance - Ethylene Propylene Rubber
m
-0
0)
IX>
::D ~
Reagent
Reagent 60te
con.c'ITemp'l T.i.me I")
Formic Acid
I'C)
ld,ays)
I I POL Rating
23 30
7
5
24.5
99 99 99
30
14 7 14
4 4
24.5 49 72
70
70
3,.,
23
Dupont
Freon 114 23
23 Freon 11482 Dupont
23
chloropentafluoroethane
23
23 ,.::
Freon 13 Dupont
Freon 1381 '23
\,'23
23
o'Vl
Dupont
~
.., ..,i=l
0-
u::
23
'i
23 23'"
iecommendedio{lls~
2 8
ffuid' has severe effect mile/no ellect-severe condo may cause change
<10
<10
6 5 -'--8
8
<10
8'> 8
<10
recommended for use Ifttle/no. ellecHe~ere condo may cause ·cha.~g~ minor to mode(. effecl may cauSH!. vlslbleSwe!lI1o'ss of)rop:. ' l1ui~~asminorlo I)loderaie:effijct " ·.'iecoffiiiiendedfoillse .Iiltle/no effecl:se~~r~ condo may c~use. ;. ; c~ange.
Dupont
23,"
mayfeuse . :c~~.i1ge. ",./ .\> recom7rleriiled leiruse u· .
.., ,may cause sl_ vi;ible <10
lillie/no "
;.:;
s~ellilossof prop:":
.recQ'mmenoed lor 'use' eflect~sev~re condo m~y cause,. change.'
"2
iiii$aiisl~i:ioryigillse
1
n.otsult~ble'forservice
iecoiiUfuiiidedioius8'
<10
lillie/no elfect:severe:·coild. mav cause ~hange,
iecommendedloiiise . . <10
2 8
DuPont Nordel (EPDM) (EPDM)
recommeiidijdlo{llse.
6
8
(EPDM) DuPont Nordel (EPDM) (EPDM)
lil1le/no'effeci:se;'el{~orid;
ii ii
8
DuPont Nordel (EPDM)
unsatiSfactorY for use
: ..::
8
DuPont Nordel (EPDM) (EPDM)
notsuita~leJor~eF"ic~. _
"8
IFreon 31
(EPDM)
ii
ii
IFreon 22
ell Vl
;:l
I'
2
ii
IFreon 218
tl
cEo
A-10
""""'8
Freon 21
~
68
A-S
.:.:
"6
Dupont
A-7
• unsa'l#Mloryfoiuse .'. not Su!j~~!e fo;'s~~ice . unsat.isf.actory for use mOder.lsever.e' S~~II and/or.foss of prop. lIuld hassevere:effecI .
8
:\' ...
23
72 80
;
Freon 12
Dupont
74 80 76
(EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bIJO.S phr Flectol H; cure·40 min/165C
original hardness- Shore MO
not suita6le' fOf service lIuid ha~~everMli~t
!l
Freon 14 Freon 1428
A-S
"2
Freon 115
bromotrifluoromethane
80
may cause
1. 2
4
:23
lillie/no effect-severe condo Change .
82
Material Note
Resistance Note
unsatisia~toryfor use
2. 23)(
'.·.:.·.~I.·.~EI~i1gatlon ... 1Hard.n.ess L.' "',Change
Tell,•.
Stre~gth
2
\1"
. 23,.
Freon 113
~
42 60
::.:,,:(2····
Freon 112
S Vl
,
~iRetain,ed
<10
99
'23"
@
WelghllvOlu:ne
8
Freon 11
Freon 152A Freon 1528
% Change·
<10
Iftlle/no ellect-severe condo maV cause , chang," ,. ' fluid has sev:ere etteOl ' recommended for use lilUe/no effe~i:seve;~cQnd. may cause . ch~nge'" . .
DuPont Nordel (EPDM) (EPDM)
@ ~
¥f~c.
~ ~
0C/)
tl (1)
IFreon 32
<5;J
t'"'
0: ...
<10
Freon 502 Freon BF tetrachlorodifluoroethan
e
p
... tt::
(EPDM)
<10
Dupont
C/)
IFreon C316
Dupont
<10
Dupont
<10
Freon C318 Freon MF Dupont
Freon TA Dupont
Freon TC Dupont
Freon TF Freon TMC Dupont
Freon TP35 <10
Dupont
Freon TWD602 Dupont
Fuel Oils
#6 acidic %.:
Fumaric Acid Furan
furfuran
Furfural furfuraldehyde
Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel
86
87
A-4
5
76
84
A-8
DuPont Nordal (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cura·40 min/165C :':;.~
Stauffer Chemical
<10
"'C
(EPDM)
.
Esso Golden super Shell
m
:0
.",
li~.i;I~~~~~,i!-t;b:~e9~:~)~-~j(~:~!~ t~i:o!l1nian~edW.use,
Fyrquel150 Fyrquel220 Gallic Acid Gasoline
5
Chemical Resistance - Ethylene Propylene Rubber
0>
(.:l
Chemical Resistance - Ethylene Propylene Rubber
m
-0 :0
~
... ..
..
..
...
~
% Change Reagent
Reagent Note
p'~L
Cone. Temp. Time (%)
....... ",
(days)
('C)
'
:',."
liquefied, LPG producer
Gear Oils Gelatin Gelatins
23 23 23 23
Texaco 34S0
"
po ~
Hexane
7
9
0.3
2
100
93
1.-2
30
'4
9 B
0.3
2
100
9'
1.-2
<
~
(/)
tEo ;:l
Hexene Hexyl Alcohol
.,
!=l
23 23 23
HEF 2 Houghto Safe 271
high energy fuel waler & glycol base
8
"
it
"
"
"
recommended for use mile/no ellect-severe'cond, may clluse change •. c "
(EPDM)
" "
"
~~
'
..
" " " "
,.
.....not sUilable.f!,rse~j£a. recommendedloYiiii,""' . unsalisfactory lor use
.'
minor 10 moder. effect"' lillie/no effect-severe condo cause • Change.r·" .... unsalisfaclorY'lor use ..
may
<'0
:~.:
it <
"
lIuid has severe efleel not sUi1ablefor..~elVice
DuPonl Nordel (EPDM) (EPDM)
w
" " " " "
..
,................
moder. 10 severe effect . moderJsevere swell and/or loss of P!Op.
4
'2< B:
" " " " " " "
"
"
1 :; 4
23 :::.
(EPDM)
"
,
1
DuPonl Nordel (EPDM) Ausimonl Dutral CO (EPM): 60 phr SRF carb.bl.lO.S phr Fleclol H: cure-40 min/,eSC
" "
recommended lor use lillie/no effect-severe·cond. may cause change . uns.iiSf.c10,YiO, use ...
2 .2 2
N-Hexane-'
t""
0: .,
23
fluid has liltle \0 no effect original hardness- Shore 1.60
"
B 2 6
" "
DuPonl Nordel (EPDM)
•
2 2'
"
recommended for u.se lillie/no effect-severe condo may cause change fluid has little to no eff.e~! . recommended for use 1~IIe/no eflect-severe condo may causa change ..
"
<'0
"
"
"
,unsallsfaclory for lise
,
23
N-Heplane
n·Hexene·1
,
<10
8
2 2 2 2 B B
.
n-Hexane
(/)
<10
8
;"
r:;'
recommended for use litlle/no effect-severe condo may cause change
23 30
Halothane Halowax Oil
'i:l
<10
B 8 B
23
N-Hexaldehyde n-Hexaldehyde
(EPDM)
<'0
Keyslone .87HX lighl grease Shell Alvania .2 Sunoco; all purpose
Koppers
DuPonl Nordel (EPDM)
uns.iisfaclory for use recommended for use litlle/no ellect,severe condo may cause ... change minor to moder. effect },:: may cause 51. visible swell/loss of prop, .'
8 8
Green Sulfate Liquor
Helium Heptane Hexaldehyde
lIuld has modarate 10 severe elieci
2 B
23
23
Greases
1 4
<'0
Glycols
(EPDM)
" " "
23
23
unSalisfaCIOry for usa nOI suitable for ser,;ice
,
8 8
23
Material Note ~
."
6 .6
glycerol
Ch~nge
,
23
Glues
........
Resistance Note
Hardness .
,
8;
Glucose
Glycerin
. ~~~~ngt~
2
23
Glaubers Salt
,
% Retained
Weight tOlume . Tensile ,lElon g8uon
Ratmg
Gasoline
@
en
unsallslactory lor use recommended fat use
....
I.
@
"1:l
;:;~
Reagent
~ tEo
Houghto Safe 620 Hydraulic Fluids
n'til til
;:l
t""
.,j:l
I
ICc)nc.
.~ll)Jlg',,~n Hardness '. ~h!,l1g~
".'('Yo)
Hydraulic Oils
.,0: It:
Reagent Note
Material Note (EPDM)
water & glycol base Sunsafe; fire resistant Univis 40 petroleum base PRL·high temperature petroleum base
Hydrazine <10 DuPont Nordel (EPDM)
Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
(EPDM)
petroleum base recommeiidedioluse mile/no effect-severe COnd•• m~Y·,~~use change ...,. :~,. . ·c'.. . recommended·fo;u';e. '.,
<10 40 40
little/no effecl-s8vero c~nd, Q1;y'cause change .. "'. . unsatisfaclory for use
<10
.::.
Hydrocarbons Hydrochloric Acid
/'2
saturated 3 molar concentrated solution
solution
4 ~.
0.3
107
96
A-S
recommended for'u~", moder. to SOVOIO· elloct· oris'inal hardness· Shore A72
8
1.3
134
97
A-3
original haldness- S~or~A70
8 10
23
2.9
,. ..
10
23
2.9
•
10
23
2.9
9
-1.2
104
93
A-4
oliginel hardness· Shole A58
10
23.
2.9
g./
-0.4
103
105
A·S
oliginal hardne.ss- Sh~re ~52
20 30
23 23
2.9
4.1
94
92
A-2
fluid is likely to be compalilile;' original hardness,Sh0c,e. A72
30
23
2.9
-0.3
102
95
A-3
original hardness-· Shor& ,.,70
30
23
2.9
·9····
-1. 1
99
94
A-S
oliginal
30
23
2.9
8
-0.4
84
94
A-3
original hardnoss· Shol. ,.,52
'7
9
cold hot cold
37 37 37
hot
37 37 37
4
37 37 37
4 14 18
Sh/)(e ,.,58
recommended for use moder. to sevele elrecl
8
4 23
haldn~;
. 8'
Iitfle{no
<10
, ~, ..
etfect.sevele~~nd. m~y.causo change"
.
mod"Jsever. ·s~.11 andlor' I~:ss of prop. fluid has IiIlle·to.modelale·eliect·
13 16
Hydrocyanic Acid <10
23
8
91
96
AO
87 90 84
96 86 85
A-S A-2
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ 50 phr FEF carb.bl., cure-30min/160e Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ100 phr foliat. talc; cure-30 min/160e Ausimont Dutral TER 535/E (EPDM); 200 phI TER 535/EJ140 phI FEF carbo bl, cUle·30 min/160e Ausimont Dutral TER (EPDM); 50 phr TER 044/EJ 100 phr TER 535/E/50 phr FEF carbo bl, moon. visc-47 DuPont Nordel (EPDM) Ausimont Dutral TER 044/E (EPDM); 100 phI TER 044/EJ 50 phr FEF carb.bL, cUle·30min/160e . Ausimont Dutrat TER 044/E (EPDM); 100 phr tER 044/EJ100 phr foliat. talc; cure-30 min/160e Ausimont Dutral TER 535/E (EPDM); 200 phI TER 535/E/140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/EJ 100 phr TER 535/EJ 50 phr FEF carbo bl, moon. visc·47 (EPDM)
oliginal
har~9~'~ho!e
DuPont NOldel (EPDM) Ausimont Dutlal CO (EPM); 60 phr SRF carb.bI./0.5 phI Flectol H; cUle·40 min/165C
A-4 , recommo~,~~dforyse§"d: litlle/no effecl·sav~re coria, !!laY· cause c change', , " . Iluid.~aSmlle.lo'';o;eflecl
(EPDM)
DuPont Nordel (EPDM)
m
"U
::D
Chemical Resistance - Ethylene Propylene Rubber
0>
c.n
Chemical Resistance - Ethylene Propylene Rubber
m
-c
0> 0>
::c Reagent Hydrofluoric Acid
Reagent Note
conc'ITemp'l Time Clio)
C'C)
40
23 23 23 23 30
40 48
30 23
anhydrous cold, concentrated hoi, concentrated
cold hot cold hot
Cdays)
o
14
8 5 8 2 4 2
o
23 23
8
10
23
2.9
8 8 8
10
23
2.9
10
23
2.9
10
23
2.9
90 90 90
23 23
23
Hydrogen Fluoride Hydrogen Peroxide
I
Hardness Change
1.5
90
80
A-2
84
80
A-4
anhydrous
Resistance Note
Material Note
liuld has severe ellecl mode(Jsevere swan and/or loss of prop.
DuPont Nordel (EPDM) (EPDM)
not suitable for sarvice' o,rlginal hardness- Shore A60
Ausimont Dutral eo (EPM); 60 phr SRF carb.bl.lO.5 phr Flectol H; cure·40 min/165e
lIuid has minor to moderate effect recommended lor use uflSalisfactoty for use moder_ 10 severe ellect unsatisfactory lor use liuld has severe elfecl
2
23
8 6 8 8 8'
gas, cold gas, hot gas
% Retained Tensile 1Elongation Strength
1
!l
Hydrofluosilicic Acid Hydrogen
POL Iwelghllvolume Rating
7
<65 <65 >65 >65 75
% Change
I
DuPont Nordel (EPDM)
' mat,c,ause sl.vl~\~@~~~M9M9!pr9P, ..'iecommeiideafo'use . <10
iecoiM\M~~g!oruse
(EPDM)
litllelno ellect-severe condo I1)8Y cause change Iluid has litlle'fo no ellect
DuPont Nordel (EPDM)
i8tonlfli6~(S;!il19"~~~: -0.8
89
94
A-3
original hafllness- Shore A72
8
0.2
87
95
A-4
original hardn8SS' Shore A70
8
-0.9
90
94
A-5
original hardness- Shore A58
8,
-0.7
80
99
A-3
original hardn8SS- Shore A52 ,
4
.' .7 6 :::8
(EPDM)
moder.to severe efteci. fluid's likely to b'compalible
"Pl~Y~~\!M~!,~i~!~!~:~\'I~i08~~9'l!(9P'" iec:omm!~aedloiilsii
:. .··>'"\
8 :':\8 \., 8
"
8
2. 6'
.',;
<10
litllelno effect-seve.r,e conil.. may cause change
<10
"
'unsatis/aclory loi use minort~ Ilioder. eft~et,.
2 1
~
~:
,
DuPont Nordel (EPDM) (EPDM)
,
unsatisf'RIOJil2l use ",.• nol sulfa~ IO"58rVlce .
~~~~:€:~!~~~e8
Ausimont Dutrat TER 044/E (EPDM); 100 phr TER 0441EJ 50 phr FEF carb.b!., cure·30min/160e Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ100 phr folial. talc; cure-30 min/160e Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/EJ140 phr FEF carbo bl, cure-30 min/160e Ausimont Dutral TER (EPDM); 50 phr TER 044/EJ 100 phr TER 535/EJ 50 phr FEF carbo bl, moon. visc·47 (EPDM) DuPont Nordel (EPDM) (EPDM) '
Chemical Resistance - Ethylene Propylene Rubber
m
-0 :0
-'<\1 <,.. ~.':::.~':;.-:I.::
:~::
a> ex>
.. ':;.......
I
-<:;;:-;.:.'-:-~'
Lacquers .23
lacquer solvents i
23
Lactic Acid
cold hot cold
23
hot
····.·.v,:··."..
}uid~~~S~ver§~':!8Ct '"
,,2'. '·1 .
".•. . 23
not ~uitab~foOeiYice':'
. "'S'
<10
0.5
4.5
91
100
A-2
5
88
96
A-2
Lavender Oil Lead Acetate
\V23 :':,
~;!F'8~
1\:t~:.:~-:-:.::."
)8 \.8;
t:\", :.,"
Lead Nitrate
ltI;~~\ Lead Sulfamate Light Oil Ligroin
*;.,:~i::~~!!
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
" (EPDM)
.~;:
.>:/}/
~;~ii;'~%~~~
;l;l~[:~~jl
WY23 if
}f ::"18:{!~(>:
<10
',:.),;1;(
<10
DTE petroleum ether of benzene benzine/nitrobenzine
Lime Bleach Lime Sulfur Lindol
;HI~id~~;¥)\~i.i'ih~~~ir~cti ;>\ >'
<10
~,~,~~;l;; ~:::;::::. ~<~~~~:::.:
DuPont Nordel (EPDM) (EPDM)
hydraulic fluid; phosphate ester type hydraulic fluids, Stauffer Chemical
<10
<10
Linoleic Acid Linseed Oil " @ ~
~
n CIl 0C\)
~
DuPont Nordet (EPDM) 3.7
100
95
A-10
2.9
2.8
112
89
A-3
2.9
·11.2
90
92
A-1
2.9
·10.2
106
96
A·5
85
100
A-3
85 76
100 91
A·4 A·14
2.9
CIl
to;:s t"'
...l:l0: ...
7
6
14 2.9
6 ·2.9
Ausimont Dutral TER OWE (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure-30min/160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/Ell00 phr foliat. talc; cure-30 min/160C Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/El50 phr FEF carbo bl, moon. visc·47 Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C Ausimont Dutral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/El50 phr FEF carbo bl, moon. visc-47
@
'i:l
po ~
~eagent
Reagent N~te
(I)
~
Iconc'ITempol Time (%).
C'C) : (days)
ri'
Linseed Oil
~'oo· •.,
(I)
lIatmg
•. .
2.9
100
l.5'
I P~L 'lwelg~!lvoiumel:'rensilel~!On9atl~~1 Hatdne.ss.1 22.8
2.9
23.4
\4
-13.8
t"'
It:
Liquid Petroleum Gas Liquimoly Lubricants
Strength 68
" S } .. :
82
R~si~tan~ei~o~:.
Gh.ange A-17
!
;:l
..,0: !=l ..,
.
64 89
86 87
A-24 A-l
.••••;:!••......
LPG
orlgl~alhaidri&;s:ShO~·~~2·.·:: <".
.~'
otiglnal··ha;d~~ss,Siio;eA7lii'
•
..
. \ ' ." .........;: ...•. ••.••..
'oriainal
tiard~e$S.Shh;N58·c, ..
Material Note';
Auslmonl Dutral TEA 044/E (EPDM); 100 phr TEA 044/El50 phr FEF carb.bL, cure-30min/160C
..•.. ·.•••·••·.i.. · ... :;............ .•.•.....
Ausimonl Dulral TEA 044/E (EPDM); 100 phr TEA 044/EilOO phr foliat. laic; cure-30 mln/160C Ausimonl Dulral TEA 535/E (EPDM); 200 phr TEA 535/El140 phr FEF carbo bl, cure-30 min/160e
·,(.~F~li~;f~7~i!:j:0;1~~~·fir;·
".' 2//i
:',,;"
i
.•. . •• 1
(EPDM)
"
H2; high vis cosily U4; high viscosily
·.:·?3·.
Sunoco XS-820, EP
Lubricating Oils
di-esler
:::'f
. ,•. fhji~ u"(ilc~ly]Wiiilg~~~alibleX?i
.3 i ·· •..... ,2
::::..'';::
··~n~H!I~~!?rY1MM~.~afm X.'
.}
petroleum base
DuPonl Nordel (EPDM) (EPDM)
SAE 10 SAE 20 SAE 30 SAE40 SAE50 petroleum base DuPont Nordel (EPDM)
Lye
""'(8.'/,"',,"
solulions
i\;~!~iil~ltiil;'i:!ll~:i~~i{i:i~
<10
Magnesium Chloride ':!:!'&;
solution
i)'$'< <10
57 57 57 57
Magnesium Hydroxide solution
7
I Ii
1.5
100
91
A-l
14
0
2
100
91
A·2
7
0.1 0,1
2.9
97
89
3.7
96
89
A·2 A-2
14
itj;!rfr~:t::[~~~
0
~;~:!i~ i :~i f~ ~
<10
--
<10
" "
DuPont Nordel (EPDM) (EPDM) Ausimont Dutral CO (EPM); 60 phr SAF carb,bl./O,5 phr Fieciol H; cure-40 mln/165C
.-.......... -. 'n.·.wN.W.·.·,..w.," - •••• _•• w.·.·. ,",'" .·.·.w.·.·.·-.-.·.· ",".
:HptA~i~t#l~~~!~~,@~~~~fY~.:rW:t\{fkfd
Magnesium Salts Magnesium Sulfate
(EPDM)
i:·?~t:i.:::;::::E~t~mi~r; :~i!:i~:~:~~]}~f::~:~Ir~Mwf:J~r:g~t[iliM
(EPDM) DuPont Nordel (EPDM) (EPDM)
" "
Magnesium Sulfite Malathion Maleic Acid Maleic Anhydride Malic Acid Mercuric Chloride Mercury
solulion
DuPont Nordel (EPDM)
vapors
(EPDM)
m
"'U
:IJ
Chemical Resistance - Ethylene Propylene Rubber
0) (C)
..... o
Chemical Resistance - Ethylene Propylene Rubber
m
"1J
-0.
:JJ
Reagent
Reagent Note
conc'ITemp'l Time
Mercury Mercury Chloride Mesityl Oxide
POL
I
WeIght Volume
Tensile OJ Elongation Strength
23
8
23
8
<10
8
<10
23
Hardness Change
6'
ketone
Methacrylic Acid Methane
23
Methyl Acetate 23
Material Note
fluid has l~lIe to "c..effect
DuPont Nordel (EPDM)
little/no eftecI'severe conll/may cause change
(EPDM)
may cause st: visible
'2 23
Resistance Note
mlnOtlo moder. effect .
6 6
23
s";~llllosscif prop.
uns;llislaCI
su~able for ~ervi~~ ..
ii}
nol
'6
lnmoi10 inOClliiiellect
8
l~lIeino effect-severe condo
<10
change
30 30
7
5
14
5
Methyl Acetoacetate Methyl Acrylate
4 4
4 4.3
72 72
78
A-5
78
A-5
6;>,
~ 6
.. 23
original hardness· Shore A60
Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Flectol H; cure·40 min/165C
minor 10 moder_ elfect·
(EPDM)
iniliar to inOdei.eile~
8
methanol
mav cause
!!,ay caus.e sIVI~lb!~ ~w.~!III~~~.o(~r~l" . ·iecommenCledforuse····· .
6
23
.
may cause sl. visible swell/lOsi o( prop.
'6
Methyl Acrylic Acid Methyl Alcohol
I
% Retained
(days)~~!I?~
('C)
('4)
% Change
8
23
methanol
8
23
<10
litllelno effect-severe cond: may 'cause / change' fluid has 1~lIe to no effact
DuPont Nordal (EPDM)
23
2.9
9
-0.4
94
101
A-2
original hardness" Shore A72
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.b!., cura·30min/160C
23
2.9
9
0.04
103
96
A-2
original hard!'ess- Sho~a,A7~0.
Auslmont Dutral TER 044/E (EPDM); 100 phr TER 044/El100 phr folial. talc; cure·30 min/160C
8
":.:.<
23.
2.9
9
-4.2
97
97
A-1
original
hard"e~s-S"~teA58
23
2.9
9
-2.3
95
99
A-2
original
h~idness- Sho~~A52
30
7
90
85
A-1
original hardness-
14
30
'1:l
E" ~
n' (I)
tl C1l
(I)
tEo t"'"
A-1 (EPDM)
unsalls(actory fori usa'
!
8 8
recommenlletlTor iise
lillie/no effect-severe condo ~y Gause .ch~ng! ...• ;
<10
'2
Methyl Carbonate Methyl Cellosolve
6 6;.
23
Union Carbide
6:"
Methyl Cellulose Methyl Chloride
~ ::}':};;';: .;-\(4;\.
'23
Methyl Chloroform ate Methyl Cyclopentane Methyl Ether
85
Ausimont Dutral CO (EPM); 60 phr SRF carb.bUO.5 phr Flectol H; cure-40 min/165C
..:~.
2
--;::r ~--; .f,
23~'"
;:l
...0:p ...
87
2
23
@
7
Ausimont Dutral TER (EPDM); 50 phr TER 044/El100 phr TER 535/El50 phr FEF carbo bl, moon. visc-47
Sh()'~eA60. ;.:.;
Methyl Benzoate Methyl Bromide Methyl Butyl Ketone
Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure·30 min/160C
/?2i(··· ..
'.1';..'/ 0;;8{0.:
monomethyl ether
(
V'§Yj,
"'iinS8ilslaCI~(~t~~ iniiloiia moder. effecl",'"
..
m.ay~~u~e ,~t. ~!~i~I';S,~ellll;~f~10P; minor.!O
,!,o,~&(~~,e,c.t,«"c
•• ·.
··~·::d:;;~t:r~::~e~,eI;;~~~It;i;~;~¥F .unsatls!l ·r.····
@
'"
p
~
Ha;'~9'~~1
Reagent
.:.;.,,'
,9mm9~
r;' VI
cEo ;:l
(EPDM)
dimethyl ether/monomethyl ether methyl ether
~
VI
Methyl Ethyl Ketone
•.,•.••.•...' .!¥PW~~n,~,~~,t~r~se.)/!i ~IiUlefno~~~~i'sev,e!eC9nd;nia(ca,~se .
MEK
~
<10
..,0~ ..,
A/' .)~ha,~g~.·\,,·"4·
fluid has. ihtle,io noeflect ..
u:
10.5
75
82
A-9
10.5
75
92
A·10
-20.1
88
87
A11
-16.2
73
118
A-4
5
71
75
A·2
6
66
70
A-5
ori9iri~I'h~rd'.)~~s-ShQr~;A72
DuPont Nordel (EPDM) Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bL, cure·30min/160C Ausimonl Dutral TER 044/E (EPDM); 100 phr TER 044/Ell00 phr foliat. laic; cure-30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E1140 ',""", phr FEF carbo bl. cure-30 min/160C ,\ Ausimont Dutral TER (EPDM); 50 phr TER 044/E1100 phr TER 535/EI 50 phr FEF carbo bl, moon. visc·47 Ausimont Dutral CO (EPM); 60 phr SRF carb.bl.lO.5 phr Flectol H; cure-40 min/165C
Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Isobutyl Ketone
:}:
",,: ~;::.;:.,.:
(EPDM)
MI8K
Methyl Isopropyl Ketone M6K 7 14
V\..
Methyl Methacrylate
""23 30 30
a
11
58
64
A-8
12
52
59
A-8
2
'(unsatisfactorY for usa;
7
'"
m6der",se~l(les'~II:aod/or loss'of prop,
.4
4
63
63
A-6
14
4
11
54
77
A-5
Methyl Oleate
wiglnal
ha!d~~ss. $holeA60
Jijinor to··moder_ effect.,
may caut; 51- Vlsl~l~
swell,/101~ of prop_'
Methylaniline Methylene Bromide Methylene Chloride 23 <'23, .
4 ;;5 55.3
34
53
A-22
53.6
37
70
A54
-2
89
86
A-14
30
26
53
A-19
Iln~t!slactory.fOr.use' . moderJ$evere.sweii Bridiol loss of prop. . iluid h~s m;';orto mo4~rale ell~ct orlgl~ai hardness- s~ol'e An
.
,
::'~:':':':.
"::
origi~~ihardness'Sho;~A70
.
Oii9,;~;I~~it~~;:~~:~~~;~~8'
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C (EPDM)
DuPont Nordel (EPDM) Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bL, cure-30minl160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/El100 phr foliat. talc; cUle-30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure-3D min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/E/100 phr TER 535/EI 50 phr FEF carbo bl. moon. visc-47 (EPDM)
monomethyl hydrazine
m
"U ::D
(EPDM)
'.. ..i1iiriorIiiM~~~{e1ieil . may c~~~~.s):vISI~lfs~eUlJoss.o(~r~p,
Methyl Salicylate
Methylene Dichloride Methylhydrazine Milk
Ausimont Dutral CO (EPM); 60 phr SRF carb.bt.lO.5 phr Flectol H; cure-40 min/165C
Chemical Resistance - Ethylene Propylene Rubber
--I
.......
......
Chemical Resistance - Ethylene Propylene Rubber
m
....... N
""tl
:::0
Reagent
Reagent Note
C%)
Mineral Oils
I I I
% !leta/ned
CO C)
R.esistanee Note
Material Note.
unsalisfaClot¥ tor use
(EPDM)
moderlsevere swell· and/or loss of prop. f1uid'has se~ere eff~ct
DuPont Nordel (EPDM)
. uiis~lls!actllrYfllrusll fluid unl~ely to be. compatible
(EPDM) DuPont Nordel (EPDM)
POL wel9hlivoluMe Tensile .\"Elongallonl Hard ness Cdays) Rating . Strength '. Change
Univolt #3S
2 2 4
23 23
Motor Oils
% Change
Con co ITempo Time
2
-
Esso Exxon 2380 turbo oil SAE 10 Shell turbine 011307
2 3 2
23 23 23
Mustard Gas Naphtha
;8
23
8
-
2
23. 23
recor,nmendild lor use 'IlIlIelno elfect-severe cond..may cause • change'
<10
Mt suitabie for service Ifuid has severe effect .
2 2 2 1
,23 23 23
Neon Neville Acid
6
-
·8
33
' 30
7
33 33 33
30
14 7 14
10
-aqu.ous
'tI
50
~
50 50
n'V>
'9
0
I.S
100
91
A·l
<9
0 1 1
4 1.6 6.3
100 93 87
90 92 89
A·2 A-I A·2
8 ~
50
30 . 30 '70' c \,70-""
t""
7
,9
o
1.5
100
96
A-I
14 7 14
"9
8:
0 1.4
HL
1.8
1.5 4.6 9.8
100 99 94
92 94 94
A-1 A·l A-2
<10
0: .,
.,
>:l
u::
.
;~
.,,'
.,..'
(EPDM)
"':;::~.: .. ,_._. ,.
>,.
,!lttle/no. 8"ecl:.s.ver~:cond. t)lIY c~~se "change .""',.".•• <./ ,. "",.., origlnalhaido~s~- Shore 0460
'-Ii "· . ·
;y'
8"
3 molar conc.ntrated dilut.
".~~
~',':;."
i.'···'·":·;~',F ,". ""M:,::,
<10
8
Niter Cake Nitric Acid
.
Ausimont Dutral co (EPM); 50 phr SRF carb.bUO.S phr Flectol H; cure-40 min/15SC
·"i)llC~mmeiilllldio(I!'~r,,~·.,::,
tEo ;:l
iacominendad for us. little/no .ffect.sllv8r.~o~d: mayctius. , ctiilng.,.' 'original hardness: Shore A~O
8
~.3. '
@
E"
~
<10
. 8")"
<
Nickel Salts Nickel Sulfate
~ V>
ZO
-
8
..
may cause sl.visibie sw.lIll.oss q!- prop; recommended foi use. lillie/no effect.severe i:o~d_ ;'ay cause' chsnga<.; . ..
<10
8'·'
23
;
iiimodoiiiOlieFetfecC'"
8 8.
23
aqueous
.••••., r.~0'!""ergedM~s~
6'•.'"
Nickel Acetate Nickel Chloride
iiiino!ioiii()der:lll,ec!··. .,l1laYc,au~esL·risibtesViel~lossof.p'rop': ... •••·
6
·23 aqueous
nol suitable 'jor serVic~
6'
"2.3
"
.
2'.'"
:.3.
Neats Foot Oil
,
; unsat!sfaCIOryi~r·use
·······1
3
(EPDM) DuPont Nord.1 (EPDM) (EPDM)
.... ..... ........
1
2
-
DuPont Norde' (EPDM)
unsatisfactory fo! use fluid has severe eff.ct .001 suriatil~ for sarvice
~
Naphthalenic Acid Naphthenic Acids Natural Gas
(EPDM)
···uiisatlsiaClllty.!orusa
1
-
Naphthalene
fluid has severe .ffecl fluid unlikely to be compatible
3
-
Ausimont Dutral co (EPM); 50 phr SRF carb.bUO.S phr Flectol H; cure·40 min/15SC
'-'.
,~t.~n~'::;~~~~\~~1;~~~j~,~~~;~~d
'.
:,i~~:1:1a!1l~~\:;·:,;;,;,i
(EPDM)
@
s'" V>
Reagent
Reagent Note
n'V>
1?
conc'ITemp'l Time (%)
~
Nitric Acid
V>
~.
;:s t-'
0: ..,
solution
..,
i=l
I
POL Rating
% Retained
I
Tensile Elongallori ,. Strength
Hardness Change
~
2a
Resistance Note·
Material Note
unsalisfaclory for use
(EPDM)
10 10
23 23 23
2.9
8
-7.9
106
91
A-3
not suilable lor se"'i~e lIoid has severe effect fluid has minor to moderate eflect original hardness- ShO!e'A72
10
23"
2.9
7,
-27.4
110
89
A-4
original hardness- Shore A70
10
23
2.9
8'
-10.2
109
100
A-4
original ha;dness-
10
23
2.9
8
-3.3
87
93
20
30
7
9
95
20 20 20
14 7 14
9 4
1 14
14
,3
26
22
95 77 59
30
30 70 70 23 70
38
30
7
38 38 38 0-50 60 65
30 70
14
8
7
o
14
i···;
30
Nitric Acid
I
2
inhibiled red fuming; IRFNA red fuming; RFNA inhibiled, red fuming red turning
ll:
(days)
I'C)
% Change Weight Volume
1
2
5
~~-:;
A-3
original hardness.' Shore A52
100
AD
original hardness- Shore A60
100 127
AO A-14 A-15
130
'2
:;
23 ·23 30
'8 . . .
~.
2
95
100
AO
3
95
100
AO
3
original' hardniiss~Shoie ~60
50
7
125
A-l0
'.
;.~~- ;~::':;;;;:/
70 50-100
14
30 23 23
8'
6
7
75
84
A-ll
fluid has lillie 10 nO'effecl" original hardness- shlii'e' 1.72
23
"
2.9
6
6
70
85
A-9
original hardness- Shorli'A1o
23 '.~'
.'
2.9
6
-21.7
83
90
A13
original hardness- sh~i~
23
2.9
8
-7.1
80
101
A-4
original
30
7
3'
10
61
71
A-8
original hardness- S~ore~.60
30
14
3
11
61
71
A-8
Nitroethane 23 lexlroxide N204, 1
6 2
'
8
23
'.,,4
::'j::::/e>'::::::/=: Alia
hardn~- ~~~i~~52' . 4!
:0
DuPont Nordel (EPDM) (EPDM)
DuPont Nordel (EPDM) Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ 50 phr FEF carb.bl., cure-30min/160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ100 phr tolial. laic; cure-30 minl160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/EJ140 phr FEF carbo bl. cure-30 min/160C Ausimonl Dutral TER (EPDM); 50 phr TER 044/EJ 100 phr TER 535/EJ 50 phr FEF carbo bl, moon. visc-47 Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
. ~. .. (EPDM)
uns$llsfact.ory; fott!~e recommended lor ~s. liltle/no effect-uvere condo mavcause chan~_e .. i iit jl mo((er.lsevera swell and/iir 1~'oJ ·prop.
<10
m
"'U
(EPDM) DuPont Nordel (EPDM) Ausimonl Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fieclol H; cure-40 min/165C
"
'il 23
"." .,·:::~m~~}?'
~"
minor 10 moder. ef(!~t may cause 51. visibla swelliJoss;ot prop:'
6
Ausimonl Dutral co (EPM); 60 phr SRF carb.bl./O,5 phr Fieclol H; cure·40 min/165C
y
2.9
'.
DuPont Nordel (EPDM)
IiItie/no effect-severe condo 'rrui cause change .
<10
8
23;
23
Nitrogen Tetraoxide
Uiv,ce'"
•.. ·iirisallsra~loiy.lor use
2
23
Nitrogen
lest specimens softened;Sh6,a A60 lIuid has savere·~tieet not suitable lor
Nitrobenzene
•. Ausimont DUlral TER 535/E (EPDM); 200 phr TER 535/E/140 . phr FEF carbo bl, cure-30 min/160C Ausimont Dutral TER (EPDM); 50 phr TER 044/EJ 100 phr TER 535/EJ 50 phr FEF carbo bl, moon. visc-47 Ausimonl Dutral CO (EPM); 60 phr SRF carb.bl.lO.5 phr Flectol H; cure-40 min/165C
"\;:;;:V<.:··
may cause 51. vlslbles~eMos$otpiop. fluid has ~~vere';fle<;t" original hardness' 'S~0';>A60 =:.:;:
65
Ausimonl Dulral TER 044/E (EPDM); 100 phr TER OWEJ 50 phr FEF carb.bl., cure-30minl160C Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/E/l00 . phr tolial. talc; cure-30 min/160C
test specimens dissolved; Sh~te.A60
":'
2 7
modii:t~eflect
IIuid has minor to lIuid has savere a1fe<;t
5
7()
sh~;i~~il i-: -:."
DuPonl Nordel (EPDM)
Chemical Resistance - Ethylene Propylene Rubber
"
CAl
Chemical Resistance - Ethylene Propylene Rubber
m
-...I
~
"1J
:::IJ -;:
. ,M~terlal Note
TelllP,!,Ti.m e:
;J'~I
....ldays)
(EPDM)
Nitromethane Nitropropane Nitrotoluene Octachlorotoluene
with 60% dinilrotoluene
40
Octadecane Octane
N-Octane n·Octane
Octyl Alcohol Oleic Acid DuPont Nordel (EPDM)
Oleum
(EPDM)
fuming sulfuric acid spirits fuming sulfuric acid
DuPont Nordel (EPDM)
20-25
(EPDM)
Olive Oil Oronite 8200 Oronite 8515 Orthochloroethylbenzene Orthochloronaphthalene Orthodichlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid
os 45 type III os 45 type IV <10 10 10 10 10
Oxygen @
::9 p ~
0' C/)
cold liquid cold
.., ..,
\l::
---
93 94 93
100 95 90
A-4 A-2 A-4
Ausimont Outral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
(EPDM)
<10
<10 11.5 ppm
Ausimont Dutral TER 046/E3 (EPDM): 35 phr 046/E3/65 phr nat. rub.; compo cure· 90 sec/200C Ausimont Dutral TER 537/E2 (EPDM); 70 phr 537/E2/65 phr nat. rub.; compo cure- 90 sec/200C
Duco
(EPDM)
;:s
t
2.5 2.5
A-2
Ozone
C/)
0-
0 1.5 1.5
100
hot cold
~ tE· P
94
0
Paint Thinners
@
'~" ~
Reagent
f?
Palmitic Acid
n'<J>
'Reagent Note-
conc'l (%)
Temp. ('C) .
I I' Time
(da~si
P'O[
Rating I
Hardness I c:h@99~'
.
Resistance Note:: .
MateriatNote .
',}"
':~.
(EPDM)
<J>
tEo ;::l
t-
DuPont Nordel (EPDM)
Paraflu 11
with 50% water
o:...
... \t:
50 50
.• :".:70 70.,
2.9
8·
1.3
1.3
104
A4
2.9
9
0.9
1.8
97
AD
. Shole A69;
car nidi~toihos~fO(~~1!
>:l
'::/~:;:
Peanut Oil
Ausimont Dutral TEA (EPDM); 98 TEA 334/El30 phr TEA 044/EI fillers; cure·20 min/l60C Ausimont Dutral TEA (EPDM); 98 TEA 334/El30 phr TEA 044/EI fillers; steam cure· 30 minl7 bar (EPDM)
Pentane (N-) Perchloric Acid Perchloroethylene DuPont Nordel (EPDM)
Petroleum Petroleum Oil
above 250 deg below 250 deg
(EPDM)
crude
Phenol carbolic acid
with 30% H2O with 15% H2O
Phenolsulfonic Acid
.:.:...;.:...;.;.,:.;.;.:.;.:.:.....
70 85
;';;~";.;[
10
'::"'·70",
7
10
i4zQ'f+i
14
::}<.:;
't::;}::~:.
:'% j:jt/tXi:
Phenyl Benzene biphenyl/diphenyl
;!rt~~[~:~~~~ts~!r1~
0
2.5
91
80
A·4
0
3.5
86
78
A-4
1;·~.~.;lii
.
(EPDM)
<"2'ft
::;,:..:.\;e\:\:}
DuPont Nordel (EPDM) Ausimonl Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure-40 min/165C
1
1.2
97
92
A·4
1.3
1.5
91
87
A-4
m%~jFd
lil'r[I;!I!i:tl~rlliiJ.iii;i~ii~~~~O;i:;;1
;J'@ikti2'jIj!1~'M!~fX!o/;~.s,~lt;·H?:
Ausimont Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure·40 min/165C
.
(EPDM)
Phenylethyl Ether phenetole
Phenylhydrazine Phorone diisopropylidene acelone
Phosphoric Acid
3 molar concentrated 20 20 20 45 45
<10 DuPont Nordel (EPDM) (EPDM) <10
60 70 85
DuPont Nordel (EPDM)
m
""0
::D
Chemical Resistance - Ethylene Propylene Rubber
-... CJ1
Chemical Resistance - Ethylene Propylene Rubber
m
"'U
--..J
0)
3J
Reagent
Reagent Note
(%)
Phosphoric Acid
solulion
I
I
Cone, Temp, Time ('C)(~ays)
85
23
2.9
85
23
2.9
85
23
2.9 2.9
2~
85
% Retained
IRating POL Ii;
Elongation
Hardness Change
Resistance Note
Material Note Ausimonl DUlral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/EI 50 phr FEF carbo bl, moon. visc·47 Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure·30min/160C Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/E/l00 phr folial. laic; cure·30 min/160C Ausimonl Dulral TER 535/E (EPDM); 200 phr TER 535/E/140 phr FEF carbo bl, cure·30 minl160C Ausimonl DUlral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure·40 min/165C
-0.9
87
93
A-4
original hardness- Shore A52
0.8
99
99
A-2
original hardness~ ·Shore A72
"~
-2.4
105
100
A-2
original har~."ess· Shors A%
:':" 9":
-0.9
104
90
A-2
original hardness- Shore A58
94
100
AO
original hardness- Shore A60
92 86 85 97
100 100 96 79
AO AO AO A-I
original ha'rdnij$s,S~ore A72
A-3
original hardnllss- Shore AIO original hard~~-Shor. A58
,.9
:::.
7
85
solulion
a
9 ~:
a a a
100
14 7 14 2.9
8
85
100
2.9
Ere
5.4
130
84
85
100
11.9
109
83
A-4
85
100
1.7
90
85
A-4
85 85 85 85
9 ~
."
17% nilric acid, 4% HF 20% n~ric acid, 4% HF
change
!CIOder. io seve,eeftect fluid has severe e!teCt
23 23 23
2
23 23 .,30
2
30
DuPonl Nordel (EPDM)
modlirJsevere swell and/or JO:~ 01 prop. .minor to mode,: effect
H20 solution mollen
7
2
95
100
AO
14
3
91
95
AO
(EPDM)
fluid has minortomod~ia.,e effect may cause st.vi~I~le swell/lossol prop. original hardn"ss/Shoil A60
DuPont Nordel (EPDM) (EPDM) Ausimonl Dulral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure·40 min/165C
unsalislaclO.fY for use
(EPDM)
while while
(EPDM)
recommended lor use'
-
Pickling Solutions
. Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure·30min/160C • Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/Ell00 phr lolial. laic; cure-30 min/160C ; Ausimonl Dulral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl, cure·30 min/160C Ausimont DUlral TER (EPDM); 50 phr TER 044/Ell00 phr TER 535/EI 50 phr FEF carbo bl, moon. visc-47
I~Uelno effect·seilera cOndo may cause
<10
23
Pine Oil
a 0.8
-
Phosphorous Trichloride
Picric Acid
a
23 23
-
Pinene
23
Piperidine ©
2
..3
Plating Solutions
Al'
"t.
,+
Ei
chrome olhers chrome
r;'
"
<10
olhers
<10
"tl ~
C/)
~
cEo ;:l
t""
.,0: .,>l
te:
Pneumatic Service Polyvinyl Acetate Potassium
-emulsion molten
:::."
":
·i::~~tl~~~ "ow.:.
~';"'"''''''''-'''''''''''
'. ':cieconUnendedWtis$o;<
<10
lit~~o ~",~~-~~~t;ij;~;~r·cause ..
,
@
'tl
S' ~
n'VJ tl
..,
J (,r;)
1~~~jr~J
Potassium Acetate
tEo Potassium Bichromate
~ c:r P u::
... ...
20
0.3
2
99
89
AD
O.S
2
99
83
AD
20
1
2.S
98
89
A-2
20
1.5
4
91
86
(EPDM)
A·2
. •.';0;:
Oti~~:~I~~d~:~,~; .••~hO~.~ . 1~e
Ausimont Dutral co (EPM); 60 ph, SRF carb.bl./O.S phr Flectol H; cu,e-40 min/16SC
(EPDM)
::':::."'::;:;:::.:
\ :2~/
<10
r~~,i ;".,: .. ..
7
27
30:".
14
27
70/
7
27
.,. ).70'" . '.:"': ..
27
Potassium Cuprocyanide
.:.
~./:
,;!"--~
<10
20
Potassium Chloride
Ii",.,
rec~e~de~f~'; u~ll
".
n· s
~
VJ
;:l
,::";·:.,·:tF
.c.nl!,l'!~~.H
/Sltenglril .............-.-..-......, •....
1iii~···
'::::.:~<;):~
9];
0
1
99
88
AD
14
.;
)~t!:···· ' l&. .~ /.,:;:,
.
A-l
0
2
94
85
0.4
1.8
96
86
A·l
0.6
3.9
85
80
A-l
···It··<
2?';i
Ausimont Dut,al co (EPM); 60 phr SRF carb.bl./O.S ph, Flectol H; cure-40 min/165C
.// .. origlna,.hai~n • •·Sho,e A60
rk::>::·':';:):··
;:::):~.::.;.:.
'jecomllle~de(llo, U$e:
'.,:.
8·····.....
(EPDM)
<10
.:~~:.:,. ;.'
Potassium Cyanide
·f:,:\. '. recomnlended 10"IIn
"'';'fi .. ..
2h
8
Potassium Dichromate solution
iiili~{e~~ffllcil~i~~~~o~d.may ~au~e
<10
S 8
23 23
'. iecoi!im:ended io, use
'8
f1uicilii;littl~ to no .ff~cl 1~i1eln~~i'eCI~e~ered(i~ci. may cause
<10
.••/'.:
Potassium Hydroxide
8 dilute solution
23
'/'8~
50
30
7
9
50
30,
14
57
3Q
7
57
14
57
30' 70
9 9 9
57
70·
92
0
,
7 14
9 , 7·
96
AD
'. o,iginal
0
91
96
AD
0
100
98
A-2 A·3 A-3
0
0.5
100
95
0.2
3.7
96
1.7
5.1
92
96 94
h~idness- Sho,e. A60 ..
:.;.;:
8
23
17
30
7
17 17 17
30' . (0-
14
70
14
7
:" .. :.:.,.
Potassium Salts Potassium Sulfate
DuPont Nordel (EPDM) (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cu'e-40 min/165C
; recomme~~~d lo(us~'
(EPDM)
; o'l~inarhatdnll$$i Sh9'~ A60
Ausimont Dutral co (EPM); 60 phr SRF carb.bl./O.S phr Flectol H; cure-40 min/165C
<10 2
100
0.5
2.5
0.7
5.6
1
6.6
!l
0.3
':F) > ..···8·· •. tt·
:.;~
'
(EPDM)
A-3
S.·
Potassium Nitrate Potassium Phosphate
::~
DuPont No,del (EPDM)
..
liille/no effeci1se~~ie~nd. may cause ·.change
<10
:~:;
Potassium Iodide
':...
,e.commended 10' use· ::,,;-,., :.-"';:-. :.~. fluid haS Inll, 10 jlO effect
8
23
.. ch.aryge ' i
94
A·4
100
89
A-4
92
96
A·4
84
90
A-4
.; SY.
.....
~
i8~~!'!P~nd~d for us~ . "w.
(EPDM)
? . •\8". <10 11
7
0.3
0
96
94
A-3
11
14
0.4
0.5
96
89
A-4
11
7
1.5
1.8
99
96
A-4
11
14
1.6
2.6
91
88
A-4
Ausimont Dutral co (EPM); 60 ph, SRF carb.bI./0.5 ph, Flectol H; cu,e-40 min/16SC
m
-U
:c
Chemical Resistance - Ethylene Propylene Rubber
-..J '-.I
Chemical Resistance - Ethylene Propylene Rubber
m
-u
~
co
:JJ
I' (ii. Reagent
h
Re~gent Note
cf~)~~ :T~.~t ~~~~ R~3~g
"
1
-
2
23
8 8
<10
l·propanol
23
8 8.
<10
'30
7
8
39 30 30
14 7 14
5
23 30
7
30
14
;mi!¥P!W~~SI.~!~i~I~~~I'J!!1R~~:R,prRI%i
85
93
A-2
5
75
39 42
43 41
82 51 42
A-6 A-12 A-16
10
12
71
69
A-6
4
12
15
64
66
A-6
1
23
6·
hydraulic fluid; Monsanto
23
6 8
hydraulic fluid; Monsanto
23
8
hydraulic fluid; Monsanto
23
Pydraul115E
<10
6
Pydraul 230E Pydraul29 ELT
<10
<10
23'
Pydraul 29ELT Pydraul30E
t""
..,0:p .., It::
#.~-
Ausimont Dutral CO (EPM); 50 phr SRF carb.bUO.S phr Fleetol H; cure-40 min/15SC
»jI'
..
:'
... ~:.:.
iilinoriO'iiiOdei:efiec,·· may cause sl: visiblesw~lUloSS of prop. . origi~alharci~ess. Shore AGO
(EPDM) Ausimont Dutral CO (EPM); 50 phr SRF carb.bUO.S phr Flectol H; cu'e·40 min/15SC
". i'unSli!lsfaciory for use
(EPDM)
minor 10 moder: effect :, may cause 51. ~isib;e'sweIVioss 01 prop. '.'.'.: mitior to··moder. effecl iitllelnoefl8cl:Seve,e conlinay cause ",::cnange . \.;iii'QOr WiiiOa~F8fiect. . " litUwilo effect~eve(e.cond .. may cause·
.;;,§:£t{;;%.:.SIi~~g~&"...../ .
.'ffl1r:);~%!~1;1~:(:~~~!:~t~s~' .:-::~;;:: ..~
hydraulic fluid; Monsanto
<10
:
"
. '·
'. ~::
."htfe~nf~~~,tjli~;~~~~d;'V~,c~~~t
<;?~><' l y j e i J o tsuitable fOI$8rv~ce
Pydraul312C
",,~~;'p': ;
Ipydraul312E
Pydraul 5 0 E , ~. hydraulic fluid;
Pydraul 540C
,eCOml1lenaed use mueino eflecl-Severe. condo may'cause .• ?. .':.' cllange' ori.ginal·hardnes.s.- Shore ABO
not ·s~;iable 10' service
6
Pydraul10E
lor
6 8· 4
23
Propylene Oxide
recommeiiaedioruse mUei'no eflect-se"ere cond. may cause . chang~.
-
2·
Propylene
'" cE' ;:l
(EPDM)
minor lo:moder.eflect
methyl butyl ketone
n·propyl Nitrate
'~"
recommended for use unsatisfactOry for use fj)r service . unsatlsfaclory.lor use
6 6
Propyl Nitrate
r;'
Material Note
·n~l.suilable
23
Propyl Ether
Ei '...."
Resistance Note
2
23
Propyl Alcohol
@
~tia!1ge
2
Propane Propionitrile Propyl Acetate
"tl
Hardness
·8
Potassium Sulfite Producer Gas Propane
Propyl Acetate (N-) Propyl Acetone
.flOngaliOn
..
~~~~.
, ",8'··
t3:~ ~~;~
·.··'TV; <10
•.•~~.. . . .,. . . .
3,,;.,,:
DUPOn\~:~~/EPDM)
I
.,
li\tlefno eflee\-$e~eie coodimay cause.
i1z:,~..tii i' ,
I
@
"tl
S' ~
r;' en
tl
IR~~~ent Pydraul65E
(\)
en
cE' ;:l
··"·2~l'}.i
.'??" 8
<10
hydraulic fluid; Monsanto
····'·'·23
'''/:-'8< <""
<10
;iii;l~;~~f~~~~~~~~~~;j~~~':,~~~er
Pydraul90E
t":
C"'
.... ~ ....
(EPDM) hydraulic lIuid; Monsanto
\~?f~l!fB~t~rr!~f~~~\ .'
Pyranol
oOt~ilihible"~t~,rvjce< '.' '.,"'"
Transformer Oil. GE
u::
Pyridine
oil
o
5
71
74
A-6
0.2
7
67
72
A-6
t1:m~f~~
Pyroligneous Acid
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure-40 min/165C (EPDM)
Pyrrole Ramjet Fuel Rapeseed Oil
AJ 1; MIL-F-25558 B <10
Red Oil RJ 1 RP 1
MIL-H-5606 MIL-F-25558 MIL-A-25576 MIL-H-25576 C
Sal Ammoniac <10
Salicylic Acid <10
Salt Brine Santosafe 300 Sasso Oil
Sea Water
chlorinated 12
14
67
71
A-S
16
19
70
90
A·12
<10
Ausimont Dutral TEA (EPDM); 87.5 phr TEA 235/E2/42 phr TEA 334/E; compo cure- 20 min/160C Ausimont Dutral TEA (EPDM); 87.5 phr TEA 235/E2/42 phr TEA 334/E; inj. cure- 120 sec/175C (EPDM) DuPont Nordel (EPDM)
Sewage Silicate Esters Silicone Greases
(EPDM)
<10 DuPont Nordel (EPDM) (EPDM)
Silicone Oils <10
m
"
:::c
Chemical Resistance - Ethylene Propylene Rubber
-... co
Chemical Resistance - Ethylene Propylene Rubber
m
"'U
00 C>
:D
Reagent
Reagent Note'
Iconc·ITem p. I'lloj
Elongation
I Hardness
Resistance Note
Material Note
Change
('C)
Silver Nitrate
(EPDM) 23
Skelly Solvent
solvent B solvent e
SkydrolSOO Monsanto; hydraulic fluid
<10
lire resist. hydraulic fluid
-8.7
DuPont Nordel (EPDM)
Skydrol SOOA
90
102
AO
1.8
96
95
A-7
original hardnesS- Sh~re A72
1.4
728
94
A-3
original hardQ9SS:Shore A4S'
-18.1
83
B5
A9
original hardness- Shore 1158:""
:.s::
23
2.9
23
2.9
7
7
4.1
3.6
95
97
A-4
4.8
.100.
14 2.9
3.8 -16.9
86 87
95 73
A-4 A3
100,
2.9
11.3
90
82
A-12
100
2.9
12.8
120
B9
A-13
-23.8
99
52
A17
70'
"~'
70"
<.
".
Origl~~l ~;;~~~:S~:~~;~~~i~~.:\':'
•.>
original
hardn~'$S'S~O~A5{%
original
har~n9SS,-Shor~A?~
•
Ausimont Dutral TER (EPDM); 50 phr TER 044/El100 phr TER 535/EI 50 phr FEF carbo bl, moon. visc-47 Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EI 50 phr FEF carb.bl., cure-30minl160e Ausimont Dutral TER 048/E (EPDM); 10 phr Ti02/30 phr silica/50 phr paraffin; cure·15 min/160e , Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl. cure-30 min/160e Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol Ii; cure·40 min/165e
Ausimont Dutral TER (EPDM); 50 phr TER 044/El100 phr .. TER 535/El50 phr FEF carbo bl, moon. visc-47 }; Ausimont Dutral TER OWE (EPDM); 100 phr TER 044/El50 phr FEF carb.bl., cure-30mln/160e Ausimonl Dutral TER 048/E (EPDM); 10 phr TI02/30 phr silica/50 phr paraffin; cure-15 mln/160e 'i Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/El140 ,. phr FEF carbo bl, cure-30 min/160e
:::;:~:::;;~~!!t:~~~
Skydrol 7000
(EPDM) <10
Monsanto; hydraulic fluid
Soap
8.8
5.3
94
92
A-S
9.1
8.4
88
BB
A-6
X
solutions
;::~~;:.
Ausimont Dutral eo (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165e (EPDM)
<10 DuPont Nordel (EPDM)
-
Soda Ash
(EPDM)
<10
-
Sodium Acetate
<10 @
Sodium Bicarbonate
baking soda
S" ~
n'
-
Sodium Bisulfite
<10
C/)
r?
C/)
IS ;:l t"'
.,0: .,$::l
It:
<10
'1:l
-
Sodium Borate
<10
Sodium Carbonate Sodium Chloride
,}:.;~
soda ash solution
"
jiuidh~I#!:J~~;l:~;L ,f.
DuPont Nordel (EPDM)
@
'"
Ei ~
~eagent
Reagent Note
conc'ITemp'l Time ('llo)
n'
('C)
I' POL
C/)
1?
~.'
Sodium Chloride
23
C/)
<0' ;:s
t-
o:.., ..,
25 25
I=l
u:::
Sodium Chlorite
4 gil; pH-4.9, acidified wilh H2S04 50 gil; pH-4,9, acidified wilh H2S04 4 gil; pH-4,9, acidified wilh H2S04 50 gil; pH-4,9. acidified wilh H2S04 4 gil; pH-4,9, acidified wilh H2S04 50 gil; pH-4,9, acidified wilh H2S04
Elongallon
(days) ~atjng
7
30
14
70 70
7
100
14 4,2
100
4.2
100
7
Material Note
.,
<10
o
0.6
100
89
A·4
8
o
8
0.8 1 1.6
96 96 92
88 88 88
A-S A-5 A-5 A1
'9
i.
Resistance Note
Change
8
30
I Hardness
~'
8
0.5 0.8
r
8
3
2
97
99
8
3
2.3
90
100
AO
6'
21
22
81
93
A-3
17
16.5
71
102
A-2
23.6
20
63
84
A-6
15
14
77
89
A-3
'"lIe/no eUect·severe condo may cause change. original hardnllSS- S~ore A60
(EPDM) Ausimonl DUlral CO (EPM): 60 phr SRF carb.bl./O,5 phr Fleclol H; cure-40 min/165C
Ausimonl Dutral co (EPM); 60 phr SRF carb.bl./O.S phr Frectol H. press cure-40 minl165C
Sodium Cyanide
(EPDM) <10
Sodium Dichromate Sodium Hydroxide
DuPont Nordel (EPDM)
20
(EPDM) <10 97
98
A2
99
100
A4
o
98
100
A·1
20 46.5 46.5
o
98
100
A·l
o
93
95
AO
46.5
o
92
95
AD
2 2 20 20
Sodium Hydroxide
0.9
50 50
-1
100
101
A·5
50
·0.5
94
97
A·2
50
-0.5
93
88
A-l
50
-0.4
108
95
A·8
50
-1.4
92
67
A-l
Ausimonl Dulral CO (EPM); 50 phr CO 054/50 phr CO 554/P/45 phr HA~ carb.bl., cure-40 min/165C DuPonl Norder (EPDM) Ausimonl DUlral CO (EPM); 60 phr SRF carb.bI./0.5 phr Fleclol H; cure-40 min/165C DuPonl Nordel (EPDM) Ausimonl Dulral CO (EPM): 60 phr SRF carb.bI./0.5 phr Fleclol H; cure·40 min/165C
original hardn~. ShOle ASS' ~"
. orlgilial hardness- S.hor.,,72 .•i
50
-0.2
99
78
AO
50
1.1
148
80
A-1
original hardness; Shore A7ff:': .".,.
50
·1
118
81
A1
original hardness- Shore AS8 . ffuid has litll~ to no .~ect
,.
73
..
•.
m
""tJ
::II
Chemical Resistance - Ethylene Propylene Rubber
':,>..
DuPont Nordel (EPDM) Ausimonl Dutral TER (EPDM): SO phr TER 044/E1100 phr TER 535/E1 50 phr FEF carbo bl, moon. visc-47 Ausimonl Dutral TER 044/E (EPDM); 100 phr TER 044/E150 phr FEF carb.bl., cure-30min/160C Ausimonl Dutral TER 0441E (EPDM); 100 phr TER 044/E1100 phr foliaf. laic: cure·30 min/160C Ausimonl Dulral TER 535/E (EPDM): 200 phr TER 535/E1140 phr FEF carbo bl, cure-30 min/160C Ausimonl Dulral TER (EPDM): 50 phr TER 044/E1100 phr TER 53S/El50 phr FEF carbo bl, moon. visc-47 Ausimonl Dulral TER 044/E (EPDM); 100 phr TER 044/E1 50 phr FEF carb.bl., cure-30min/160C Ausimonl DUlral TER 044/E (EPDM); 100 phr TER 0441E1100 phr folial. laic; cure-30 min/160C Dulral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl, cure-30 min/160C DuPont Nordel (EPDM)
co ......
Chemical Resistance - Ethylene Propylene Rubber
m
"'U
~
co N
::D
I
I
IReagent
I
Sodium Hypochlorite
I Reagent Note
I
% Change
P~L
Cone. Temp•.Time. (~L,
.•
% Reti.iij~d
Welghll Volume, .: Tensllell Elongetlon
J~mh Ratmg~,!~?~m'
('C)
9% CI
8
-1.6
8
-0.6
6
-3.4
-0.7
-3.1
I
100
110
A-3
original hardness- ShoreA61
101
112
A-4
orlglna' hardness- ShoreA55
90
A-2
or,ginal hardness-
65
6 83.8
A-5
75
90
A-3
Shore A52;
112
96.8
A-2
Shore A49; waShin?, machin~window gasket onnul. .
100
115
A-1
fluid has mUe 10 no effect· original hardnes~~ Share A63
80
126
Al
original hardn~;. ShoreA60
0
97
100
A-1
origlna' hardn~ss- Shore A60
0
94
100
A-1
commercial
80
4
6
-2
0.1
ACE
2
'70
1
6
4.18
4.63
2
70
1
7
8.6
9.6
5 12
23 90
12.5
8 8
-2.2
-2.4
12
90"
12.5
-2
-2.5
20 20
23 30
7
8 9
20
30
14
9
~:
71
iluid has
8 8
23
<10
8
23'· 43 43 43 43
7
30 30 70 70
,
14 7 14
Sodium Perborate 2
90-100
7
2
90-100
14
Sodium Peroxide solution
23
,
0.2
9" ..
0.2 0.5 0.7
9
i! 8" 8
23
<10
9
..
~
3.9
'·8 8 8
1.5 2 2.5
100 100 91 86
91 91 90 90
A-2 A-2 A-2 A-2
4.9 4.6
93
98
A1
98
104
A3
Sodium Phosphate
'1:l
" ':.
l:i en ..... rio
monobasic
tl
(EPDM)
.'.~,
~:
.
.... .iicoiiiiiiiiiidilolo/usii':' fluid has mUe to no effect muerno effect-severe ~nd;may cause , change""':'" .,.
recommendecl f~.f'~s~·
43
0.3
0
97
90
Ausimont Dutral CO ~EPM); 50 phr CO 054/50 phr CO 554/P/45 phr HA carb.bl., cure-40 min/165C (EPDM) DuPonl Nordel (EPDM) (EPDM)
n
orlglnat hardnesS" $~ore~60\ ,,'"
A-5
:;";.:: :'W{:;:;
Cl>
en
"
;:s
"
~-
t"'
"."
<10
en
..,0: P ..,
recommended lar use' .. mUefno effect-severe CCllid. ii)ay cause change i.,' . original hardness- Sh~re A50
., ';'8".)
dibasic mono tribasic
Ausimont Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure-40 min/165C
•,
<10 @
(EPDM)
., '"Ue/no eflect:severe co;,c;:'ri:ta y c;use change :. '.' . original hard~ess- ShO;~.A60 ".
~
<10 4.1
".7
1
Ausimont Dutral TEA 048/E (EPDM); 10 phr Ti02/30 phr silica/50 phr parallin; cure-15 min/160C Ausimont Dutral TEA (EPDM); 87.5 phr TEA 235/E2/42 phr . TEA 3341E; camp. cure- 20 min/160C Ausimont Dutral TEA (EPDM); 87.5 phr TEA 235/E2/42 phr TEA 334/E; inj. cure- 120 sec/175C DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 20 phr carille. IA-305, 80 phr FEF carb.bl., vulcan.-40 min/6.5 bar Ausimont Dutral CO (EPM); 70 phr CO 554/P/ 30 phr CO 054, 95 phr vulc. 18 min-4.5 bar DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure-40 min/165C
recommendad lo;·use··· liUIe/no effect-severe .cpnd:;;;ay cause ctiange...··:>: .•.• ... ... . ·····recommendeil'(o'tlise>
If
Sodium Nitrate
I~Ue to no"'~~~i:t
.
:.,.
Sodium Metaphosphate
Wa~~ing~aChi~e w;nJ~w
gaskel formu\. .•.. ,.
Material Note Ausimont Dutral CO (EPM); 45 phr CO 554/P/ 55 phr CO 054/55 phr HAF carb.bl., cure-18 min/150C Ausimont Dutral CO (EPM); 50 phr CO 554/P/ 50 phr CO 054/45 phr HAF carb.bl., cure-18 min-150C Ausimont Dutral CO (EPM); carb.bl.; 75 phr CO 554/P/25 phr CO 054120 phr polyisoprene; cure-18 min-150C (EPDM)
'S;'or~ A60
minor 10 mOd'er. effect may cause sl. VISlbl~ Iwallno;; oiprop_ original hardn~~ Sho,; 1\45
6 23"
I
Resistance Note
Hardness·l·
............J~han9.~,
Sodium Salts
"
43 43 43
0.3 0.8 0.8 ~r·:~
0.7 1 1.5
94 94 94
88 88 88
::~::{:+.
"." \;:::;: .
Ausimont Dutral CO (EPM); 60 phr SAF carb.bI./0.5 phr Flectol H; cure-40 min/165C
A-6 A-6 A-6
I
r,cOfl!lllend,.c1tO{1f~8 ?'f' '
(EPDM)
@
'1:l
P ~
ri' (I)
~
Sodium Silicate
recommended 16r
(I)
to· ;:l
-
Sodium Sulfate
.,0: .,~
40
7
0.2
\t::
40
14
40
7
40
14
2
100
90
A-2
0.8
3
100
88
A-2
1.1
2.5
96
88
A-3
1.3
3.5
95
88
A-3
Sodium Sulfide Sodium Sulfite Sodium Thiosulfate
(EPDM)
Ausimont Dutral co (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
(EPDM)
"
<10
23 7
30
9
0
0
100
100
A-4
"'.
":::::
45
30
14
9
A-4
7
9 -;.;,.
0 1.5
95
70
0 1
99
45
100
98
A-5
45
70<-
14
8'.'
1.2
2.5
96
95
A-5
Soybean Oil
(EPDM)
mode!: 10 severeeliecC
lJ1oderJsevei~.sW~lIa~dio/losS 61 p~~~. Uuid. ~~sse~~f~~!l~~
DuPont Nordel (EPDM)
use .··w.,
:2
;~.
Ausimont Dutral co (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
".
2
23: fuel
.....
.~ :.{"
4 4
23
;
~~i'¢~use • original ;ard~~ss. Shore'~60
litue/noelfect.s.eVere ¢Jrid. ., change"'"
.. :'~,- ..;.
45
SR 10 SR 6 Stannic Chloride
..:,.;.:
~~~~iit~
<10
t-'
u~~
;,/!'ecl>~~~~~\~~~d;·:~!~~f~~·.··~·'·:.·
<10
,,!~sa~#a~iorrW
(EPDM)
2
"
6 aqueous
8
;." 23
minor 10'mOder: elfecL.
<10
l!lIIe/no
effe~i'$~~~eg~~'l~',~~ causer min'or 10 moder. elfe~l:t
50
Stannous Chloride
...•.. <10
aqueous
,i'
15
. (!~O~en~edl~r~~~ ..•.•••.• ,,; lillie/no elfect·severe;",ond. may cailS~"'"
i'f1u::~~~:;~n~Jd~al;;C~;lec;':.:" u~tlsf.a9t~~1~r us~.
Stauffer 7700 Steam
(EPDM)
lit~/no effect·severe
<10
.
>14;r
DuPont Nordel (EPDM)
C9nd. may.•cause . .c~ange . , :;.
.'. moderJsevare s'well and/or loss'oi prop.
····<;177 Ph'
" ' , reco~mended:lor~se' lIuii! has IitUe 10 no ellect
,>In
".
Stearic Acid
, DuPont Nordel (EPDM)
moder.. lo se~"re ~~eii minor io ·moder. eile~t .•
(EPDM)
liuid has minor to moderate elteci..
DuPont Nordel (EPDM)
.11l~i~C~UStsl,~isi~le~!,el~!~~¥p'P!~h) Stoddard Solvents
(EPDM)
llouiisf8PIOi)'·!oi.llse white spirits
Styrene
monomer
Sucrose
solutions
nol suilabie
fo~s~~i~e
•••.:'
Unsalisf8c1olY 10r'~set·:
."
':~:
solution
DuPont Nordel (EPDM) (EPDM)
<10 :' ::~.::
m
-0
::D
Chemical Resistance - Ethylene Propylene Rubber
00 U>
Chemical Resistance - Ethylene Propylene Rubber
m
CD
""U
.J:>.
:JJ
Reagent
I
Reagent Note
IConc, ('4)
I
Temp" Time . ('C)
{days}
I I POL Rating
Sulfite Liquors ~:.
23
Sulfur
8: 8 8
23
2 1
unsalisfaclory lor use not suitable for 'service
8 8
recommended tor use·
23
gas liquid
23 23
':"8
23 23
8
moist
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum 20% oleum concentrated dilute fuming. 20% oleum
"0
s-~ n'CIl
tl ~
<Jl
tEo ;:l
t"'
0: .,
.,
p
'C
Sulfuric Acid
· · · · · ·
lillie/no eUect·severe condo may cause change fluid has little to no effect lilltelno effecl·severe condo may cause change fluid has Iitlle to no effect Ihtle/no efiecHevere condo may cause change
<10
8
<10
8
23
8 6
recommended lor use may cause sl. visible swelll1ossof prop,
23 23
6 6 5
niinoriomod.i:.jlecf may cause sl. visible swelll10ss of prop. fluid has minor to moderate el[ect
2 6 6 6
unsatisfaclory for use minor to moder. eflect
l
>5 10 10
23
,4
,,'
6 2"
:~
8
.5
~~ ~~
2.9
8 9.
2.9
,.'i.9
:t
·0.4
99
100
A·9
·0.3
100
98
A·3
106
101
A·2
10
·1.9
91
94
AD
10
·0.5
96
86
A17
10
·2.5
105
78
A·4
10
·2.3
110
78
A·6
23
2.9
9
unsalisfa~to,ry for use nol suitable lor service moder./severe swell and/or loss of prop. may cause sl. visible swelll1oss.o.f prop, "fluld has severe·effeCt fluid has lillie 10 no ellecl fluid has minor to moderate· effect Uliid has little 10 no effect original h~rdness. Shore ,\52 I
,
origioal hardness"Sho,s A72','" i
::~
·2.9
10
(EPDM)
DuPont Nordel (EPDM) (EPDM)
DuPont Nordel (EPDM) (EPDM) DuPont Nordel (EPDM) (EPDM)
DuPont Nordel (EPDM) (EPDM)
I
2 23 23 23 23 23 23 23 23
Material Note
"
<10
8·
Sulfur Trioxide
@
Ihtle/no eUecHevere condo may ceuse change
<10
,8
Sulfur Hexafluoride
solution
minor to rnodet. effecl . mode;, tos~vere effect recommended. ior use fluid has'lillle to"no effect
23 23
dry Ilquldlfied; under pressure wet dry
r
minor to moder. ~ffect may cause sl. visibleswelll1os$ of prop.';
6 6 '" 4
Sulfur Chloride
Sulfuric Acid
Resistance Note
WeIght
6
liquors moilen moilen
Sulfur Dioxide
% Change
,;.-,
::':~::;
original hardnassc Shiire.A70. ·~:t
j;
DuPont Nordel (EPDM)
Ausimont Dutral TER (EPDM); 50 phr TER 044/E1100 phr TER 535/E150 phr FEF carbo bl. moon. visc·47 .i Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E150 phr FEF carb.bl., cure·30minl160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E/IOO phr foliat. laic; cure·30 min/160C . Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E1140 phr FEF carbo bl. cure·30 min/160C
original hardnesS..ShOra"A52', '\i:t Ausimont Dutral TER (EPDM); 50 phr TER 044/E/l00 phr . ". "~', .... ',. TER 535/E150 phr FEF carbo bl. moon. visc·47 orlglna(hardn8;S~.S~bili;A7~"'· Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E150 ", . , \.. '. .. phr FEF carb.bl.. cure·30min/160C
"orlgi~al hard~'~'s:>Shot~ A70 .. ",~.,.'.
'.,
Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E1100 phr folial. talc; cure·30 min/160C
@
::2 p ~
ri' <J>
~;ailent)f'
1::../:"0\""
',::,
Sulfuric Acid
% Retained
Reagent Note
conC'ITemp_1 Time..\ POL C%) ,C'C) (days} Rating 111
76
A-3
7
104
97
A-I
g'?:'
14 7
94 100
A4
30
97 98
100.,
2.9
<J>
30
gO'
;:l
30
~
35
solution
I Hardness
Resistance Note
-0.4
Mal,e{ial' Note
.~.:
Change
:< 10
t:l (1)
Elongation
" original'hardness-
$~pt) A~8'
".
~.:~::.
to·
o
0"
AO
,.
origl~at haid~:e~i;/ ~~?ie~?~i ,
.
.... P .... (t:
35 35 35 60 61.5
9 (9
o
.9
o
o
o o
30 70 .70 23
7
o
14 7 14
o o o
o o
:~
y'
''".:;:::.:''-
95 95 95
100 94 94
AD AD
AO
. ..
98
100
AO
fluid has sevare eilect'>:, original hardnass; Shore 'A~?
91 96 94
100 95 90
AO
2'
23 30'
61.5 61.5 61.5 50-80 90 95
Sulfuric Acid
14 7 14
30
....
original hardness'; Shore'A60 ,
Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E/140 phr FEF carbo bl, cure-30 min/160C Ausimont Dutral CO (EPM); 30 phr FEF carb.bl./30 phr SRF carb.b\., cure·18 min/150C Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
.'::::;: ::~"
.... :::
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
AD Al DuPont Nordel (EPDM)
,23/.:, ~3
96
30
7
13
96 96 96 98
30 70
14 7 14 2.9
19 6.5 8.5
7,0 :23 '23
98 98
2.9
x,s
2.9
5
63
80
A-2
4.8
63 40 30 23
76 55 40 40
A-6 Al A3 A-3
6.3
30
25
AO
original hardn'8$Si"Snore Ai2"
2.1
49
34
AO
original hardness- Sno/e'A70,,<
7.9
80
58
A-I
o/igi~al hardness: S~R(@~~8
3.5 7
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
". , original na(dness. Shore ~52
.. ~:: ::':'~ .:"
.
98
/:
.
Sulfurous Acid
Ausimonl Dutral TER (EPDM); 50 phr TER 044/E/ 100 phr TER 535/E/ 50 phr FEF carbo bl, moon. visc-47 Ausimonl Dutral TER 044/E (EPDM); 100 phr TER 044/E/ 50 phr FEF carb.b\., cure-30min/160C Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/E/l00 phr folial. talc; cure-30 min/160C Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/E/140 phr FEF carbo bl, cure-30 min/160C (EPDM) DuPont Nordel (EPDM) (EPDM)
Tannic Acid 23,
tannin
Tar
<10
·il.
10 10 10
23 30
10
., 30
8'::. 7
9
o
93
100
A-l
o
93
100
A-l
tiilSaiisfactdiyfClfvS8 Vi.
bituminous
mOdetJ~eVe!e~"'ell.ilnd/o/l~~~OI.P!Op.
--
23
Tartaric Acid
minot to moder_ ·eflecf/.'· '" . may ~ause$r~iSibl" s"'~i~d~~fp/op. . .f1uid nas rn)nor l~mo4';at~~~8~t.·
:::!
23 23;/ 20
30:·.··:" :::
'30
20
TOI Terpineol
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
7
o
91
100
A-2
14
o
88
95
A-2
.. ~.3
toluene diisocyanate
.'t,...
;: ·'23'
4
o/igil;alh~rd';8$$:S~hie
-U
DuPont Nordel (EPDM) Ausimont Dutral CD (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
" ::...~ may·cause ~(;M~m!~H#!'!1@~#!M~Mr
moiiei;'i6mef~~!feCi'
mOde(./$e~~re
swell
(EPDM)
..
ail~!~iIO~rOfpiop;
m
:c
A60 :i
(EPDM)
Chemical Resistance - Ethylene Propylene Rubber
CD
01
Chemical Resistance - Ethylene Propylene Rubber
m
""U
-"
CO 0>
:::D
Reagent
Reagent Note
conc_ITem p_, Time (%) "',
C'C) .'.' (deys),
Iflating POL
Hardness
".,." . "g;}"".,j'.
Tetrabromoethane Tetrabromomethane
Resistance Note
Material Note
notsUfta~lell)r~~~;~;
(EPDM)
Cha rl 9.e, "
H_~o~~~~~~~~it~~!~~ie); liltleI~::~:~;;;~~ttl~~~~~~~u,a
23
Tetrabutyl Titanate 23
<10
Tetrachloroethylene 23
Tetraethyllead
blend
no~,s~!l!!1~L~'9!~~'
23
"'iiilriiliiomode,; effic!
Tetrahydrofuran Tetralin
moderJsevere swell andlor"loss 01 prop_ fluid ha~'S~Yer~ .fl~Ct '
DuPont Nordel (EPDM)
un$lltisl~ctl)ryloruse
(EPDM)
noi sUilabki~;serYi~e .
tetrahydronephthalene, Dupont tetrahydronaphthalene
:..;.::.:: ::;~~;:; h~y:~ "."
177
185
190 197
26 19
24 16
A·18
Ausimont Dutra' CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
original,hardnen'.Shore A60 /'
',','
>:~,:~;
..;.: ..,
.
',"
A·18
Texamatlc Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Thionyl Chloride
(EPDM)
Tin Chloride
62.5 62.5 62.5 62.5
'30 30
i~
7 14 7 14
0
0
100
89
A·2 ~:
0 1.7 2.5
0 1.5 2.5
100 96 84
89 90 80
A-3 A-3 A-3
TItanium Tetrachloride TNT Toluene
(EPDM) trinitrotoluene
.u~~sliiC1~iYjoi~¥e!
.. noi'suilabi¥/&r serVtce
80
30
25
A·23
125
28
25
A-25
,O;;g11~~,~;;~~~[~~r~~~' :-::{ ... :~.):::::,..; ..;.
.;'~ ).;", ,~
@
'~"
p
Toluene Diisocyanate Toluene Dllsocyanlde Transformer Oils
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure·40 min/165C
TDI
;~:
DuPont Nordel (EPDM) Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C (EPDM)
Pyranol
n-
'"t l <1l
to'" ;:s
t
...,0P ..., tl::
Transmission Fluids
Mobilgas WA200; Type A automatic type A
(EPDM)
@
~
.
,Reag~l'lfNote F .
~'
~
Transmission Fluids
Cb VI
~ ;::l
t ..,
>;
type A; Esso Texamatic "An
Cone. (%)
TemlTim~ . POL. ,}'C) (dais)
Hardrie~s' r
~ati~gChang~
~~. .
i .: ,
.' Re~lsta~ce Nota" I"
Material Note
unsatisfactory lor use '"
(EPDM)
~A
Triacetin .,/23'
<10
,iAI
tr
~ Triaryl Phosphate \l::T{2;,;3;~'F
Tributoxyethyl Phosphate
'.'
;
''>''
~~/;
<10
\\~.:
{iW;8;
< 10
Tributyl Mercaptan Tributyl Phosphate
l~~fi;l~!
:;ji~l~tl;;
D!~g@'; 7,);yZ1'tnii
Tributylphosphate
~;[~~~~~~~I~l~J!I~~l~!~~~I:;~';~~~~i:ilj
8
70
72
15
70
70
A.alj~;];\~11~~~!,~~\~~'~~~;~~!~~;;;~ij!;lil~
A,a
[;;ii~lrii~1;~~lt'l;il'~
Trichloroacetic Acid
DuPont Ausimont
No;~el (EPDM)
Dut~~~t~1 ~;~;e~~cf~~n~~:5~arb.bIJ05
;~~~~~~~;4~j~~t~lt0tl~1ili~Jil;!i
(EP~M)
Wmod!Jls''''~r. $W!illliijoll9I1Q~#t.pr~iI::+
(EPDM)
phr
Trichloroethane Trichloroethylene
Triethylaluminum Triethylborane Trifluoroethane Trinitrotoluene Trioctyl Phosphate Trisod ium Phosphate Tung Oil Turbine Oil
;\;~~(;~!
(i%~ti1;;
i;~~~\;
;;[;~;;
solution(2~t china wood oil
2.5
78
aD
A·4
1
< 0
Ff~{;nF)Ltt!~1~~~}!ltI!,W~!t~!I,~(;;{?{
1;~1;1l!~:~::J;~i;~,i;jl
115; MIL-L-7808A'VY}, 135
o
W;;;¥;:;;i;'
il~~fi~t~,:~r~I'!;il~r;~~~~j~ji, U;;;@?ii@;!~?lS)~M~E!?J~Jlf(#~~1%;,};n
m
""tJ
:0
Chemical Resistance - Ethylene Propylene Rubber
DuPont Norde' (EPDM)
DuPont ::::)(EPDM) (EPDM)
CD
-oJ
Chemical Resistance - Ethylene Propylene Rubber
m
ex> ex>
"'U
::D
IReagent
Reagent Note
conc'ITemp'l Time 1%)
Ida~sl
I'C)
Turpentine 23 23
Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon Hydrolube J4 Ucon LB1145 Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 UDMH Unsymmetrical Dimethvlhvdrazine Varnish
lubricant
% Retained
I
POL Rating
Elongation
,"
IHardness Change
Resistance. Note
Material Note
;! 1 2
unsalisfaclory for use.
(EPDM)
not sUit~ble f~! service fluid hes 5e\lere effeCt
DuPont Nordel (EPDM)
s
recommended for use"
(EPDM)
S 8
oil; polyacrylonitrile glycol derivative lubricant
S 8 '" 8
·"8
rS
lubricant
"8....,;
.
8 8 oil
\,8\
lubricant
8 8 8
unsymmetrical dimethyl hydrazine unsymmetrical (UDMH)
8
23
1~IIe/no ellecl·severe condo may cause'
<10
change .. recommended for use'
"
~.
Icior; loi' use nol sulliible loY service
Vaseline
vaseline oil 14
30
68
82
51
45
A-14
97
116
42
34
A·17
Vegetable Oils 23
(EPDM)
Iillle/no·~1I8c;·severe;c~nd.may cause,
<10
,·'cti~~~e><j' ..•••
23
reconimendel\ for use little/no effect-severe c~~~.·may caJse" chan?e Lo ; ' recommend,ed lor use may cause 51. vislbte sW'elVioss 01 prop:
23
mInor to modet. effe01 not suitable for service
Vinegar
8
~\
23
@
moder. io:Se~eiiie~~~t 'recommendedlottise . "
Versilube Versilube F50
Vinyl Chloride Vinyl Fluoride Water
Ausimont Dutral CO (EPM); 60 phr SRF carb.bI./0.5 phr Flectol H; cure-40 min/165C
mod~.rJ5eva.re.5~~IJ~MI909Ss 01 prop.
23
Vinyl Acetylene
original hardness· Shore 1\60
<10
monovinyl acetylene
recommended/cruse"
drinking sail water
... ,~
~
S" ~
cold
.;:;
23
:-::} :~
r;' CI>
~ CI> ;:l
t'""
23
.,
70
0: ., $:l
2.5
99
102
A-2
2.3
98
100
A-5
0.5
98
96
A-I
2.9
99
100
A-3
";,,~~~gl~~I~;;;!~~~~~~~~;~~:~';t AusimTo~~ ~~~~T5~ph~PF~~)~;r~P~r. ~~~~.4:i~~.J~0 o;iginal h8rd~8i;;Sti6;rt~f2 ' •. '"
<E' 2.9
tt'
'hlle/no 8t1ect-se~@re . cond. 'fl\ay cau~e
<10
'0.
.'. ....
/.
phr
if .', Ausimont Dutral TER 044/E (EPDM); 100 phr TER 044/EJ 50 .. . ,.
phr FEF carb.bl., cure·30min/160C
" , ; Ausimonl Dutral TER 044/E (EPDM); 100 phr TER 044/EJ100 . ,;.) phr folial. falc; cure·30 mln/160C 0} Ausimont Dutral TER 535/E (EPDM); 200 phr TER 535/EJ140 ", phr FEF carbo bl, cure·30 min/160C J' DuPont Nordel (EPDM)
@
'tJ
S' ~
ri' Vi
I~eagen!.
I
....e't .0"
.~::
100 100
2.9
7
2.1
76
81
A-5
lIuid has mue to no ellect original hardness: Short' A52
;:l
100
2.9
8
1.7
109
83
A-I
original hardness' ShOre"A72
t
100
2.9
7
0.9
128
81
A-l
original hardness- Shore A70
2.9
;~'8
2.2
110
77
A-I
original
tl
IWater
(ll
Vi
~.
.,0P .,
100
Mat~rial Note , ... '. '.
Re!lj~tance Note
Hardness 'Change
. ('C)
8
hard~ess'
DuPont Nordel (EPDM) Ausimont Dutral TEA (EPDM); 50 phr TEA 044/EI 100 phr TEA 535/El50 phr FEF carbo bl, moon. visc-47 Ausimont Dutral TEA 044/E (EPDM); 100 phr TEA 044lEl50 phr FEF carb.bl., cure·30min/160C Ausimont Dutral TEA 044/E (EPDM); 100 phr TER 044/Ell00 phr foliat. talc; cure-30 min/160C Ausimont Dutral TEA 535/E (EPDM); 200 phr TER 535/El140 phr FEF carbo bl, cure-30 min/160C
Shore A58
Whiskey White Oil
8 "2
& wines
23
Wolmar Salt Wood Oil 23
Xenon Xylene
1
'8
i~.coirimelli:!eQ lofuse
2 ·1
. . . iiiiiilifsiaclo,yloi usa
8 2~
mixed aromatic amines di-methyl aniline
recommen.ded .lot us~:. .unsatisfacto'!y .Ior "use •nOI. suitable lo(servlce.
1 2
)llIidliassevete.ellfl~'··
"2 23;'
6
·23 .
:-~.
<10
8:•.
i~'lein~ ~uacf:s~~;~~;O~d:.~r caus,.F
:
8
Zinc Acetate
23 .
8),
.
H! solution
23
23
8 8
23.
8 8
'~ilahge
<10
"U
DuPont Nordel (EPDM) (EPDM)
recommended lOr use )'\_ ..
~:~
<10
'Iitlle/no effect'severe cond..may cause· • • change .
m
:::D
.
••.•......:
racoiiiiiie"QeQ lo?use Uuld haslilll~ to noeUe~t litue/no affect;savere condo 'may dusa ch~n~e .
.;8
Zinc Salts Zinc Sulfate
(EPDM)
tecoml1),n~edlor ~fe \./ Iiltle/no ellacHevare cond: may,cause •.•. .
<10
;.:~.
Zinc Chloride
DuPont Nordel (EPDM)
,
urlsatlsfii~t~iYlotiis~(;. . ' ; may c~4.s.eil'visible siv.eJlllos$ ol~rop; recommended·for.usa
8
Zeolites
(EPDM)
nOI stjtable f~r :serviie
'2 23
Xylidine
fecoiiiilleiidetflciiiJse ;;. .uiiiall$iilctofYlof use not suitable for service
Chemical Resistance - Ethylene Propylene Rubber
co
CO
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'Tl
r;
CD
o
s:: <
Reagent Note
.'-'
:.c.,cc,
::
",.,
"."
........~...
·.....·c ..c.c
7 7
6 6
89
100
A4
149 150
7 3
5 4
9 11
11
8
A3
150 205
7 3
6 0
9
hot, high pressure glacial
20
7
.. ..
20 2.0
30 30
2 1
7
4 6 2 8 6
..
23 23 25 i
Acetic Anhydride
~
til
<E' ;:l
t""
0: ..,
..,>l
tl::
~ i
20
2
2 1
341
20
7
3
181
20
56
1
305
7 7 2
1
200 375 187
3
1
120
50
60
2 1
23c
8 8
,.
'Cc"
2
'23 .c'"
8
Acetyl Chloride
brillie sample disintegrated
26
59
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or IiIharge, curing agent
.. ..
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or lilharge, curing agent
A-22
..
A-20 A-35 moderisevere swell and/or loss of prop. may cause sl. visible swellfloss of prop. not recommended, substantial eUect recomm.ended for use minor to moder. ellect
140
?
,
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
..
3M Fluorel (FKM)
nol suitable for service :.~
DuPont Vlton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
unsatisfaclory for use
1 1 1
23
..
A9
(FKM)
c.cunsatisfaclory for use
140
..
not recommended, substantial ellect
62
1 1
50
"
minorto moder. effect may cause sl: visible swelllloss of prop, exc. resist., little or no ellect
104 92
7
with 50% Toluene
.unsatisfactory lor use not suitable for service
.
86
".
23 70
23 23 25 20'
,
Material Note
..
7
Acetophenone
Acetylacetone Acetylene
2 1
I>
Resistance Note
unsatisfactory for use
20
Acetone
til
Hardness Change
2.3 100 100
5 30
n
I
6 6 8 8
2 2 2 1
glacial
~
Tensile Illodulus Elongation Strength .
23
glacial
..
"po
Volume
2 1
Acetamide
@
% Retained
Cone. Temp. Time POL (Oc) (days) Rating (%)
Acetaldehyde
Acetic Acid
0/0 Change
38
87
A-19
.. not suitable for service not recommended, substantial elleet
" unsatislactory lor use not suitable for service
, <10
recommended for use lillie/no ellect-severe condo may cause change
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agenl (FKM)
..
3M Fluorel (FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) (FKM)
"" unsatisfactory lor use
8
recommenaed lor use
<10
;1!!!lo/~o ~lle~tMt~ref~c~9!.maYWa.~se chan
(FKM)
@
.,
'1:l
,\
~
Rea'gent ,
S"
n'
:<
Reagent Note ':-.
,°k Change
.~;
Conc. Temp. Time ,'POL (%) ("C)" (days) Rating
C/)
~ ;:l
.
20
.
51% H2S04 and others
28 17
38
o'
Al
1
"·9
,
Aerolube Aerosafe 2300
fully saturated urethane polymer Aero Lubriplate
8
8
Aeroshell4 Air Air Compressor Fluid
20
8
2
88
23 50
7
4 1
120
50
7
1
120
100
4
5
6
,
' .
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
moderJsevere swell and/or
.nol.reeommanded•.. 65
58
A-5
8
Sheil, aviation piston lube, mineral oil
"
I~M prop,
s~b~I~~I\a!iltact
150
7
150
7
1
150
7
2 1
362
2
12
A-59
150
7
1
314
4
18
A-60
70
14
9
2
~
70
14
9
149
40
8
,
70
.
297
7
24
A-59
389
2
12
A-59
tiiiriils!aiiiMyf6flise . DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
.'
,
'" unsilfisfaci6i'Yfoi"use""""""
,
.
2
,:",;: "
•
8 8 2
A-I
28
8
9
A-6
28 28
9 8
3 3
175 70
3
6
11
3
9
0
92
109
A2
"
70
7
8
a
92
113
A2
Avtur, Sheil, kerosine (25% max. arom.)
70
14
9
Sheil, Avta~i' wide cut g850 me
70
14
.9
DuPont Viton A (FKM); 20 phr MT btack, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM~ 20 phr MT black, 15 phr magnesia or lit arge, curing agent 3M Fluorel (FKM)
exc. resist.. little or·no eHect
3
9
-'.'
"
,
28
Monsanto, Pydraul AC
"
,/
,
• recommended for use
'" ""
Pydraul 150, Monsanto
Aircraft Lubricants Aircraft Oils Aircraft Turbine Fuels
Humble 'ET025
7.0 70 ,. 100 '"
Esso no. 100
Aircraft Turbine Oils
.••• Aeroshell 760 Sheil Aerosheil 760, aviation Sheil Air no. 505, MIL-L23699
"
8 9
••••
'.
,
83
100
A-3 A-6
" " good·exc, resist., moder. effect
,
" DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
3
,
lillie/no eHecl-se~era cond, may cause change exc, resist.. little or no eHect
14 14
205
3
3
31
47
78
A,22
205
3
5
18
71
140
A-9
,
205
3
.:6,
9
84
126
A-9
I
.,
2 2
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
~:
T J 35, aviation, diester base, Exxon
3M Fluorel (FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
1
23 70 70
!!
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
.:,
"
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
re£~~en.de~for usa
.'
2 1
<167 >167
Pydraul A'200, Monsanto
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
"
..
Aerosafe 2300W
Aeroshell100
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
.':'
...., ,,2
Acrylonitrile
Adiprene L167
Material N'ote
recommended for use
'"
t"'
.,0: >:l .,
Resl~tance. Note
""<
""
;
Acid Mixtures
.~~~;;~t~l;rulus IElongallon H~~:~;~s
li
Acetylene Tetrabromide
C/)
<E'
Volume
%Retained
,
.;,
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
"T1
A
:;,:;:
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
<0
.......
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"Tl
::"\
c:o
'"
~
Reagent,
I""'i"
Aircraft Turbine Oils
Alcohols
Reagent Note
conc'ITemp'l Time ('f.)
T J 35, aviation, diester base, Exxon
denatured
I'C)
(days)
% R~j~I~;~
% Change
I
POL Rating
Volume
Tenslle~·I.uoJm~s 1l;,~ngetl9n
Slrength •
I
20,5
7
7
10
82
'10
A-10
250
20
4
29
65
73
A-20
---
8
23·
8
Alkazene Alum Aluminum Acetate
Resistance Note
Hardness ChangE!
DuPont Viton B (FKMITFE); 20 phr MT black, '5 phr magnesia or iitharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent litlle/no
<10
6
23
Material Note
recommended for use may cause change
effect,s~v~r~'cond,
2
minor to moder. effecl unsatisfaclllry lor use
2 1
not suilabl'! fpr service
8
recommended for use
(FKM)
Aluminum Nitrate
-23 -23
8 8
<10
Aluminum Phosphate
-23
recommended Illr usa lillIe/no ellect,sevewcond, .may cause change
8
<10
Aluminum Salts Aluminum Sulfate
-23 -
recommended Illr use little/no ellect:;~Je(,;:co~jl, may cause
Aluminum Bromide Aluminum Chloride Aluminum Fluoride
8
8 8 8 8
8. 8 8
23
Amines Amino Acids Ammonia
(FKM)
mixed lactams
2 2
COid
2 2
hot liquid
<10
little/no effect,severe cond, may cause change
(FKM)
<10
recommended lor use little/no effecHever;"~ond, mey cause change
(FKM)
ch~nge
(FKM) . .
(FKM)
recllmll1ended Illr use w"
ImJo/n$elrl!tgn~e!~~~~fli~y~ause change . unsaiiS18c:toryfoi use
<10
(FKM)
:.w' .;.::
....
. ':'~ ..:-
2 2
anhydrous gas, cold gas, hot anhydrous
2 1
23 23 23 25
1
Ammonium Chloride sal ammoniac
Ammonium Hydroxide
© '1:l
po ~
ri' C/)
~
C/)
to ;:l
23
6 8
o
8 6
<10
20
28
8
8
concentrated saturated
23 25
28
6 8
7.5
nli!.r~9mm~~~·~'.IW~,~!~nliel~ffect·,·.·
3M Fluorel (FKM)
liitle/no effect-severe condo may cause,'cMnge'.·
(FKM)
minor to moder. ellecl 85
100
A-3 may cause sl. visible swelVloss of prop. exc. resist., litlle or no ellect
4
mode:r;"to severe ellecl
2
-------
,
unsallsfaclory lor usa ,not suitable for service
8
recommended 10! USe
20
2
1
20
7
280
20
56
319
23
2
..,
~
tl:
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
(FKM)
unsatisfactoiy for use 308
t"-
o:..,
(FKM)
illciii\itiilliidiiifioTliiiii .~
concentrated saturated
Ammonium Salts Ammonium Sulfate Ammonium Sulfide Amyl Acetate
Mt sultable for service ~< "
1....•
,
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPonl Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agenl
@
"ll
S" ~ (:;.
:/
fteagent .....
Reagent Note
.~'
(%)
CIl
~ CIl tEo
Amyl Acetate
;:l
Amyl Alcohol
~
Conc. ITemp'l Time ('e) \ (days)
POI; Rating
.., ..,i=l
2
l-penlanol
2.0
56
"'6 .. 9
25" 70
21 2
70 100
56 5
5 9 (ecommen~ed for use litllelno eflecl'sev~re condo may cause change
<10
MIL·L-7808
<10
8
38
180
8<.,. 9
0.7
100
105
A2
'38 38 150 150
730 1095 3 3
8 6 6 5
1 8 13 9
85 73 75 82
93 86 95 146
A-6 A-7 A-l0 A-8
175 175
4 4
.7 .
9 12
204
205.. ·.:
7 3
8 10
81
96
A-7
205···..•
3
10
81
125
A-I
205 205 205
4 7 7
12 9 16
71 68
98 99
A-7 A-3 A-5
18 13
47 59
61 68
A-5 A-4
20
41
60
A-14
dyes oils
o·
28
(FKM)
litlle/no effect-severe condo may cause'change
(FKM)
6
..;::
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent
DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent
A-9 A-l0 ~.~. resiSt•• lillie or no eflect
11
A-8
5
A-4
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agent DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent . recommended for use exc. resi~I".litlleor 'n~ effect
11
149
mlle/n~llt'ect~Sll\'ll(~j:?~~;m~y~~~~e ch~nge recommended 101 use
di·ester diesler high temp. lube. med. viscosity
di·ester
(FKM)
iecoiiiiiie~iieiiio{iise
23 0"
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM) DuPont Viton; 20 phr MT black. 15 phr magnesia or litharge. curing agent
recommended for use
""T8 di·ester
(FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agenl
<10
~ ,8
Amyl Naphthalene
"'TI ;;0;;
9 8
may ca.use sl. visible swelVloss of prop. good·exc. r;·~isl., moder. efleel
8
'23
s:::
9
1 3
8 .. 8
Amyl Chloride Amyl Chloronaphthalene
Material Note
• l1ljPI!( 10 moder. effeci
8·····
23
MIL·L·7808
Resistance Note
0.7
~..::
Amyl Borate
Aniline
I
I
~~i;;~~~1 Modulus Elongal~on Ht~:~~~s
287
23
Anderol L829
% Retained
,.nol sullable for service
70
0-
Anderol L826
Volume
.... ~~ ...
l-penlanol
Anderol L744 Anderol L774
% Change
I
3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
re~~njmen~ed lor use ..... exc. res.!s).. UUle or no effect
3M Fluorel (FKM)
. l1li!lofJQ mOder, effect '~ill,iQ se.e" effect:
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
<0
(U
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"Tl
;:l';;:
:<
,
.'
~eagent " ' : , . . ..;0; ••.••
Reagent Note
..
.....
POL
Volume
Conc. Temp. Time (%) ('C) (days) Rating
20
2
4 9'
0.5
20
7
9
3
20
56
9
4
Aniline
...
dyes
23
6
23 25 70
4 7 "
::
\
5 11
28 28
6 3
26 26
56
3.
55
lard 23 23
lard oil
Prestone Prestone, with water
8 '2
"
23 50 50
122 122
• 7 14
>.
23
1254
Arocior
1260
23
Midcontinent, 85-100
(FKM)
recommended lor use good-exc. re~ist .. moder. ellect
8 10
3M Fluorel (FKM)
'. recommended .tor use
23'
;
"
"c'
"
<10
litlle/no effect~seyere condo ·may cause change
(FKM)
<10
"'" recommended 'or use 1It1Ie/no effect-severe cO,nd. may 'cause chenge'·
(FKM)
<10
recommended lor use lillie/no effect-sever,e condo '~ay cause change
(FKM)
<10
recommended lor use little/no effect-severe .cond, may cause change
(FKM)
,••
8
8
(FKM)
•
recommended tor,use
:::\\W~{~,!l~n~£ii~~~~i,tc9m~;:.m~Y.msechange
<10
.'Iittle/no effect-~~~~r"cond~' may cause ch~nge'
<10
23 ; 205
1
6
A·1
205
1
3
A-7
205
7 7
4 4
A-2
,205
,."
g} g.. , . :,."
(FKM)
.... iecol\iiiieride~JO'iJSe
.'W
"
t"'
.,
unsatislactory lor use not' suitable lor service
I
8
"
u::
"
'8
8
23
Boscan, 85-100
0:.,
(FKM)
:::"'1
minor to moder. effect, may cause sl. visible swelVloss of prop.
8 8
Asphalt
tEo '" l=)
liltle/no effect-seyere condo may cause change
6 6
23
(FKM)
recommended for use
8
~
;:l
eci
·iriUioit9!iiod·r·ii may cause sl.. visible swell/loss 01 p~op.
,
8
23
Askarel
'1:l
'~"
A-29
':
8
Arsenic Acid
o'
150
8
Monsanto
" 3M Fluorel (FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
good·exc. resist., moder. ellect 60
<10
7
8
Monsanto
po
may cause sl. viSible swell/loss of prop. modar.lsevere swell and/or loss 01 prop, exc. resist. little' or no effect
,'. 8
1248 Monsanto
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
A-1
~
8 7
Argon
Aroclor
100
.,: 1
Aqua Regia
Aroclor
100
recommended lor use
8 8 8 8
Ansul's Ether Antifreeze
Material Note
~
6 6 \: ,
,.
23. ".
Animal Oils
Resistance Note
;.
Aniline Hydrochloride
lard
TenSlIlf!J 1I0dU,usIE,ongallon, ,Hardne.s.s' Slrengl~Challgtl '
moder. to severe effect
B 7
2
70
Animal Fats
% Retained
%.Change
,
):
©
~
:s::
A4
,I ".
.,
..,
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
@
'S~"'
Reagent
Reagent Note
conc·ITem p.\ Time (%)
0'
I'C)
(days)
% Change
% Retained
POL Rating
Volume
Tensile !1I0dUIUS Elongation Strength
I
I I
Resistance Note
Hardness Change
Material Note
C/)
tl
Asphalt
205
7
9
3
A4
DuPont Viton A (FKM); 20 phr MT black, '5 phr magnesia or litharge, curing agent
205
7
9
3
AO
DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
149
7
8
6
exc. resisl., lillie or no effect
177
7
8
149
3
9
8 1
.
149
3
9
1
149
7
9
2
150
3
9
0.2
150
7 21
92
150
7
9 9 7
0.6
175
6
82
110
A3
92
175
7
7
8
83
115
AO
3
8 9 8
1.3
Midcontinent, 85-100
C1l
C/)
lEi' ;:l
t""'
0: ..,
..,~
It:
ASTM Hydrocarbon Test Fluid ASTM Oil No.1
w/8% parapoid 10-C, high aniline lube
ASTM Oil No.2 ASTM Oil No.3
lubricating oil
'23
3M Fluorel (FKM)
3M Fluorel FLS 2330 (FKM) 3M Fluorel (FKM) 103
100
AI
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·5
1.5
3M Fluorel (FKM)
exc. resi51" little or no effect
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ...;
recommended lor use 3M Fluorel (FKM)
exc. r.si51.. little or no effect
7
9
100
14
8
100
14
9
149 149
3 3 7
8 8 9
149
7
5
38.75
87.5
68
A-2
3M Kel-F 3700 (VDF/CTFE); Shore A65; 100:10:10:1:6· Kel-F: Zn02: Dyphos: Luperco 101XL: TAlC
149
7
7
90
lOS
93
A-21
3M Kel·F 3700 (VDF/CTFE); Shore ASS; 100:10:10:3 phr· Kel-F: Zn02: Dyphos: benzoyl perol.
149
7
'5
48
83
61
A2
3M Kel-F 3700 (VDF/CTFE); Shore A53; 100:10:10:3 phr - Kel-F: Zn02: Dyphos: Diak
150
3
9
3
98
100
A9
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
150
3
8
3
110
95
AS
149
2 1
(FKM) 86
95
A-3
90
94
A-I
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
3.7
3M Fluorel FLS 2330 (FKM)
exc. r.sl51.. !jllli or no effect
4.5
3M Fluorel (FKM)
2.5
'1
ASTM Oil No.3
150
7
9
150
14
7
150
14.6
\ ", 9
150
14.6
'.8
150 159'"
41.7
9.
41.7
6·····..·
150.
83
1.50'
4 3
95
100
A-I
87
122
A-3
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ~.
~;..
,
4 4
107
95
A2
111
95
A-I
5 6
106
95
AI
85
58
A3
85
40
A16
83
10 9
120
71
A7
125 125
11 12
107
71
A7
75
26
A14
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ~\;.
'y
':i
-A,
\150
1.~?
-n A
~
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
<0
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
....Jo,
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
co c..n
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'Tl
;;:I:;:
<0
0">
s:::
,
.....
°k Change
% Retained
POL
Volume
Tensile, IMOdUIUS Elongation Strength
8·
2
"
Reagent Note
Reagent ......
:•.•.•'.:.. :
,'.d,.-
·Conc. Temp. Time (%)
ASTM Oil No.3
('C)
(days)
175
7
177
21
Rating
8 8 8
ASTM Oil No.4 ASTM Reference Fuel A isooctane
,
82
.,
90
Resistance Note
Material Note
exc. resist.. little or no eflect
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
Hardness Ch~nge
AO
5
u •
.;
8 9 '
7
20
I
u u
0
91
90
.. ;.:
AO
I u
7
20
9 9 .,.
3
25
ASTM Reference Fuel B 3
20 20 20
3 3
2Q • 20
7 7
25.
7
ASTM Reference Fuel C
en
1?en
\Ei'
., .,P
CT
tt::
recommended lor use 12
79
94
A·9
6
2 12
74 81
86 118
A-4 A-6
9 9
1 1
90 96
100 99
A1 A1
9 .••
2.5
u
20 20
1 1
9 9
2 1
u
20
3
7'
3
89
136
A-4
u
20
3
8
2
76
111
A-2
"
20 .20
7 7
7'
u
4
3 6
62 69
86 170
A-3 A-14
"
20
7
7
6
77
90
A·4
"
20 20
21 21
6 6
10 9
70 78
78 76
A·5 A-6
20 20
30 30
8 8
10 10
20 20
42 42
5 5
12 8
20 20
180 180
7
13 15
u
:",
..,:-' >
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent u
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
u
exc. resis1.. IInle or no effect
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
recommended lor use
u
"
,
~:
;
15
" " "
25 25 70
3 3 1
8 8 7
3 4.5 16
"
70
1
.7
16
u
70
3
..§ 3
14
;:l
~
exc. resist., linIe or no effect
4
"
ASTM Reference Fuel C
0.1
7
u
r;'
A-2
7
u
~
7
108
50% isooctane, 50% toluene
u
"~
"
100
8
y
"
@
r
8 7
-0.4
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent · DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
64
67
A-13
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent u
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or iitharge, curing agent u
.y;
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
u
· DuPont Viton B (FKMITFE); 20 phr MT black, · 15 phr magnesia or litharge, curing agent u
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 60 64
62 66
A-5 A·7
u
.; DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
..••
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent exc. resist.. Iinle or no effect u
l
I
,. good-exc, resist. moller. effecl
3M Fluorel FLS 2330 (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vilon 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel FLS 2330 (FKM)
"'T1
A
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
co ~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'T1
'"s:: Reagent
Reagent Note
conc'ITemp'l Time (~)
('C)
(day~)
I
), 0,4 Change
P~LI Ratmg
Volume
% Retained renslle.. lllodUIUS I. Elongation Strength ..
I
co
co
~esistance Note
Hardness Chan\Je
Barium Sulfide
Material Note
recommanded lor use
d~\W~9~1!~9M~V%~~M9'~r~i!~M~~i!ng~·
aqueous
..... iiicoiiUii~nii~iifof ... ~.
Beer Beet Sugar Liquors
(FKM)
use··
.
:~:::::::~:::::~:i:~::::}::::;:'
(FKM)
Benzaldehyde
unsatisfactory for use A-17
not sUitable lor service not re<:oml11elld~,~~M'il,mi~l~lfeet .
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharga. curing agent (FKM) 3M Fluorel (FKM)
ieciliiiiiiiiili!elffo(use· .
Benzene
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
52 79
69 93
A-14
61
73
A-8
45
69
A·16
DuPont Viton 8 (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent
A·8
ligroine
51
85
liUle/no effect·severe condo may cause change
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
exc•. resist., lillie or no ellect good-eJrc. resistoomoder. effect
3M Fluorel FLS 2330 (FKM) 3M Fiuorel (FKM)
A-17
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Benzenesulfonic Acid
recommended for ·use lillle!no elfeckM~~rll;F9M;m~r.ci!use change
·
~.
· iiltlerno effecl'severe cond, may cause change
Benzophenone
Benzoyl Chloride Benzyl Alcohol
91
16
A-5
96
25
A-5
DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent ••• ·Ji!~N~.9.~ff~WAA~~i£~M~!~yci!~se·~harig!i·· .. recommended for use
· Iitlle/no effeet·sever.·cond,'may caUSe change
Ei CIl
.... r:;' CIl
tJ
(1)
Benzyl Benzoate
CIl
16' ;:s
~
CT
'P"' '"'
(FKM) DuPont Vilon; 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Vilon; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended lor USe lillie/no
Benzyl Chloride
(FKM)
reco\11mended for use
@
'il
(FKM)
i~giimm~M~ij·jM.9U·.(
Benzochloride Benzoic Acid
~ffeGl ..everecond, may causlF~~.II.g.e ••••
recommended lor USe litlle/noeffect:sev~re condo may
(FKM) (FKM)
@
'1:l
po ~
;:;.
~~ti~~~~s.
~eagent
(/)
16'
Biobor JF
oil fungicide
6
13
83
A·6
OuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent
.,:,:::}
(/)
8
15'
4
;:s
t-'
..,0: $:l ..,
82
Mat~rial Note
. Re~i$tance No.te
95
92
A-3
92
95
A-2
Blast Furnace Gas
.•.··,·'[ecol1)mended·for use
(t::
Bleach
solutions lime bleach solutions
lilllern;;
(FKM)
elfect·s~Ye;ei:ond. maycau~~ d;ang~. ..-:: /::;:.-.-:
.:::
,:":::.-
jorose
.
:. recg':!'me/lded .lilIlelno elfeCl'severe .•cond. may- cause change ..
solution, sodium borate mixture
liltl~lno
Boric Acid Brake Fluids
(FKM)
,
Borax Bordeaux
l~lIerno eife~(,s~~ere.con'd, may cause ch~nge . ". . 'recommeiided for·use· ..'. :·:·i.. ····
'·'i:·.reco·lTlflle.nded lor use e"eci~se~~~'~ond. may cause change
(FKM)
recomme~d~d
lor usa liltlelno elfect·se~er~.cO~d; may automotive Delco Girling non·petroleum Wagner 21B
(FKM)
unsatisfaClortlor use·
".,;
.,,::::" nol suitable for servic.e Girling crimson, Lucas Ind. hydraulic; BRAKO·Bray Oil Company
14
... 149
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Kel-F 3700 (VDFICTFE); Shore A65; 100:10:10:1:6 - Kel·F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel·F 3700 (VDF/CTFE); Shore A55; 100:10:10:3 phr - Kel-F: Zn02: Dyphos: benzoyl perox. 3M Kel·F 3700 (VDF/CTFE); Shore A53; 100:10:10:3 phr· Kel-F: Zn02: Dyphos: Diak
56
7
5
37.5
87.5
68
A·l
7
42.5
86
73
A·7
7
5
42
90
61
Al
#1
.~~'
Brines Bromine
(FKM)
23 anhydrous
(FKM)
.. --::. 20:
5
75
100
A-I
anhydrous bromine waler
'mtlefnoelfect-severe . ':: ~'.
axe. 74
130
A-2
c~~d.may.. cause gtl~ge .... .. '..'
resi~L.liltle
- ',' -
_~..-.,
;;tn;; eU~ct '.. .
-
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Bromine Pentafluoride Bromine Trifluoride (FKM)
Bromobenzene
mono bromobenzene (FKM)
" A
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
(0 (0
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'T1
A
"J
o o
s: Reag~nt
Reagent Note
Bromochloromethane
Budium Bunker Fuel C
fuel oil
% Chang~l
I I 20
7
21
7
5'0
7
60'
3
23 149
monomer
20
40 psi
23 25
:·2
99
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent . DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-19
10 21 exc. lesis!., lilli. or no ellect
3M Fluorel (FKM)
8
lillie/no effect·severe condo may cause change
40
8;
'~'~~'J~;\~h!\!!I~plm~~!\~~t
(FKM) 3M Fluorel (FKM)
7
6. 5
'8
3
. ··min6flomodef&llec/·
15
49
83
A-9
a.::··
Butane
----3
Butanediol (1,4-)
23 150
6'"
16
Q
28
6.'
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) lillie/no ellect-severe cond. may causa change; good·exc, resist., moder. effect 3M Fluorel (FKM) . recom.mended for use • l~tle/no.effect:sevele ..co,\d:.~ycauslo/'NI9~
a: 6
82
70
:~;.
recomlne)1ded lor use
··8····
.~.
2'
unsatisfactory for u.se
20
3
1
230
20
8
.. 1
200
23 25
3
1 1
230
8
Butyl Acetyl Ricinoleate
8
23
A-24
not suitable lor service not recommended,. substantial effect
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
recommended lor use little/no ellect-severe co'nd: may cause change
(FKM)
.un.satisfacto~ lor use noi Su~aQle'for service .too soli to' test
2
Butyl Acrylate 23
,.
50
3·1
190
50
3
190
.-
Butyl Alcohol
23 121
i..
4
Butyl Alcohol (tert-) 23
Butyl Benzoate
~
o' (Jl
.70 :, 121'....
~
(Jl
t
Butyl Cellosolve
23:'
;:3
., .,
0-
P
10
8 4 4
recommended lor use mllefno elteCl'Severe condo may c.ause change
(FKM)
II
re.comm.ended for use . lilllefno eltect-sev.ere·cond. may. cause change
(FKM)
lecommended.!or use.
·'9,,:t··
moder. to severe elfecl
.. -
:/
3
,,,.,
a
/
DuPont Viton B (FKMlTFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent
12 . •••.. iec6iriiii~/1i1ed;f~f~~~; . • lillie/no'.effec.l·severe condo m~y~!w~~ change ;,
Union Carbide
(FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
·a a.
•••·.···4··· ,/
20
Butyl Catechol (tert-)
lillle!no .ffec,;severe condo ina'y cause change
8
a
".8',.,
Butyl Butyrate Butyl Carbitol
16'
:recommended lor use
·... a .'
23
@
po
s~bsieni~1 effect
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
a butanol
'il
nOI ieCOml1)end~d,
a
butanol
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
·a
2-Ethyl
n-butyl acrylate
Material Note
Resistance Note
Cone. Tem·p. Time.. ·.I. . P.D.,.L I Volume •··••••1, Te. n.'.lIe..••i!:ModliI.US••,.Elongallon:·1 Hardness (%) (OC) (day!) Rat!ng '.. jt~tren~thH Change
Butadiene
Butene Butter Butyl Acetate
% Retained
(FKM)
U'l$llti~tactoriil#ils.j .'
, nois~ii~b'eior ~~~i~&,;
(FKM)
@
0/0 Change
'l I I
~
po ~
n'CIl
Reagent Note
IReagent
CIl
Butyl Ether Butyl Mercaptan
;:l
Butyl Mercaptan (tert-)
t1
~
15'
ICo!1c'ITem p Time 'POL Volume ('It) ('C) (days) Rating . 7
5
Butyl Oleate
8 8
~
Stearate
Material Note
A2
DuPonl Vilon B (FKMITFE); 20 phr MT black, 15 phr magnesia or Iilharge, curing agenl recommended tor use Iitlle/no effecl-severe condo may cause change recommended tor use lillie/no effecl.silVere,cond. may:cause Change recommended'tor use
8
I Butyl
Resistance Note unsallsfaclory for use
9, 8
""1
tr:
Tensile Modulus EIOngatlOI\:1 Hardness Slrength (;ha.nge
2
20
t""'
0: ""1
% Retained
8
(FKM) (FKM)
Butyraldehyde
2 1
. i!l11f!{nR~!!~~l;U~U~~~~,,¥ycli~Mc~8~9li i IlJisai'sfaCiory foi\lse not sulteble for seNice nol recommended. 'sample disintegrated rec~mmended for use Wle(n!Mfle~h;~Ve(e condo may cause change' tinsat'sf1!ctory lor use not suilablli}orservicli .
Butyric Acid Calcium Acetate
6
·.····mrnilitilmoa&r~81led .
8 2 1
Butylamine
o 8'
Butylene
8
8 8
, unsatlsl/lc\!tifio/jise' IIfUe,ino effeCI-Se\ier;·:~~#. may cause change" recommended for use Ihlle/no effect·sever~ condo may cause change ;. . ... ',eco,nmepdedioluse "
8 8 8
•
2 8
.,
8
Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Hydroxide
8
Calcium Hypochloride Calcium Hypochlorite
8.
'9
8?
Calcium Nitrate Calcium Calcium Calcium Calcium
. '8
Phosphate Salts Silicate Sulfide
......
liquors
(FKM) (FKM)
(FKM) (FKM)
(FKM)
, (FKM)
'lil~'{n!\effect'sevete5ond;!MY ~,w~echange
(FKM)
il',!f!l!fnlleff;~~;:'~:~~!;;li~:;li~~8 ,ecOiiipieMed'foiuS8"
(FKM)
.
8 8 8
jeciliiiffieiidedfor'use
(FKM) 3M Fluorel (FKM)
'JiWe,ino effecl-seie" condo may cause change . recommended for ~se
8' 23
Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Cane Sugar Liquors Caproic Aldehyde Caprolactam
litllelno effecl:~e~e(eCon~:rnaYC~~~~FMn9li'.,.
(FKM)
change
-~;.
M.,"
}t:, y, ~:;::~:; lillie/no effecl,s~liere'cond. may oa@~ c/lang8;:
(FKM)
;,WW~\M
(FKM)
23,
lS0
3
.'.'::.:.
'".;,,:;:
\;arDamate
..
"
'23 ;
6 6
'y
8
Carbitol Calgon
23
Carbolic Acid
I
phenol
23
8,.,., ..
">:
iiiliiofloiiWdji. eftel:t> ....,
may C~t1se ~';~i,~Mi~;,!0~n;~'~loP.
:'!mWW'·elt~!;~'I~~:fl;::s~ change,
"'T1
'" ~
(FKM) (FKM) N
Chemical Resistance - FKM. VDF/CTFE. FKM/TFE Fluoroelastomers
o
-"
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"Tl
r::
I\:> c:> I\:>
~
I.
Reagent
% Change I Reagent Note
\COnC'ITem p• (%1
I
('!;1
.. Volume
% Retained
I~~:;~~ht~~'USIE'o:ga .. 'onl~9~~~~~:
Resls.tance Note
Material Note
Carbon Bisulfide (FKM)
Carbon Dioxide
dry wet
wi 35% hydrogen sulfide: @
65
23 210
7
46
80
76
A3
65
210
7
55
80
98
AD
36.25
75
110
A-2
110
A·6
liitlel~~<~ffe~;~~i~~;~~Ond. may cau~e change
500 psig
(FKM) 3M Kel·F 3700 (VOF/CTFE): Shore A53: 100:10:10:3 phr· Kel-F: Zn02: Dyphos: Diak
.1
65
3M Kel-F 3700 (VDF/CTFE); Shore A65; 100:10:10:1:6 - Kel-F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel-F 3700 (VDF/CTFE): Shore ASS: 100:10:10:3 phr - Kel-F: Zn02: Dyphos: benzoyl perox.
Carbon Disulfide 2
96
DuPont Viton A (FKM); 20 phr MT biack, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
3 2
Carbon Monoxide (FKM)
Carbon Tetrachloride 83
A2 Ijttlelno effectOseyer.e condo 'may cause change' . "." ."
,.
'-'~":
exc; r.esi~t •• lit1le or no eHecl 105
A-4
100 90 86 95
A-3 A-12
.
H3-)
@
. re?qW'J1ande(HofiilS~:> l~tle/no}!!~~k~~'i~!~~q~9iM\l¥~~Hse change. (FKM) ... DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent re~o!1'lri,erided for use •••
Castor Oil Castral Hy Spin 55 Catalene Cellosolve
Ihtle/~().ellect~~ever.ecqp~.tn8ycause change
(FKM)
.holje:coiiimeiid$d,sutls~hiiiiI8flect
3M Fluorel (FKM)
-Co'
Catalene
"~:'"
..
,';.
unS{lt!sfaclory tar:us.e •.( ";;.:'-:::::'
Union Carbide
DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
Union Carbide
DuPonl Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
2·elhoxyethanol
'I:l
P ~
r;'
Cellosolve Acetate
Vl
?6' Vl
~.
;:l
t""
0: .,
.,
l=l
ll:::
3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·9 A-6
Carbonic Acid Caryophyllin
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
Cellulube
Tenneco Chemicals, phosphate esters hydraulic fluid, triaryl phosphate ester
2 7.5
A-I exc. reSist:': '1iI11e or no eJlecl
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
@
"1:J
Ei ~
o' Vl tl
(1)
Vl
"
-
..,
POL
Cone. Temp. Time (days)
('C)
(")
Cellulube 550A
P
Rating
20
.~.'.
"
,
70
20
20
7
8 .9
7.5
high lemp. tube, triaryt phosphate ester
24 70
7 7
9 8
2.1 10
e"c. resist., lillie or no ellect
'70
7
8
9.7
exc. resist,little or no effect
205 '
7
8 6
15
200
3
If
8
..e.x.c. t~;j~I;.lml~.~r ..~~...~~.~.~t
;.
2
;.
recommended lor use 81
92
A-12
DuPont Viton 8 (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent recolJllllended lor use axc. resist.: iillie or no ellect· recommended for use
dry wet dry wet dry dry gas
6
It. ~.
:, :;:16
·8. 8
"
· little/no ellecl-severa,cond. may causa ch~nge may cause sl..vis!.b,; swelVioss of prop. exc•.resist,; lillie, or n~ eUecl
6 """'8
5 5
81
7
8% CI as NACI02 in solution
110
20
30
6.3 gm/l
20 23
30
20
A-3
0.02
8 8 7 8
23 25
0.5
20
30
:
I
10
,.
~:.
.
DuPont Viton; 20 phr Ml black, 15 phr magnesia or litharge, curing agent
•
1 9
0
5
35
•
0
:~
:
./
2 1
unsatisfactory lor use nOI suitab~ lor sarvlce
23
2 1
unsatisfactory for use not suilable lor sarvlce
8 "'2
recommended for USf unsali~lactory lor use
20 23 23 23 ~5
30
4
,
10
:.,
"
little/no ellect-severe condo may cause ch~nge
8
7
.
8 8
30;i 7
8 10
,
(FKM) (FKM)
,
recomin~n4ed !Ol use
-4
"
good-exc,.~.s~h ~oder:
DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent (FKM)
" " eflecl
3M Fluorel (FKM)
ru
"Tl
A
DuPont Viton B (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent
"
23
,
DuPont Viton; 20 phr Ml black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
not suitable lor service exc. resist., lillie or no eflect
.,
:~
mono mono chlorobenzene
"
(FKM)
unsatislactory 101 use
8
~
:
· little/no ellect-severe cond, may cause change,·
t
Chloroaeetone
" 3M Fluoret (FKM) DuPont Viton B (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent
15
2 9
Chloroaeetie Aeid
.~~
(FKM)
recommended lor use
.~
Chloro-p-Toluidine (2-)
;'"
8
1.3 gmJl
,.
"
il
23 23 100 100
3M Fluorel (FKM) .. ,
" ""
},:,8.",
I
, ,
DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
,.
8'
,.,
..":"
,.
DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
:~
hexadecane
dry wet
Material Note '.
70
Chlorine Trifluoride
Chlorobenzene
.:;.
Resls~anee Note recommended lor use
8 '8 8.
Cellutherm 2505A
Chlorine Dioxide
..
,"
hydraulic fluid (high viscosity)
high temp. lube, triaryt phosphate ester
Chlorine
~~r:;;~r.~ IIlDd~IUS IElongallon H~~~~;~S
..
!-:
::~.
Cetane Chevron M25 Chlordane Chlorinated Solvents
Volume
. ">
~Retaj'n~d
R
Cellulube 150 Cellulube 220
;:l
t
'w
.' , % Change
"".
Reage?~~9l~
Reagent {
tE·
..,0-
"',,.
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
o w
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
11 ~
l\:)
0
~
~
Reagent
I
Reagent Note
Icone'ITemp'l Time (')0)
(days)
'. ('C),
2? 25
7
20
7
23 25
7
l·chloro \·nitro ethane
1
5
7
-20 -20
chlorobutadiene
2 2
8 5
7
8 4 4
23
;
aqueous solution
0.88
;~.
: lillie/no elfact·severe cond, may cause change".
Citric Acid
11
5 5
52
116
A-13
. lillleino·elfeet·severe condo may cause change ' recommended,:lllr use
3M Fluorel (FKM) DuPont Vilon A (FKM); 20 phr MT black. \5 phr magnesia or litharge. curing agent (FKM) DuPont Viton 8 (FKMfTFE); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM) (FKM)
" "
1j!lf~f~IM!!~~'i~~y~,~con!l .. ~y.¢)vse change
(FKM)
'recoiiiiitendediiiiuSiii
1~lIefno :elfecl.sev~reco~d. may:~aus8c!lange
(FKM)
reco"'ll1endedlo'·use. little/no etteet·severa ~ond. may c~use change
(FKM)
23
100
7
20
7
8 8
recommended lor use
8 8 8
little/no effect-severe condo may cause change
9
recommended tor use lillie/no effect-severe condo may cause change
0.7
'1:l
CIl
23 25
tl ~
7
23 Monsanto
"
4
8
lillleino effect-severe dnd, may cause change exc, resist.. little or no effecl' recommended lor use
a a a
littleinO .e!!'9!;~'~,~(~,9BM"m~Y',~~H~e;F~~n~e; . "";riillommendiid for use
8
Coffee Coke Oven Gas
t"'
9
':'
8
8
(FKM) (FKM) DuPont Viton B (FKMfTFE); 20 phr MT black. \5 phr magnesia or litharge. curing agent
recommended for use
8
Cod Liver Oil
ri'
.,
57
8
8
23
l=l
exe. resist.. lillie or no effect
8
8
2N
@
u::
(FKM)
8
Cobaltous Chloride Coconut Oil
Coolanol Coolanol45
,
-2
, . . . • nEttuit~b'-~~orseryi~e ...... ...........·recoiMiended.liiiuse'
',::8 Chlorox
0: .,
OuPont Viton A (FKM); 20 phr MT black. \5 phr magnesia or litharge. curing agenl lillleino effect·severe eond. may cause change '. (FKM) 3M Fluorel (FKM) exe. rasist.. Ifllie or no effect recommended lor use
litlle/no effect-severe eond. may cause change • model. to severe elfeet
8
.. :.,;.: ,~
(FKM)
recommended for use
recommended lor use
8
23..
;:l
~
moder. to severe effecI nOI su~abie lor service
a
Clorox
CIl
A·17
11
8
, 23 ,
(FKM) 3M Fluorel (FKM)
•
1
23
to'
not'recommended. sU.b~lanllal elleet' ., recommande,d for use .,
i
99
Material Note
minor to moder. effect •
h~lIe/no efle~l-Se~ere condo may cause change"
8
Chlorotoluene
I
Resistance Note
a
20
~
Hardness I Change
8 4 1
23
S-
I
a
Chlorosulfonie Acid
Coal Tar Cobalt Chloride
Tensile Modulus Elongallon Strength .
8
23
Chrome Alum Chromic Oxide Chromic Acid
P,~L
Ratmg
8
23
Chlorophenol (0-) Chloroprene
Volume
I I a a
~
Chloroform
Chloronaphthalene (0-) Chloronitroethane
% Retained
6 8
Chlorobromomethane
Chlorobutadiene Chlorododeeane
% Change
4
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or lilharge. curing agent (FKM) 3M Fluorel (FKM)
(FKM)
@
'tl
I:i (J)
..... ;:;.
Reagent .
Reagent Note
POL
Cone. Temp. Time (%)
('C)
(days)
% Change
% Retained
Volume
Ten!lIe Modulus Elongation Slfength
ijating
I I I
Hardness I Change
I
Resistance Note'
Material Note
(J)
tl
Copper Acetate
C1l
23
(J)
cEo ;:l
Copper Chloride 23
~
Copper Cyanide
Copper Salts Copper Sulfate
., .,I:l
0-
recOmm~nded tor use
(FKM)
1~I1e1no
(FKM)
..··
8 8 8 8
i@iil!i\jj~9~~~19l'@'I
8 8
23 70. 70
28 28
8 8 9 8
0.3 0.3
89
100
A·6
149 150
28 28
9 8
1.5 2
82
93
A·4
elleet-severe condo may cause change recommended for use
"
···l\m,m.9.••
~fl'9k~,~,r~.ffin.~;.m~Y • 9.~.~.~~.~na.ng~.··.
.. iecommeiideiflo'use' Iiltle/no effect-severe condo {Ilay cause change exc. /asisl.. tillll! or no effect
exc. resist.,tillie or no effect
8 coal tar wood creosote oil
20
coal tar creosote oil
23 25 100 10Cl
methyl phenol
8 8 8 6
7
8 9· 8
7
7 7
6
1 10 9
70
80
A-10 . lillie/no .effect-severe'condo may cause change exc. resist.. 1~\Ie or no effect
70
80
A·10
5
11
81
130
A·11
100 150
28 28
7 4
11 25
68
150
A·15
150
28
8 8
3
88
85
A-4
(FKM)
exc, resist.. lillie or no eltecl
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont V~on A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
·
20
7
20
10
:.;.:
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended lo'use
;.;......
8 9
4
9
0.6
8
,
litIWnoell!.91;severe99~~;I1l~Y9a.·~MMa.ngl ....... 'iecommeii#~dlo(use
8
23
.·lillleJn9•• ~"MkAA~~/~ .• 99.~.~., . m~Y •. 9iW~~8~~ng.~ ••••
..... recommended tor use
8 8
CUlling oil
~
(FKM)
·
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) .I~llo/n.o. .efl~!;l'!\~~.~ra. • 99~.d.;.ma.Y.91!~.s.e change
11
:s:
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
reCOmmended lor use"
28
23
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
8
Cumene isopropylbenzene
1
23 100
Crude Oils
(FKM)
recommended tor use
8 8
23
'J..
·
23
Cottonseed Oil
(FKM)
l~tW99~"~~~~~:;;~::;::~~~:::;~~MM.~
r
8
Corn Oil
(FKM)
lillie/no elleet'severe cond:may cause change
8
10 50
Cutting Fluids Cyclohexane
8 8. ..-......
23
Creosylic Acid Cresol Cresylic Acid
unsatlsfaclory tor use not suitable for selVice
... '.' 8'
23
Creosols Creosote
2 1
I\;)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
o(J1
f\.)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'Tl
=" s:
Reagent Note
Reagent Cyclohexane
23
7
25
7
Cyclohexanol Cyclohexanone 20
5
20 25
1
271
A·33
7
1
350
20
10
23
silicone oil, Dow Corning
175
28
177
28
1
272
A·30
1
280
A·32
Delco Supreme II Detergents
:~'
"
Developing Fluids Developing Solutions Dextron Diacetone
lillie/no
100
~
30
photo
23
76
24
8
3
96
80
23
8
recommended lor use
8
IilUe/no effecl'severe cOnd. may cause change' .
Dibenzyl Sebacate 23
@
~~~~
2
unsatisfacl.ory, lor use
1
notsultable'for.servic&
6
minorto moder. etlect
6
;
'6
.'
~-3 ;:
"
(FKM)
rninorto !"Oder. effect
e
Ether~;;i;-l;;;t;;;~
Dibutyl Phthalate
(FKM)
ull$80s(aclOry for use
'.8 '
Dibromoethylbenzene,l
(FKM)
.•. . not su~abl& for service
i
ml!y;s~\'t~~k~i~~~!!!~!!f,lJR~~091
prop.
(FKM)
may caus~sl. vislble.s,¥e!l1lo.ss 01 prop.
(FKM)
" ',iecoiiiTeiide~loriise" "
'~~r;st:~¥lf,e:~;~;.~::~~{pr~~;
(FKM)
;~::i:~:
DBP
20
, DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing egent , (FKM)
10
I:l
(FKM)
..'mo-mmen~~~J~use
J
.2.. 1 ,;
23
"1 ~
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·1
2'ulIsaUs(aCioryfor'ilse"
Diazinon Dibenzyl Ether
"1
(FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent
A·18 recOmmended for use mile/no eflecHevere cond: may cause change
8
Diacetone Alcohol
t"-
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. r~c~:","ended lor ~se < >.> Inlle/no eflecl'$8vere cond, may cause change
8 8
23
o:
effecl'$Jlv~r~ con~,may ~ause change
2
8' 23
with bleach solution
3M Fluorel (FKM)
"iecofil!iieii~9afo"use"'"
;;
solutions
(FKM) DuPont Viton A (FKM); 20 phr MT black, t5 phr magnesia or litharge, curing agent
.~.~.~.,/~~!;!.:iiitl~,.or.no. !.ff~c.1
·2.3
8
7
effecl·~~er;cond. may cause change>'
A2
·2
.
8 8 2
(FKM)
recommended lor use
9 .
.J'9?
3M Fluorel (FKM) • DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia Or litharge, curing agent
litlte/no
9
7
Decane
~
not reco.mmended. substanlial effecl
".8 23 70
(FKM)
litlte/no effect·severe condo may cause change
8. '8
isopropyltoluene
3M Fluorel (FKM)
. DuPont Viton B (FKMITFE); 20 phr MT btack, 15 phr magnesia or litharge, curing agent
8 5
e~c. r';siSt., linle.J; no effect unsatisfac,toiy tor. use
10
20
Material Note
reconirn~nd~d 10[. USI A·32
23
Dupont
IDibutyl
4 4
9 .
,8.{ 8
Resistance Note
Change'
71
Decalin
E" CIl .... o'CIl
I
1
Cymene (po)
"1:l
Te...n.11I..e il . ~!~~~9m
2'
Cyclohexyl Alcohol Cyclopentanone
DC 200
;~;Re!alned '~~lu~lelon91t1onlHardness
% Change
I
conc'ITemp'l Time POL >1' Volume ('10) ("C) Ide)'~)li~-ti~g , ....•
o
C>
23 DBP
5
20 .'
',: DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
@
'1:l
po ~ ;:;.
'f?"
Reagent
Reagent Note
;:J
t""'
& -,
tl::
" Retained
Volume
Tensile Modulus Elongstlon Strength
('C)
(days)
20
8
6 7
14
23 70
4
6 7
18
121
4
Dibutyl Sebacate
'" 15' p -,
(~)
% Change
IRating POL
conc'ITemp'l Time
I
I
IHardness Change
Resistance Note minor to n,oder. effect
may caU$e sl. visible swelllloss 01 prop.
unsaHslaClory tor use not suitable for service
23 20
30
20
3
8 7
8
3 28 28
8 8 8 7
8 10 10
77
105
A-12
28 28
5
25 25
83
120
A-15
Dichlorobenzene (0-) 23 .;15
70 70 14~
150
Dichlorobenzene (p-)
6
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
35 recommended tor use A-8 !
littla/no affecHevere condo may cause ch.ange exc. resist. lihle or no effect
good-exe. res;$t:, model. eUe':,
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
reco!tUllended tor use
8.
a
Dichlorobutane Dichloroethylene
8 20
7
Dichloroisopropyl Ether
.4 '4
23
2 1
diesel oil dieset oit; Shell Rotella T 15W40
5
23
Dicyclohexylamine Diesel Fuels
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Vilon B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
20
Dibutylamine Dichloroaniline (3,4-)
Material Note
A-19
16
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. iiiOdJti to'seva(eeile~f
...' mo~er!s~v,!r~~VfeJjan~oll~~!!!!prop. un$litis(eQIOry tise' no't SIi~AA.I&
iois~~lce
;"recol1]l1):,:n~ed'19r
;,;;,. ':8 8
lillie/no effect·~ev~~eC?l)d.
23 .;;,150
7
.. < 6
0.3
68
68
Al
150
7
7
0.6
69
84
A-3
'150
7
7
0.3
63
80
A-4
150 150·
42 42
6
6
0.3 0.6
56 60
54 61
A-5
62
49
A2
.,:::
(FKM)
foi;
(FKM)
use
may cause changa
::;:..
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPonl Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent
AO - DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Diethyl Benzene 6
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Diethyl Ether (FKM)
Diethyl Sebacate (FKM)
"Tl ;;:0;;;
s::
I\:)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
o
-...
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'TI ;;:0;:
o
00
s:::
Reagent Note
Reagent v
Conc. Temp. Time POL (Oc) (days) Rating ("')
Diethylamine Diethylene Glycol
TansllallloduluS Elongallon Strangth .
I
23 20 '
Diisobutyl Ketone
unsatisfaclory lor usa
25
7
6
29
20
10
1
175
7
8 9
0.8
Diisooctyl Sebacate Diisopropyl Benzene
8 8
23
2· 1"'"
23 50
1 1
Diisopropyl Ketone
DMAC methyl ether, monomethyl ether
7
23
20 23 121
10
6 8
5
6 6
good-axe, rasist, moder, effect
: DuPont Viton 8 (FKM/TFE); 20 phr MT black, • 15 phr magn.sia or litharg., curing ag.nt
,
"iecoiiil@iji!~ijjM!iWt
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharg., curing ag.nt (FKM)
AO •••·litUe/no,.eff.•pl,1>.~e!!>.cond,.:m~Y,:FiI,usa chang. minor'lo moder, ellect recommended for use lillielno ellect·severe.cond. may
.;; .'. 350
11
19
A·40
8
Dimethyl Phthalate
(FKM) DuPont Viton A (FKM~; 20 phr MT black, 15 phr magnesia or lit arge, curing agent 3M Fluorel (FKM)
..
6 23
'lill1efnoellecl:se~ereco;'d"naYH~se change 29
8
23
(FKM)
.",... ......':!ecommeiiiiiiiiloiuse
8 ". 6
20
Material Note
....••,.~otsuj!abl~J9( sarvi~~
7
Diisobutylene
Resistance Note
Hardness Chal\g~ ,
8
Difluoroethylene
Dimethyl Ether
% Retained
Volume
2 1
23
Diisopropylidene Acetone Dimethyl Acetamide (N,N-)
% Change
ca~~~A~Mgf'
.unsatl~tac.t.ory f~tUSli. .•..~Pl i~itable !9! ice .'••
"'w
s'rv
""of"'"
(FKM) (FKM)
"
"
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) little/no effect-severe .cond. may cause change minor to moder, eHlict
..
8 may cause sl: ~isible swelliloss of prop.
30 '.l
Dimethyl Sulfoxide
DMT
20 20 20
7 28
"
110
5
DMSO
" Dimethyl Terephthalate
10
1 1 ...7
142 138
4
50
DMF
@
DNT with 40% monololu.n.
"1:l
S
~
r;' CIl
~ CIl
tE' ;:l
t""
0: .,
.,
p
(C
:,: .:
~.
"
20
unsatisfaclory for use too soli to test
23 77
7
1 1
11
2 1 3
Dioctyl Phthalate 23
6 6
23 149 149 150
.6 6 7 1 9
Dioctyl Sebacate 3 14 14
,
nol suitable for service
,
(FKM)
,
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing ag.nt (FKM)
not suitable lor service
375
nol recommended. substantial .11!>Cl unsatTslaelory lor use not s~itable for s8f'1iee
..
97
94
,
.. ,.
65
11 94 9
" " DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing ag.nt
2 1
7
... '
15
23
23 • 25"
60
",.
A-33 A-29
.. unsatlsfadoiylor use
Dimethylformamide
Dimethylformamide (N,N-) Dinitrotoluene
50 46
2 1
Dimethylaniline xylidine
23 22
DuPonl Viton 8 (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Viton 8 (FKMfTFE); 20 phr MT black. 15 phr magnesia or litharge, curing ag.nt
3M Fluor.1 (FKM) (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharg., curing agent
fiiiiioi 10'iiiOdei: lilfiicf'
may cause sl. visible sw.l(1)oss 01 prop.
(FKM)
minor'to moder, aff.ct may cause sl. visible swelilloss of prop. exe, resist. IInl8 or no .Hecl ~ot r.commended, ,sub$lanliat efflict
(FKM) 3M Fluor.1 (FKM)
"
A·4 ,
DuPont Viton A (FKM); 20 phr MT black, 15 phr magn.sia or litharg•• curing agent
@
,% Change]
'tl
P ~
Reagent
'"t l
Dioxane
Reagent Note
(%1
r;'
);llitalned
I' POL vo,ume'lf~~i~ U~UIUS (daysl, ~~tin!J
Cone. ITemp'l Time
C\)
'"
(OCI
20
7
"20'"
7
23 25
3
~.
;:l
};r~
I
Elongellon
Hardness Change
Reslst.ance Note
Material Note
::;
unsattsfact~1Y for u58 128 52
34 106
59 185
A-17
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesie or litharge, curing agent (FKM)
::~:: ~;
A-19
~
.,0.,
P
Dioxane (1,4-) Dloxolane
·,1 noijecoiiiiiiend&!l,"$u~~!inlilllejfect
100
1
23
n~!,sultable f!lt'Mfl!J~""",.·
23
F8
Diphenyl
8'.
i8
23
biphenyVphenylbenzene
:8
Diphenyl Oxide diphenyl ether
Dowtherm 209
·8'
~3
:
..
1~IIa/no ellect-serere~qd:l1l8r .c:lluse Change;
(FKM)
'recolTimended fOI use mila/no effect:Severe COnd, may cause Change';
(FKM)
1~IIa1no
recomm~nded
lot use • eiiect::se~ere.~~nd, tilay causa
..
Changa,~
(FKM)
;ii.re~oriiii\8~a~dioiuse~--
8
.~. '.
8
"
8
'
8
8
~
8
,8 '8 oil fluids, Dow Chemical
.. -...
8
23
8 2 6
50 50
125
7
with 46% water
50 54
125 98
14 3
54 54
98 98
12.5 12.5
heat transter fluid
20
28
9
heat transfer fluid
24 100·
28 28
9 7
2.5 7
8
~65
28 28 28
'''6
7.3 22 22
40
"6 2
3
65 12
60
74
A-l
100.,. 149 199
40 40 40
(FKM)
llood:eie.. reslst., moder. etleet ,.. '. ..
3M Fluorel (FKM); compounds wi read based metal oxides recommended
31 27
17 17
14
A16 A18
9
;~~
"
;,:
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or lilharge, curing agent " DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended for usa A·l
"';'3'
0 0 0.5
9 9 '.
1~1.I.elno ..~tf~ct~e~erll~~~;l1l8r~Il~~Il:·.9'1W19ll; :" ;;
8
heat transfer fluid
;'
~?;
ulijalislacWiYJOfiisf i
solution with water
Dowtherm A
DP 47
(FKM)
iiicommeiiiliidrO/use
Dipentene
Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Corning 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 DoW Corning 550 Dow Corning 710 Dowtherm
3M Fluorel (FKM)
un~alisfaclOly fOI use
2 1
9
exc. resist..)ittleor no affect
87
95
A-8
~~C}~Sist.;lillle
or no eflect good-exe. nisi$t.:moder. effect
51
180
A·14
.
DuPont Vilon A (FKM); 20 phr MT brack, 15 phr magnesia or litharge, curing agent 3M Fluorer (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
-
""".·13 .. +8 ,»204
7
:
(",'"
.
340
11
'" ~
l\)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
C> (0
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
11
:A
.......
o
s::
~ Reta'h,ed
% Change Reagent
Reagent Note
.
_.
Elco L
.'
(")
14374
(da!~) RatlOg~!!~~!lmLil
I'C} 121
7
5
2
60
46
A 3 '
121. 150 150
21 7 21
5 5 : 5
1 3 2
72 78 78
30 21 19
A5 A11 A12
1 1 2 2
83 67 90 94
84 48 47 47
A2 A2 A5 Al0
'
Elco M2C
108A
121 121 150
7 21 7
8' 7 6
1 1 2
90 78 75
84 74 47
Al AO A5
/"
150
21
.'.
6
2
95
42
Al0
121 1,2·1
7' 21'·
5" 4
3 3
59 58
47 37
A2 A7
150 150
7 21\
5 4
4 5
65 69
45 37
A6.,; All{\.
121 121 150 150
7 21 7 21
S 6 4 4.
1 2 4 4
55 81 55 49
58 47 21 32
A5·· A7 '.. All All
111A
119A
engine ct~~~tnt; Mack
82
" 17.8
8
3
85
118
A-l
..
82
17.8
8
2
83
102
A-4
3
8
1
85
85
A-4
Engine EOG-2
175 • , , 175.
. 3 ' 9'
Engine EOG·3 Engine EOG-4 Engine EOG-5 Engine EOG·6 EOG-l EOG-2
1,75 175 '1.75 175 177 177
3 3 3 3 7 7
EOG·3 EOG-4 EOG-5 EOG·6
177 177 177 177
'1:l
Ei Epoxy
CJl
EP Gear Lubricants
t"'
.,c;:p ., \C
,..
'!
;
93
90
A-2
75 73 86 101
A-2 A-2' !: A-2 A-3' , j
7 7 7 7
9 9 9 9
1.2 1.2 0.8 1
23 50 50
7 7
2 1 1 1
150
7
'.
..
,,,
.. ..
",
..
ii
..
•••
.. .. .. .. .. DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ..
. '.
75 81 88 93
,.
,.. ..
..
,
•"
1
.. .. .. .. .. ..
.-/ •
1 1 0.8 1 1 1.1
resins tactory fill mineral oil base
;
7 7 . 8 9·": 9 9
Epichlorohydrin
;:l
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent .. .. ..
8 6 6 6
@
CJl
/.v
Change
7 21 7 21
~
Material Note
..
Engine EOG-l
15'
'
121 121 150 150
Engine Oils
tl
"
Ten'lIelllodUI~~I~!qn911lC!nHardness.Re~I,stanCl! Note
105A
Elco M2C
(\)
Volume'
Elco M2C
Elco M2C
ri'
P~L
Cone. Temp. Time
,. '
exc. resiSI:•. little or no effecl .•••.• •
.. .. .. .. 3M Fluorel (FKM) ..
, . .. • • • • . . .
l
94 94
~nseliSfactory lor uSe not suitabfe lor service .:'.. -:::. , not recommended. substantial effect
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
, • unsatisfactory lor·~se
2 4
3.1
62
64
A-2.5
2.8
88.4
85
A-0.5
•
.' 150
7'7
new thermally stable mineral oil base ..
150 ,.. "150
7
3
1.4
43
38
A-2
7
5
1.6
84
35
A-2
showedcra~kinglerazing ...• . . ..•.;.\. ...... •
".
no cra;king~rcrazing .. ' ,. sho';ed cracking/crazing. . ",;. ..... ,;
3M Fluorel (FKM); 66 wgl.% fluorine; Shore A75 3M (FKM/TFE); high fluoride (70 wgl.%) peroxide cured; Shore A76 .. •
@
'"0
P ~
Reagent
Reagent Note
(%)
0' en
~ en
conc·ITem p ., Time
EP Gear Lubricants
new thermally stable mineral oil base
~.
new thermally stable synthetic base
;:l
t-'
0: ..,
..,
I=l tl:
ESEL Fuel No. 20 Ethane
(OC)
% Retained
% Change
I
POL (days) Rating
Volume
Tensile !1:.lIodlltlls·'I·Eton geuon"1 Hardnessl Strength i • Change
Registance Note
Material Note 3M Fluorel (FKM); 66 wgt.% fluorine; Shore A75
150
7
,4
1.5
52.5
27
A3.5
showed cracking/crazing
150 150~
7 7
3 3'
1.2 8
31 47.3
30 38
A3 AO.5
...
150 150
7 7
3 3
1.4 4.6
48 38.8
28 33
Al A-3
150
7
5
1.6
86
65
A-3
25
7
-
23
Ethanol Ethanolamine
./
3M (FKM/TFE); high lIuoride (70 wgt.%) peroxide cured; Shore A76
.~:.
"9
exc. resisl. lillie or no efle~!
3M Fluorel (FKM)
8 8
recomme,nded for use liltlelno effect·severe condo may cause change
(FKM)
"4
rIlodei.toseve,eeffect·
"6
minor to moder. effect
2
'~nsatistaclory for use
"4 2"
Ethers Ethyl Acetate
\~
riIOdiii)ose"eiiieiiiict
1
A280
·ulls.iitisliicto,yloiuse • 'lao soli to te~l ,:-:
·not sUd~bfe
1 7
1
7
1
7
6
280 375 17
not recommended,' substanllal efleet good·exc. resist., moder, eflect
2"
Ethyl Acetoacetate 7
1
unsall~lactory
1
7
1 1
2
28
7 4 1 8 9
6
8 8
Ethyl Benzoate
8 8
100
A2
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent maderJsevere swell andlor loss 01 prop. ., nol suitabfe for service
(FKM)
exe. resist.. little or no eflect
3M Fluorel (FKM)
recommended lor use
.;; Ilt~eI9$\~ff',~k~~t!r~9~m!dn~Y9~~~e change: .... iecornm"iidedloFuse'
(FKM)
lilUe/no effe~I;~evere condo may cause c/lange ,..
(FKM)
;2
unsil~stactory for liSe " not ·suitab.le lor service
2 1
. unsatisfactory for use
8
recommended for lise
.8
.•!I.iW~!~~ .~I1!~I;~!M!~.!F9'~~".~YRi!~,~~'.9~i!9g,~ .• ,
not sudable lor service
." ;;0:;;
~
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
A-l0
reconunen~ed lor use
1
Ethyl Chloride
6 2
97
.8
.
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
'iecommiind"dfoi use
9
Ethyl Benzene
Ethyl Cellulose
nol suitabl.e for service not reco'l'mend~, su~stantial efleet
230
7
7 7
3M Fluorel (FKM) 3M Fluorel FlS 2330 (FKM)
... uiiSiii~facioryfor use A230
'8
Ethyl Alcohol
Ethyl Bromide Ethyl Cellosolve
not suilable lor service
2" 7
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
for use
A-33
168
1
Ethyl Acrylate
I~r se~ice
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
(FKM) (FKM) (FKM)
N ...... ......
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'T1
"
...... '" '"
~
Reagent
Reagent Note
conc'ITemp'l Time (%)
(days)
(' C)
Ethyl Chlorocarbonate
I
PDL Rating
Votume
%
R,~~~lre.d
I
TansllelJ",;Jl;;;!Jsl'E'i~ngaIlOn Hardne~,~,",""
Strangt~J
ii 23
1
20
3
2 5
97
23 24
3
1 1
97
7
8 8 '9
Ethyl Ether
Ethyl Formate 23
Ethy.l Hexanol Formaldehyde (2-) Ethyl Hexyl Alcohol Ethyl Mercaptan
37
25
23 .~:
Ethyl Oxalate
\
23
not suitab\B lor service
recoiiiiiieiiMtifiii iiiie ' 1~IIe1no effect-sev~re condo may causHMnge/ exc. resist., little or no ellec~
8
recoflll)lended for use mi~or!Q ~der. effect
6
may, cause s1. vlsibl9:S~elV1oss of prop, recommended for use ' litlle/no ellect-sevll;ll cond.may cause change
8
23,
8 8
(FKM) (FKM)
recommended for use lillie/no effecl·severe condo may caUSe change
(FKM)
recommended for use litllefno effect·severe condo may cause change
(FKM)
recommended tor usa
ii 23 25
gas, 800 psi
3
Ethylene Chloride 23
Ethylene Chlorohydrin 23
Ethylene Dibromide Ethylene Dichloride 23 25
7
8 7
with water with 50% distilled water
1~IIe1no
26
mi/lor fo mOder: effecl may cause sl. visible swelV10ss of prop,
(FKM)
'8 ,8
recommended lor use litllefno effeCI·severe· con,d. may caUSe change
(FKM)
'8
re,cOmljle~d~d 10(1J,se
'8 8 7
,.;::.
tnlle/no 16
50 50 50
14 3 7 28
50 50 50
116 116 150
30 30 28
9 9 7
8
,:....
..~
ellec't~~~~r. condo ";'y cause change
(FKM) 3M Fluorel (FKM)
exc. r.sisl:; :lntle or no effect
-
recommended fot use little/no effect-severecondo may caUSe chenge exc. resisi:': 'lillle or no ellect
8
23 100 100 100 100
(FKM) 3M Fluorel (FKM)
ellect·severe cQnd. may cause change exC. (eslst:.liUle or no effect
6 6
'8
Ethylene Glycol
2 0.8 7.5 4
80
97
3 4 8
68 67 74
87 87 94
(FKM) 3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM) 3M Ftuorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
9OO4·exc. resist.. moder. elfecl
"tl
S" ~
o'Vl tl
Cll Vl
Ethylene Oxide 23 7-0'
to· ;:l
t'"
0: .,
., p
\t::
(FKM) 3M Fluorel (FKM)
6'
'8
Ethylcyclopentane Ethylene
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
,n01 recommen~'19,~~p~~~!!!!!effec1
8
Ethyl Silicate
(FKM)
A-3
8
23
(FKM)
unsalls!actory for use
,~
Ethyl Pentachlorobenzene
Material Note
racorrinlended (or U58 • lillie/no elfeci.sever(c6nd: may cause~tiMge recommended fot USe not suita,ble for service
8
Ethyl Chloroformate
Resistance Note
Chang~)1
8",' '" 23
@
% Change
Ethylene Trichloride 23 •
5
6
IS 7 2 1 1
8 8
-
A8 A7 unsallsf~~lor;
for use"
notsu~~Wi~r
service notrecommaiid~.~ubslanlial elleel
230 ..
.-f; ;;
(FKM) 3M Fluorel (FKM)
, recommlillde'il for use
liWe!~9~U'~h~!!~e!~Ri~~dnl!U~~M5Pl!~ge)
(FKM)
@
% Change
1:l
Ei (I)
(I)
Conc. Temp. 'Time ('Jf.)
-
r;'
tl
Reagent Note
Reagent
~
.,p .,
Ethylhexyl Alcohol (2·)
0-
POL
Volume
Rating
Hardness ····G.~.~rge
Tensile Strength
I"
Resistance Note
2-elhylhexanol
" Eth~lmorr.holine Stannous
ctoa e ET 387
with 50% stannous octoate lubricant, Dow, high temperature
.231: !jlQQ(
>50
121
8
205
7
9
3
149 149
28 28
9
0.1 0.7
23 aqueous
23 349
14
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
aqueous
23 23
aqueous
23 20
8 8 8 8 .. 4
95
AO
6.9
liquid
113
6
23 70
7
9
0.6
A-4
(FKM)
70
7
9
1
A-4
75
24
1
,2
75
nol/8.90.mmMgM,s·~.~s,!millL~1Iect .'.' unsafisleclo;yioiuse
2 1
oot surt~ble lor service 0.7
110
116
A-2
mOde~.lo.severe
4 4
Formic Acid
etlecr]" moderJsev'ere'~well and/or lessij! prop. nol recommended, subslantiai$lrect
23 70 70
7
~
7
2
83
20
21
8 5
22
Freon 11
(FKM) DuPont V~on A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) (FKM) DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
--
-
(FKM) 3M Fluorel (FKM) DuPont Vilon B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended ler use 70
84
4
18
61
73
4-
34
61
77
:::
DuPont Vilon 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont V~on A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-18
"TI
A
~
(FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agenl
lillie/no effect·severe condo may cause change ..
2
8
(FKM)
minorto.moder. effecI may cause 51, visible swell/less 01 prop.
1
7
(FKM)
ieconim.i,dedior use lillie/no effect~.sev~re.cond,m'ay cause change:
8
Formaldehyde
(FKM) DuPont V~on; 20 phr MT black, 15 phr magnesia or litharge, curing agent
~ay causes! ii~!~tts"l,IYlosto,prop.
,...::·.:23:<.••••• 20
20
littl.~~~,IJ~Ft~mm~~~M,m~X~!~~e change .
",' mlnorIO!..rn.oder. effecl
Occidental Chemical
2Q
(FKM)
120
FS-1280, Dow Corning
23 20
. l~tle/noett~ck~~m'~~MdWIXc~use change. "iecommeiided ioiuse reconi,meiiaedioiuse 1~IIe/no ellect'severe condo may cause chenge .
6 6
37
(FKM) 3M Fluorel (FKM)
oJ;.
\ecommenjled lor use
23
2-bromo, 2-chloro 1,1,1trilluoroethane
(FKM)
recommended lor use IiIUe/no eUecI·severe condo may cau~e change .:: nol recominend'!d. subslantlal .!'ect
20
8 8
FS-1281, Dow Corning
recommended tor.;lise ~.Iillle/no effect·severe co~'d. ~~~se change .:
..............
23
Fluorolube
exc. r~Slsl;': lillie or no ellect
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
..
6 6
Fluorobenzene
"
I
l·
8 8 8 8
Ferric Sulfate Fish Oil Fish Oils Fluoborlc Acid
9
92
8 8
Ferric Nitrate
Fluosilicic Acid Fluothane
(FKM)
~:
./.: ..;:..-.,
6
Ferric Chloride
Fluorosilicone
Material Note
50
F 60 F 61 Fatty Acids
Fluorine
I
unsalJsfactory lor use
n,~t~uita~~~Jorservice
"23
to' ~
(days)
Ethylenediamine
C1l
(I)
;:l
('C)
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
......
W
"
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
A
~
~
% Change
I
Reagent
Freon
Reagent Note
11 with Suniso 3G with 50% Sunsiso 3G
Freon
I I
IConc, ITemp'l Time P~L (%) ('C) (days) Rating
50 50
28 7 7
112
11482 Dupont
20
Freon
Freon
::9 ~
20
7
6 4
11
46
50
A·3
20
7
5
11
75
62
A·5
20
7
6 6 7
16
23 24
7
6 6
16
20
28
6 5
21
23 " 24 149
28 7
6 6 6
150
7
93 ~3! 149 150
7 7 7 7
~
28
6 6' 6 4
20
7
6 8 '. 9
"24
7
9
4 ,. tetrafluoromethane
tI
..4 .. ,.
t-o
..,Z
te:
Dupont
Freon 1 Freon 1528
23
5 2 A \ Dupont
23
.
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM) 3M Fluorel (FKM) (FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Viton 8 (FKMfTFE); 20 phr MT black. 15 phr magnesia or litharge. curing agent
. ~ay caiJ.~e~1. vi~ible s... eIVlo~s of prop. "'irimoiiomodii(effeCi ....
may ceuse sl. visible swelVloss of prop. good:exc. resis\" moder. effeci
(FKM) DuPont Viton; 20 phr MT black. 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
minor to·moder. elfect 46
75
A-6 may cause sl. visible swelllloss 01 prop. goo.d-erc. resist" moder. effect . ~ ..
21 20 20 25 25 17 17
36
75
A-11
".
good-'exy., reSist,. model. effect
"f; 30
75
A-12
~
..,.";;
.~?'id';¥~)8$ist,m~~er,~ffect
19 0.6 0,6
95
98
A2
..... ""'recom~e~iiedloius8' 'i': 'C":,"
.
!
..
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agenl (FKM) 3M Fluorel (FKM) DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"~'.,
"",.'
erc>1esi~I,: Iitlle'or no e!lect
<5' Freon 1428 2'>· unsatisfactory for use ~ & .
0:
(FKM)
minOrlO moder. effect
8,;,,'r8col!imendedlocuse ..6~.Ycau~ ~I.VI~ibll~~e.nll.os;l;ol prop.
23
"24 Freon1
(/l
may ceuse sl.visible swelVioss 01 prop.
8 ""iii~omme~diiijloiuse bromotrilluoromethane 20 28 5 19 46 75 A·6 "'. '....; . , . . . . , . .."." "23 6 may cau~·SI.~ISible swelVioss of prop.
1381
"'" >&
~
A·6
23
13 Dupont
Freon
50 50 50 50
75
6 15 gOO~;~~9'!~~~Kf!m~m~l!ect 6mliioiio'iliOdei:elfecf, 6 may cause sl. visible swelllloss ql prop.
27
12
with 50% ASTM oil no. 2 with ASTM Oil NO.2 with Suniso 4G with 50% Sunsiso 4G
38
6
115 chloropentafluoroethane
18
(FKM) 3M Fluorel (FKM)
..
.minorlqmoder. effect
28
Material Note
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent
6 5
23 Freon
'
.1~1,I.~~q~!!~ct·sevele condo triar cause change
25
Freon
may cause 51. visible 5welVioss of prop. good·exc. resis\" moder. effect
18 16 16
8
23
114
I
Resistance Note
23
113
Freon
6 6 6 7
Tensile::' Modulus ..ElongltlonIHardnessl Strength Change:
8re~otriiriilni"ldlofusii
Dupont Freon
23 24 149 150
Volume
'" Retained
1
not;5uilable for service
2, 1
unsatisfactory for use
i"~QI sU~AA~J'?o[~~Ni~~
" 3M Fluorel (FKM)
" DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge. curing agent (FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent 3M Fluorel (FKM) (FKM) (FKM)
© 'il
IS" ~
Reagent
Reagent Note
Vl
tl
conc'lTemp'1 Time (%)
0-
<6-
., .,
0-
POL Rating
Tensile IIIOdUIUS l'Elongation Strength
Hardness Change
Resistance Note
Dupont liquid
unsatrsfaclory lor use not sunable f~r service
(FKM)
23
8 8
recommended for use Intle/no effect-severe condo may cause change
(FKM)
unsalisfactoryfeiiiise'
20
14
2 2
80
20
14
2
80
20
20
2
90
20 20
21 21
2 2
77 84
23 24
20
1 2
liquid
93
7
5
90 32
Frigen 22; vapor
180
14
4
50
180
14
3
60
-93
7
5
32
with ASTM Oil No.2
Freon 31
50
Freon 32 Dupont liqUid
Dupont vapor
54 54
A·15 A·19 not suitable for service not recommend!'4. substantial effect
good-exc. ,esist, moder. effecl unsatisfactory for use not sun.ble/or service unsaliSiac:tory'jM@e
23
2 1
' ' ' ' ' :;i6'' ' ' ' ' '
14
4
50
23 180
14
6 6
28
180
14
5
36
20
Dupont
23 23
Dupont
20
8
,•.,. . . .. ....... .
8
\!ittlefno effect'severe condo .may cause change
7
6 6
23
6 4 4
2.3
;: Dupont
7
23
Freon TA Dupont
receimme~~ed
leir use
s::::
(FKM)
",{{g3••,•.,·.·"
8 8
reco.mmended tOI use
16
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge. curing agenl (FKM)
may cause sl. visible swelliloss of prop. minorto model.'effec·'
....
m~Y~~~M~kri~\~(';~~'!W9~~. mOd~tjleS8;'ere
elled
(FKM)
oljlrop.
moderJseve@~W~lIandf9rloss 01 prop_
recoJ1l!llen~M19(usii
....
·••. I\\tle/no eff8cl'seV8r9'coiidtm~y£ausech8?M}
(FKM)
: (FKM)
N
"'TI
:A
DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent · DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent
8
Freon MF
Freon TC
(FKM)
may cause sl. visible'swelllloss of prop.
8
Dupont
(FKM)
mliioitoillcidei~ effed'
66
14
DuPont Viton 8 (FKMITFE); 20 phr MT black, · 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
notsun~b!ef~H~Mc.e
2
20
Freon BF tetrachlorodifluoroethane
31 37
23
-
Freon 502
· DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
2 1
-
Dupont
Material Note
1
-
P <.c::
I
23
-
Freon 22
Freon C316 Freon C318
I
% Retained
Volume
2
Freon 218
;:l
t
(days)
Freon 21
(1l
Vl
('C)
% Change
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
....... 01
@
% Change
% Retained
POL
Volume
Tensile Modulus Elongellon Strength •• .
6
14 3 0 19
"tl
6"
..... '"r;'
't:::l"
Reagent
Reagent Note
Conc. Temp. Time ('C)
('Yo)
Fyrquel GT
Cll
100 100 .100
;:I
,100
'" 15' t""'
..,Sp ..,
(days) ~ating 7 7 30 30
Gallic Acid Esso Golden super Shell M 15 fuel
3
l~oI;
antioxidant no. 22
Hardness I Yhange.
.20 20 20
.~
good·ex.c. r8$ist.;m~der. effect
'2P".
i20o"
;~6 ~:
20 20
" 20>;
'~;:',~
L,~;'li
Gasoline
~,';';~4("·'
unleaded
24{h
unleaded
litllefno affect·severa condo may cause change
8 8 8 7
I
automotive fuel 608 Esso golden Shell super automotive luel 608 automotive luel 28 automotive luel 60 automotive tuel RF2 automotive luel 28 automotive fuel 60 automotiva fuel RF2 pramium 51% arom.,O.l wt% anliox. no.22 premium w/26% arom. content, 2.47 glgal regutar premium 51% arom.,O.l wl% antiox. nO.22
..
".&&:
6
.. ",~ ." 8
7
in,llw" ?
7
.'Ar~>d
28 28 28 30 28 28 2S 50 50 50 3
7
80
100
A-l0
1
96
95
AD
i
DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent
.'::
;ir;:
16 13 30 5 4 2 17 15 30 9
A·6 A·5
! litlleJno.eII.~,seVeie:~il~i:li~}'cma
change
i
(FKM)
5
"U(5;/'\ 30 4 2.3 30 16 13 5 17 15 9 5
44
98.75
73
A·l
60
100
72
A·l
42
70
80
A2
:",
.
';::"-:'
. . ~. N?@rrr ::)} }] t%J6<
W::;·
('>~' ;~~:.:\~,.
.':, ~~;!~~;~~~it~~~~~il;it.· .
94
100
A·S
43"
3
2
99
100
A·7
~/
3 7
2 8
101 SS
100 90
A·6 A·l1
.':
,. :,:.
~:
11 ;;:0;; ~
(FKM)
racommen'dM fOI use
;;J.
7
3M Fluorel (FKM)
racomine~ded for usa ,-
7 28 28 28 28 28 28 50 50 50 50
Material Note 3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM)
exc;~~sist.,li~le or no effect
';)
automotive fuel 28 automotive fuel 60 automotive fuel 608 automotive fuel RF2 Esso golden Shell super automotive luel 28 automotive luel 60 automotive lual 608 automotiva lual RF2 liquefied, LPG producar
I
Resistance Note good-exe. resist., m.oder.· eUect
8 8
23
Gasoline
tr::
8 9 6
I
:;
3M Kel·F 3700 (VDF/CTFE); Shore A65; 100:10:10:1:6· Kel·F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel·F 3700 (VDF/CTFE); Shore A55; 100:10:10:3 phr - Kel·F: Zn02: Dyphos: benzoyl perox . 3M Kel-F 3700 ~DF/CTFE); Shore A53; 100:10:10:3 phr· el·F: Zn02: Dyphos: Diak .1 3M Fluorel (FKM)
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
...... -..J
'" co
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"s::: ~
Reagent
Reagent Note
conc'ITemp'l Time ('!o)
Gasoline
Gasoline Additive Gear Lubricants
Gear Oils
:s ~
Glues
7
9
4
98
98
A-8
43 43
7 14
8 8
3 6
96 101
95 100
A-11 A-l0
43
14
8
12
101
100
A-13
43 54
14
.9
7
5
5 14
101 57
100 76
A-7 A-8
Texaco Premium M 15 luel
60 65
2 3
8 4
7 23
55
81
A-25
gasoline antioxidant 122
24
7
·...,.. 9
GL-4A GL-48 lead soap-active sulfur MIL-L-2105 SCL, sulfur-chlorine-lead GL-4A
149 149 149 149 149 150
3 (9 3 9 39 3 .9 3 9 3 9
GL-46 lead soap-active sulfur MIL-L-2105, 15% additive meeting SCL, sulfur-chlorine-lead HD 90
150 150 150
3 3 3
150. 175
3
'\1,
7
5
GE81406 HD 90
177 177
7 7
9 7 8
149 149 150
7 21
8'
. 7
7
150
21
Texaco 3450
~
(
70
exc. resist.. lillie or no e(lec\
3M Fluorel (FKM)
u
1
1.6 2
2 4
96
99
AD
96 99 93
98 100 97
Al AD AD
91 60
99 60
A-1 A-6
o
DuPont Viton; 20 phr MT black, 15 phr magnesia or iitharge, curing agent 3M Fluorel (FKM)
recommended for use exc. resist.. lillie or no eHect
9
9.1 26 9
95
100
A2
6
26
78
86
A-7
56
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, cu,ing agent
exc. resist. litlle or no eUect gooa-exo. resIst.. moder. elieci
3.7
3M Fluorel (FKM) DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended. 10J use liWetno effect:se~ere condo may cause cliange not reco';;mended, substantial elfect
(FKM) 3M Fluorel (FKM)
minor to moder. e f f e c t · ;
6 8 8 .
. @Iefno eUecHevere condo may caU~~!\~~!J;g.":. filll.elno.el.I~:sere~ec~~d.~rsause change
Iffl~riO.ei!!~~I~lii;~~~.f~;~~~~se
>\8
(FKM) (FKM)
change
;77Ciec6iiiiii\in(je~forii~e'i
20
2
-0.4
.,.~/V
"'!~
DuPont Vilon; 20 phr MT black, 15 phr magnesia or litharge, curing agent
CIl
<6' ;:I
t""
..,So
..,
l:l
te:
glycerol
(FKM)
recommended tor use
8
23
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
2 1 1
. ".. 8 glycerol glycerin
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
1.3
9 9 9
2
Material Note
exc. resist., lillie or no effect
II 14
Resistanc!! Note
DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge. curing agent 3M Fluorel (FKM) DuPonl Viton GF (Perox. Cur.); 20 phr MT black, 15 ph, magnesia or litharge. curing agent
8
23
23
Glycerin
H:hl~~~j,
43
ri' CIl
I
premium w/26% arom. content, 2.47 glgal regular lead, 2.03 mgtl antioxidant no. 22 premium 51% arom.,O .1 wt% antiox. nO.22 regular M 15 fuel
23
l:l
TenSilelllodU'US Elongallon Strength
Rating
(days)
Gelatin Gelatins Girling Crimson Glaubers Salt Glucose
% Retained
Volume
('C)
Texaco 3450, rear axle oil
@
I POL
% Change
-'"
20' 20 "-23 )
28 56
o -0.5
. c~·
,1\11.I#!J;~~I.!~~!*'t'!!;~~!J;~;'!#Y,,~~i!~~·~~ge
.
(FKM)
©
::9 p ~
:~
Reagent Note
Cone. Temp. Time
POL
VoluOla
':!ating
;
.
('C)
(days)
glycerin
70
2
9
·0.6
Ct>
"
70
II
;J
" "
28 56 5
·0.4 ·0.1 1
(%)
r;' Ct>
t::I
~
Glycerin
~
.,0-p .,
?rf 121
Glycols Keystone '87HX light grease Shell Alvania .2 Sunoco; all purpose machine oil no. 120
,
1
A·2
magnet swallow Shell Air GG·1034 WTR
1.00 100 175
21 21 3
9 9 6
2 2 13
85
133
A·2 A·2 A·6
Supermil ASU·06752, American Oil Co. Shell Air GG·l034 WTR Supermil ASU·06752, American Oil Co.
175
3
6
19
66
87
A·5
175 175
7 7
7
17 32
90 39
80 40
A·l A2
Hanover MIL·H·83282 lubricant; Ucon 50HB280X, Union Carbide
vinyl plasticizer, Hercules
.
7
7
8
205
14
9
3
76
105
recommended lor USe
14
4
13
66
133
A~l1
150
14
6
17
76
100
A·14
n·Hexane
2 1
uns~t1sfactory .lor use nOI.,suitabte tor ,service
recommendiiilioiiise/'
20
B 8 8
~~
n·Hexane
25
n·Hexene·l
23. 20,
Irgg
1
1 1
5
1
290
A,30
10
1
308
A·26
7 21
='"
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
lillie/no effect·sevef9,!=onq. may caUS9 change .,';
,.... exc.r9sist,·N!ll!9r~R~~!~\.
3M Fluorel (FKM)
~~VWM~!!M!%"MIW$Mi!;mn~~@~changa .
II
~
(FKM)
A·10
8 9 9 8'
23
.....••.....
" DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or titharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
23
21
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent . DuPont Viton B (FKM/TFE); 20 phr MT black, ' 15 phr magnesia or litharge, curing agent
A2
150
N·Hexane·l
(FKM)
lor use
A·4
8 8
N·Hexaldehyde n·Hexaldehyde
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
:)il!llo/~.o effect·severe cond. may.:£!!.u,se change
175
,
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommende~
8
N·Heptane
(FKM)
I~I/elno ellect·severecond. may cause change
8 23
I~l/einOel/ect·~.~n!!P.9M;ffillX~~Hs~:change
iiicoriiriie~diiifioiuse
8 8 8
Koppers
Hexene Hexyl Acetate
4'
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
<..
recoriiriienifiiiHoiijse" .
9
Halothane Halowax Oil
Hexane
Material Note
recomil\ended for use
.•.
21
23
Hexaldehyde
I
; DuPont Viton B (FKMITFE); 20 phr MT black, ' 15 phr magnesia or litharge, curing agent
100
Green Sulfate Liquor
Helium Heptane Hercoflex 600
9 9
8 8 8 8
,
Heat Transfer Fluids
Resistance Note
•
8 8
23
Greases
~~:~~:h .U;;';~I~~Elo~~all~n I:~h~~~~~'
'~._.
(1)
to·
~.Re~alned
% Change
.
Reagent
(FKM)
. DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
1\:1 -0.
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
CD
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'T1
;::0;; ~
:Reagent
Reagent Note
Cone. Temp. Time (%)
23' 70
7
8 8 8
6
·135
3
8 4
11
high energy fuel
Houghto Safe 271
water & glycol base
Houghto Safe 620 HS 1010 HS 1055 HS1120
water & glycol base
.
elperimenlal high temperature fuel
Hy Tran 17 Hydraulic Fluids
Sunsafe; fire resistant Univis 40 Oronite 8200, disiloxene, high temp. Shell Iris 902, water-inoil emulsion Bray Oil 762 Cellulube, triaryl phosphate ester CHX-604
7 14
70 100
14 14
70 70
14 14
288
3
288
3
6
17
70
7
8
8
38
1095
8 8 6
2
66
28
9
5
70
7
7
9
14
31
310
64
86
107
94
A-2
106
AO
2 13
80
14
8
9
A·s
70
14
7
8
A·9
70
28
9
0.6
A·l
70
28
9
2
AO
90
21
8
0.7
105
105
A·9
Houghlo·Safe 1120, phosphate ester base
100
3
8
7
100
112
A·3
n
"
100
3
.8
3
92
95
A·3
2
~
"
H;O"
3
2
92
100
A·s
100
3
6
l
14
82
94
A·18
3
6,. ,:
16
76
121
A·6
t'"'
0: ..,
..,
I=l
Il:
"
,
, ,
"
;;
I
,
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
,
"
"
, .~ ~
,
.
...;
CIl
;:l
~:'
I
,
1
" " "
I
i
;'/'"
~:':':
100
DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, IS phr magnesia or litharge, curing agent DuPont Vilon; 20 phr MT black. IS phr magnesia or litharge. curing agent
A-I
8 7
.
" ..
A-3
84
7 7
Houghto-Safe 520, water glycol base
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-2
70 70
<E'
"
A·7
FR fluid 20 Houghto-Safe 1010, phosphate ester base Houghto-Safe 1120, phosphate ester base Houghto-Safe 62, EF Houghton Shell Tellus 33, petroleum base Univis J·43, petroleum base, Exxon Mine Fluid 3XF, Shell, lire resistant
.~,.
good·exc. resisl., model. efleet
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
recommended to,"se
3
~
good·exc. resist.. moder. ellecl
" " " "
. DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agent
8
'S""
"
A-9
78
.
3M Fluorel (FKM)
... .'.'eXt: YW,tiiil!ii1eofnoeifect
7
Hydraulic Fluids
3M Fluorel (FKM)
mliiorto moder. affecI good·alc. resist.. moder. ellect
"
1.7 7.9
17
3M Fluorel (FKM)
good·exc. resist. moder. ellacl
9.1 20
7
@
(FKM) DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. .
13 20
70
,
Material Note
.•••••... not!ecornniery~ed,~@~!M'i~E~ffect iriliioiioiitOdiii:effect ....
70
70
Resistance Note
Hardness Change
recommended lor use
70 100
14
..
o
recommended lor usa IiUlelno ellect-severe condo may cause changa
6 6 6 6 6 7 6 9 7 3
70
HS 5040 HS 620 HTF
rensII8,JUl>dUIUSI Elon9 allon · Strength
j)DL Rating
Hexyl Alcohol
HEF 2
% Retained
Volume
(days)
('C)
l-hexanol
% Change
N N
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing egent
"
,
DuPont Viton B (FKM/TFE); 20 phr MT black, IS phr magnesia or litharge, curing agent
@
0/0 Change
"I:l
E" ~
Reagent
1?en
Hydraulic Fluids
n' en ;:l
~
, P ,
0-
ll::
(Oc)
(days)
Rating
100
3
7
9
89
129
A·2
100
7
8
8
97
118
A·l
"
100 .,
7
8
4
94
116
A·3
"
100
7
9
2
94
106
A-5
Houghto·Safe 520, water glycol base
100
7
5
21
57
89
A-l0
"
"
100
7
5
33
50
95
A·8
"
100
7
6
22
63
118
A-4
DuPont Vlton B (FKM/TFE); 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Vlton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent
Houghto-Safe 1055,phosphate ester base Houghto-Safe 1120, phosphate ester base Hydro-Drive MIH·50, high viscosity OP 47, ICI, silicone base, fire resist. Unlvls J-43, petroleum base, Exxon
100
14
7
20
A-5
100
14
6
20
A·12
Houghto-Safe 520. water glycol base Houghto·Sale 1120. phosphate ester base
" BP Aero no. 1
Hydraulic Fluids
~~:~~~~I Modulus IEIOngallo~ ~~~~~~~•.
POL
(%)
<E'
% Retained
Conc. Temp. Time
Reagent Note
Oronite 8200, disiloxane, high temp. Oronite Hyjet
" Oronite Hyjet W
" Houghto·Safe 1120, phosphate ester base Houghton Vital 29 FM Shell F.R.phospate ester/Aroclor mixture 8P Aero no. 1 DP 47, ICI, silicone base, fire resist. Shell Aeroshell Fluid No. 4 Oronite 8200, disiloxane, high temp.
" Oronite 8515, 85%; 8200/15% high temp. Univis J-43, petroleum base, Exxon Oronite 8200, disiloxane, high temp. Oronite 8515, 85%; 8200/15% high temp.
"
Volume
' Resistance Note
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
, ,
" DuPont Vlton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vlton GF (Perox. Cur.); 20 phr MT black. 15 phr magnesia or litharge, curing agent
..
",.;
,
~.;
,
"
,.
;:,;;
"
,;
~:
100
14
9
0.3
100
40
9
0
100
100
121
180
6
15
66
105
135 149
7 40
9 8
3 3.2
89
100
A-2
"
AD
" "
A-l
o·
<
exc_ resist., lillie or no ellect
" 3M Fluorel (FKM)
.
150
7
9
2
93
100
AO
150 150
7 7
1 1
264 177
7 14
22 41
A-54 A-56
150 150
7 7
1 1
159 243
15 10
53 24
A-56 A-53
150
14
6
7
88
150
A-6
150 150
14 20
6 8
6 5
88
140
A-8 A-5
150 150
40 40
8 9
3 0
75 95
108 100
A-2 AO
150
40
8
3
75
108
A-2
175
3
8
2
85
80
A2
"
175
3
8
2
93
79
A3
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT btack, 15 phr magnesia or litharge, curing agent
:
175
3
6'
5
72
85
A·l0
175
7
8
4
87
89
A-l
21
9
2
A·l
21
9
4
A-2
-8
A6
175 '
28
x.x... !;..
, .,.
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
..
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
"
,.
DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
" "
~
.
,,
"
, .~:
"
.",. ~
..
..
" "
too brill).. to test
11
s:::
Material Note
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"
ru ru
-'"
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
11
A
I\J I\J
N
:s:: Reagent Hydraulic Fluids
Reagen~
Note
conc'ITemp'l Time (%)
('C)
Versilube F-50, silicone base, GE Oronite 8200, disiloxane, high temp.
Houghto-Safe 1120, phosphate ester base Houghton Vital 29 FM
Hydraulic Fluids
(days)
% Retained
% Change
I
POL Rating
Volume
I.•
I
175,·
28
9
3
175
41.6
5
5
29
44
A2
175 175
83 83
3
3
6 4
27 26
6 11
A13 A16
14
6
12
86
140
A-9
200
.~
A2
. 200
14
6
12
63
100
A-II
Oronite 8200, disiloxane, high temp.
205
3
9
2
96
97
A-3
3
9
105
100
A2
Oronite 8515, 85%; 8200/15% high temp. Oronite 8200, disiloxane, high temp. Oronite 8515, 85%; 8200/15% high temp.
205
3
7
72
85
A-2
7
6
50
58
Al
5
70
61
Al
205
Resistance Note
r&ns Ii•. lIodUIUS'" Elongellonl Hardness Streng!~ Change
DuPont Viton A (FKM); 20 phr MT black, 15 ph' magnesia or litharge, curing agent DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPonl Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agenl
>/t
Oronite 8200, disilolane, high temp. Versilube F-50, silicone base, GE Hydro-Orive MIH-l0, low viscosity
Hydraulic Oils
205 ~
205.,.' :';:;::::
»:.
205'
7
4
80
68
A·1
205 205
21 21
7 8
43 40
29 30
AO A3
205
28
2
A13
3
-3
A8
260 ; 62
7
30 30
'.
60. 70
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
"\~ britUe to test
·1
7 5
9'/1
;'7'
0.6
82
108
A1
0.4 0,5 14
84 85
100 100
A3 A3 A-7
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
r . ... ····unsatlstaOtoiyloiuse
Hydrazine
. Qot sUd~hki to'r selVi~8'
•
Hydro-Drive MIH 10
petroleum base
IHydro-Drive MiH 50
petroleum base
S" ~
0.3
tl
(\)
VI
tE' ;:l
3M Fluorel (FKM)
,1~~~~~~~~'?1 ~~~i,' re$jSt; Ilul.,*roo· effecl
3M Fluorel (FKM)
t"'
0: .,
.,
$::l It::
le~~~~~~,~;1Qt ~~e.§
11111&11)0 8f1ec,;~e~~!fcOn~.IlIjlY:ca~se allang. ; 'hl,",no
e"~~~:;~!-~~~:!~~S;:~~~ehan~~';
(FKM) (FKM)
leeot6!nendellor us. },
saturated 3 molar concentrated miriatic acid, concentrated
(FKM)
no ~~e~
,.,
40 40
Hydrocarbons Hydrochloric Acid
tasISI~3iijle~r
; eXe,
Hydrobromic Acid
n'VI
DuPont Viten B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
reco!Dli!endedlorose exc,
@ '1;l
DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-2
100
petroleum base PRL-high temperature petroleum base Avrex 903, MIL-H-6083 Brayco 783, MIL-H-6083 PO-1307,MIL-H·6083
4
Material Note
3
A5
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or lilharge, curing agent
@
'1:l
P
~ ;:;. Ul
tl
Reagent Hydrochloric Acid
C1l
Ul
tEo ;:l
l:
...P
0-
...
It::
Hydrochloric Acid
('C)
(clays)
I.
miriatic acid, concentrated
20
30
[
concentrated miriatic acid, concentrated
23 70
Reagent Note
conc'lTemp'1 Time (~)
cold
37
hot
37
cold hot
37 37
muriatic acid
POL Rating
Volume
7
14
7
9
<5
14
9
2
23
37 37
23 25 70
38
70
0,4 Change
7 3
t.Retliiriecl Elongation
IHardness
Resistance Note
Material Note
Ch~nge A-7
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-1
DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
(FKM) 117
103
8 8
recommended tor use
8 6
litlle/no effect-severe condo may cause change
9 8
2 3
elC.
69
118.75
87
A-14
38
52.5
114
63
A-7
38
50
110
63
A-8
47
100
108
A3
47
78
114
A2
47 47
75 79 75
107 122
AO A-2
142
A-9
5
47
(FKM)
may cause sl. visible swelVloss of prop. resist..
Iinl~.
3M Fluorel (FKM) 3M Fluorel (FKM); compounds w/lead based metal oxides recommended 3M Kel-F 3700 (VDF/CTFE); Shore A65; 100:10:10:1:6 - Kel-F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel·F 3700 (VDF/CTFE); Shore A55; 100:10:10:3 phr· Kel-F: Zn02: Dyphos: benzoyl perox. 3M Kel-F 3700 (VDF/CTFE); Shore A53; . 100:10:10:3 phr· Kel-F: Zn02: Dyphos: Diak '1 DuPont Viton GF (Perox. CUI.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
or no effect
2
47 47
9 2
47
2
47 47
3 3
86 72
120 200
A-10
47
6
84
105
A-2
70 70
3 5
75 85
108 118
A-3 A-6
70
4
94
110
A·4
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent A-7 DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CUI.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GH; 20 phr MT black, 15 phr magnesia or litharge, curing agent
Hydrocyanic Acid Hydrofluoric Acid
'may caust~.~~n~~i n~ sul\abkf1or.,serYjce
anhydrous
.' 1"II81no effecl~seveiJ~nd.
cold, concentrated hot, concentrated 48
A
22 1
A·1
48
9
0.7
AO
48 48
.9
2
A-2 A-4
9"
2
(FKM)
Q\;!Y'cause ooang'"
moderJseveres~ena~d/~tl~$s. 91 prop,
anhydrous
"s:::
;r..
lXl,od.exc. rei~t:iln;;ller;.ffect . ...• .' ' . ". .... .•..• ' , : .
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
.••• ,
3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
:. DuPont Viton 8 (FKMITFE); 20 phr MT black, . 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
N N
c.>
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
." ~
N N
~
~
Reagent
I
Reagent Note
Hydrofluoric Acid cold hot cold hot
('C)
48 50 <65 <65 >65 >65 75
25 23
(days) 7 7
Volume
TenSile; Modulus 'Elongallon Strength
7 "9
I
Hardness I Change
Resistance N,ote
12
exc, resist" lime or no eHect
,,
2
8
70 100
5 5
81
3
60
150
A-9
150
A-13
• Ii1.t1!{no.. !IJ'~M,~,rep~n9,m!~~a~se change unsaiiiifiicio'iY'lofuse .
8
19
2.1
in water
20
4.1
5
82
254
A-2
2
20
4.1
100
95
A-l
24
7
90 90
20
7
9 8 9 6 9
90 90
23 132
0,08
6 2
40
Hydrogen Peroxide 90% active
dry, cold dry, hot wet, cold wet, hot wet, cold wet, hot gas @ 2.0 MPa (300 psi) w/65% carbon dioxide; @ 500 psig
"
@
2
recommended for use exc, resist" little or no eHect .,' rriinorto moder. eHeet
3M Fluorel (FKM)
may cause sl. visible swelVloss of prop,
DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or lilharge. curing agent (FKM) DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
0 0
106
102
AO
58
2 2 2
I 23 23 132 35
~
unsa,lisfactory lor use
.
not suitable for service 7
1 6
50
210
7
5
46
35
210
7
7
35
.210.
7
6
Hydrolubric 120B
n'CI>
95
A-9
80
76
A3
55
80
98
AO
36.25
75
110
A,2
7
90
137
A-l
4
98
106
A·5
6
95
135
A-2
11
95
135
A-6
tl ~
CI>
100
;J
100
cE' t'"
0: .,
.,
!=l
te:
3
7 .:::-.
,~~
7
(;
(FKM) . DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
(FKM)
" DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Kel-F 3700 (VDF/CTFE); Shore A53; 100:10:10:3 phr - Kel-F: Zn02: Dyphos: Diak .1 3M Kel-F 3700 (VDF/CTFE); Shore AS5; 100:10:10:1:6 - Kel-F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel-F 3700 (VDF/CTFE); Shore A55; 100:10:10:3 phr - Kel'F: Zn02: Dyphos: benzoyl perox.
<':-
"tl
S'
(FKM)
·8
23
.:;~
Hydrogen Sulfide
3M Fluorel (FKM) (FKM)
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
IHtlafno en~~~1~verecond.~ay caU$e change recommended for use
anhydrous liquid, anhydrous
gaseous
Material Note
.. .. ......" ··i~~6iMi~iideiH6iiJ$~t
8 8 8
23 gas, cold gas, hot gas
5
I
recommended for use moder. to severe effect recomm,nded lor use .inodel, t~ severe eHect
8 4
75
Hydrogen Fluoride
PDL Rating
'4
Hydrofluosilicic Acid Hydrogen
% Retained
,! I I
Iconc'ITem p Time ('Yo)
% Change
\":
, ::;-
j:
"
DuPonl Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM~ 20 phr MT black, 15 phr magnesia or lit arge, curing agent
@
'1:l
~ ~
n'V> ~ V>
Hydrolubric 1208
15' ;:l
t"'
0: ...
... \C: i=l
6
92
12
83
126
DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·l
Hydroquinone (FKM)
Hydyne Hypochlorous Acid (FKM)
Hypoid Oil Hypoid SAE 90 Insulating Oils
Veedol
2
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
Univolt 35, Exxon
2 3 0.8
Shell
4.7
Swan Finch
, DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Iodine Iodine Pentafluoride (FKM)
Iris 902 Isoamyl Alcohol
3M Fluorel (FKM)
21
106
88
A4
25
107
79
All
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Isobutyl Alcohol All
;,:;~~~t-;:::::: ,: .:;:,: ::,):: ,:::':'
," ". . I~U'{~o~ff~clj~veie ~?nd; ~Y,~~~,se .change. .good-exc,res~';i modei:eff~.ct
re~qmmen~~iiioruse
Isobutyl N-Butyrate Isododecane Isooctane 20·'.····
21
2
AO
?3 ·<2.5·
Isophorone
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
21
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
ketone (FKM)
Isophthalic Acid
with isophthalonyl chloride
17
DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
290
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
Isopropyl Acetate
Isopropyl Alcohol isopropanol
(FKM)
Isopropyl Chloride (FKM)
Isopropyl Ether (FKM)
Isopropyl Nitrate "'T1 A
~
Catalene B
320
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
N N 01
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
-n ~
m
$:
Re!lgent
I.
Reagent·Note
I P~L
Jet Aircraft Fuels
MOduIU~
·lcqnc·ITenip·1 Time Volume ..T •...e ..•..".•.•.5.•..I..I.e.•.·.•· Elongation I·.H. ardness (%) (~CJ (days) R a t m g l i t r l l l \ 9 t h C h a n g e · .
Jet Aircraft Engine Oils
% Retained
0,4 Change
I
I
Resistance No.te
DV·4709, thermally stabla JP 5 JP·4
205
7
1
340
20 20
28 28
9· 9
1 1.7
JP 4 JP 5 JP 6 JP·6
24 24 38 38
28 28 3 180
9
1.6 1.3 4.2
9 8 9
7
50
A·60
...._ ...._ .. ~
Stauffer 7700
38 38 38 175
365 730 1095 3
9 8 6 7
·exc. resist., little or no eHect,
100
95
3M Fluorel (FKM)
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent
A3
13
100 87 73 96
95 93 86 91
AD A·6 A·7 A·l0
175
3
7
8
92
117
A-5
175
3
9
5
99
102
A-5
175
14.6
7
17
75
100
A-7 A·8
0
DuPont Viton 8 (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
175
14.6
4··
23
63
63
175
41.6
5
17
89
160
A-8
175
41.6
3 .
20
45
160
A-14
175
83
4
26
57
79
A-10
175
83
3
39
40
40
A-7
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
3 7
7"
23 14
79 67
100 170
A-19
200
7
7 ... :,' ..
8
78
105
A-3
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing
• 20l).
14
6·
23
75
104
204 ·204 205
3 3 3
.•'1 7' 9.
12 4 4
205 ....:.... :'<'.260 '·269
3
. DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
'/
Jet Aircraft Fuels
" . 200 ..···200.
JP 4 JP 5
JP-4 JP 5 "
3
8
3 3
::E
12
.•. . exc. resist.. ·iittle6i no effact . good:eic. reslsl., moder. effe~t
85
100
5.8 6
JP 6 JP·6
n' CIl
1?CIl tEo ;:l
t
.., ..,
0'
P
u::
Jet Aircraft Oils
Turbo no. 10, petroleum base, Exxon Turbo no. 65, petroleum base, Exxon Turbo no. P-16, petroleum base, Exxon Turbo no. 10, petroleum base. Exxon
,.
a~M
A·3
A32
@
P ~
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·l A·2
,
StaufferJetll,MIL·L· 236998
Material Note
.:;
18 18
25
325
A-12
0.4
96
115
A-2
.. "'''''0
3
9
0
92
106
AD
70·
3
7 ','
2
79
121
AD, '
70
7
8
0.3
94
121
A2
,,-
not recommenile
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluoret (FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluore' (FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent '" DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
<
.......
@
'1:l
P en
Reagent
Reagent Note
~
(%)
r;' en
ii;'
conc'ITemp'l Time
Jet Aircraft Oils
en
15' ;:l
~
Turbo no. 65, petroleum base, Exxon Turbo no. P-16, petroleum base, Exxon Mobil II, MIL-L-23699
.., P ..,
0-
u::
0/0 Change
% Retained
POL Rating
Volume
Tensile Modulus Elongallon Sirengih
I
I I
Hardness Change
(OC)
(days)
70
7
8
o
92
118
A2
70
7
7
2
77
127
A2
150
21
6
11
74
81
A-l
200 200
14 14
3 5
26 16
29 61
44 82
A-15 A-l0
205 205
3 3
6 7
14 17
71 77
79 95
A-4
Resistance Note
Material Note DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent -:. DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
AO DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
14.6 14.6
3 4
23 19
26 26
205 205
41.6 41.6
5
29 38
17
A5
7
A-12
205
Kerosine 23 23 70 149
4
47
A-16 A-7
B '8
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent .;, Iill~no ,', -
7
9
2
7 28
9 7
20
28
2 1
Lacquer Thinners Lacquers lacquer solvents
ex~~~~sist.;linle or no effect
85
23 23 158
3M Fluorel (FKM)
81
21
45
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
A·30 'nol suilable lor service
7
8 8 8 8 7
(FKM)
........,., ...•·.·.··ui§liSiil~oryiod;s8····
23 23
cold hot cold hot
""" recommended for use cause change
'ffecl:s~~~tkcond:;nay """', .-,,:>:-. '.
,.~;.
o
2
20
Lactic Acid
57
205
? '.
..
';,::iecomtneiideiffoiiise'"
mUelnq ellec.I~severe condo may causa change' 11
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr megnesia or litharge, curing agent
recommended lor use
8
Lavender Oil 23 23
(FKM)
Lead Sulfamate
recomm
sa
23
Light Oil Ligroin
DTE petroleum ether 01 banzene benzine/nitrobenzine
8 8 23 38
Lime Bleach Lime Sulfur
recommended 101 usa
iltueln6. ilfl~cI'iav,i~cond,
8 28
a.;.
2
79
100
A-l
..;
23
miy cliusa change
.:::~ ..f::::~::::: ;: ;-~~"{' ;::;:":;','~
-.
....
I~tl~m~:~,!~~M!~Y~!~I~~,"?Y,,~M~~cMpge
."
A
~
(FKM)
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
racom",:[M~~ for usa
8 8 8
~~M~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
(FKM)
I\) I\)
......
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'TI ;;0;;
N N
co
~
Reagent
Reage~;[NoteIConc·ITe",p·1 Time IRating PDL ("')
Lindol
hydraulic fluid; phosphate ester type hydraulic fluids, Stauffer Chemical
('C)
%R~talned
0/0 Change
~;
Hardness
Volume
Resistance Note
Chang~
(days)
Material Note
6
minor to moder. effect
.23
6
may cause.s!, visible swelllloss of prop.
23
6 6
may.cause sl. visible·swelllloss of prop.
8 8
recommended fOJ use ~. tittle/no effect·sevare condo may c.~.~se change
Linoleic Acid Linseed Oil 23 70
2
9
(FKM)
. . . , ..irifii?do' ~d~r:enec(" (FKM) (FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
0 0 0 1
Liquid Petroleum Gas Liquimoly Lubricants
LPG H2; high viscosity U4; high viscosity Elco M2G 105B; rear axle lube Sunoco X5 820 EP Lube
Shell Spirax EP90
@
~
p
~
n' CIl ~
CIl
IS
Lye
t
Magnesium Chloride
;:l
.,0.,
P It::
121'
7
3
1~O
3
6
87
100
150
3
3
98
105
AO
104
A-4
150
7
8
3M Fluorel (FKM)
81
AO
67
71
AO
23
59
115
A·15
18
50
100
A·20
ET 387, Dow, high temperature
3
92
95
AO
3
92
95
AO
Pentalube TP-653, Heyden-Newport
21
69
96
A-22
Shell Spirax HD; rear axle lube Royco 808-RH, Royal Lubricants
Lubricating Oils
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
di-ester petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50 petroteum base Sun XSC 71 367
solutions
2
,. DuPont Vilon A (FKM); 20 phr MT black. 15 " phr magnesia or litharge, curing agent '.' DuPont Viton B (FKMITFE); 20 phr MT black. . 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge. curing agent
:~;:::
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent DuPont Vilon B; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
·1
108
70
A·3
-2
81
77
A-2
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ; DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent •
minorlo:moder:'effect
~ay.c~U$e..s!}~i;i~t!~~~10;s~.91
P!Op.
iiW~{99 ebe~~::t:~:~:~:;~~:;~~~e
change •..
(FKM) (FKM)
@
'U
S" ~
R~agent
Reagent Note
('t.)
n'
'~" '" 15' ;:I
t"'
...c:$:l ... It::
conc·ITe.mp·1 Time ('C)
(days)
IRating POL
% Retained
% Change I
Volume
~.es!stance
Tensile Stren~th
Magnesium Hydroxide
•
23
Magnesium Salts Magnesium Sulfate
Material Note
Note
• .' rec~ended fQr'~se 1~11~!9!! • ~tl~cks(~~!~ • AA9.~(!MY~iw~e .. recomnillnd.eil for use
change
(FKM)
23
(FKM)
23
(FKM)
23
(FKM)
Magnesium Sulfite Malathion Maleic Acid Maleic Anhydride Malic Acid (FKM)
Mercuric Chloride Mercury
vapors (FKM)
Mercury Chloride Mesityl Oxide
ketone (FKM)
Methacrylic Acid 26
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
0.3
3M Fluorel (FKM) (FKM)
Methane gas, 500 psi
Methyl Acetate A180
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
A210
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent (FKM)
Methyl Acetoacetate Methyl Acrylate
Methyl Acrylic Acid (FKM) 3M Fluorel (FKM)
26
Methyl Alcohol
methanol commercial grade
39
75
91
A-6
22
51
165
A·27
42 3
75
105
A·2
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent DuPont Vilon 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black. 15 phr magnesia or litharge, curing agent (FKM)
methanol 4 150
i not r~l))me.!'~~,.~.U~.~!~9t.~let'~).
11 ~
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
3M Fluorel (FKM)
N N <0
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'TI
A
N W
o
s::: Reagent
Reagent Note
conc'lTemp'1 Time ('C) 25
7
7
50
60
1
4
23
Methyl Carbonate Methyl Cellosolve Union Carbide
23
23
Methyl Chloroformate Methyl Cyclopentane 23
20
7
20
7
23 7 7 7
MBK
2
"uii¥ilslecloiYiikuse not ~\i~~P.~lgfservice
(FKM)
(FKM)
I
6
. ury~~il~,~,t~!¥loruse "'recommendiidloruse . may cause 51. visible swelUloss of prop.
8
. recommend~d for use
8 6
may.cause sl•. vislb.le swelllloss of prop.
(
2 1
littlelno
L 7 l' 2
A-51
313
A-43
grease, oxidalion inhib. fluid lIuid, oxidation inhib.
tEo ;:l
Methylene Blue Methylene Bromide
(FKM)
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent .; DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
nol suUable 'lor service
240 6 290
good-exc. resisl., model. efleet
3M Fluorel FLS 2330 (FKM) 3M Fluorel (FKM)
.::~mE~AAmm!~~~9i:~.~·~~,~?'I~'~llecl
s(
..... "." "ui\$8tisillclorylo(4
81
214
20
7
2 1
200
3
2 1
. DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent .unsatisfaclory for use
!
23
unsalisfaclory lor use 100 britUe 10 teSI
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
not.-suitable lor service
23
6
23
·'.i(6
150
15~'~
"205 205
20 "23'
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
nol suUable lor service
recommeilded lor use
8
grease
eite~t';~yere ~nd. maY cause change .. .unsatislae'ory lor use
458
80
IMethYlOleate
CIl
(FKM)
····r.coinlnended for' use
23
Methylaniline Methylchlorophenyl Silicone
(FKM)
tI:::
20
~
te:
~~ "fe9o@!iendetij9ru~~
MIBK
Methyl Methacrylate
.., >l ..,
8
1
Methyl Isopropyl Ketone
~
recommended for use 'unsalislactory for use
8
25
0-
3M Fluorel FLS 2330 (FKM) DuPonl Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. nol suitable lor service
8
25
t:::l
good·exc. reslsl., moder. efiecl
1
23
23
"1:l
6 42
., 2
23
MEK
MEK
S" ~ n' CIl
Material Note
8': dimethyl ether/monomethyl ether methyl ether
@
Resistance Note
',8
Methyl D-Bromide Methyl Ether
Methyl Ethyl Ketone Peroxide Methyl Isobutyl Ketone
.
I:~ ~n
T.nsllellloduluS·I·ElongauOil: a.r.•. . . . ess. Slrength .·.Qhal1ge
1 .. 2 8
Methyl Cellulose Methyl Chloride
Methyl Ethyl Ketone
Volume
8 8
Methyl Benzoate Methyl Bromide Methyl Butyl Ketone
I
P~L I
(days) Ratl~g
(%)
Methyl Alcohol with 50% isooctane
I
% Retained
% Change
40
.i
0.7
40 40 40
4.8
may
17 4 4
";"2"> 6
110
89 119 112
109 99 90 85
A4
.a~se'~,_;yisi~l~sw~lIilo~s
'.:~.:,
01 pro!>:
(FKM)
,.
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
., 'l,
A3
"
A7
A-3
~~
• swelled and cracked
ij~(r~tl§!n'~~~#t'*'~M~;m#~,~~~~!-M~f.t
(FKM)
I
...... @
'il
po
VI
/ Reagent Note
Reagent
(')OJ
~
0' VI
~ VI to·;:s
"
-, Cone. Temp. Time
PDL
Volume
(days) Ratin,~
('CJ
"
% Chan~e
"
% Retained
I I
Tensile, Modulus, Strength
~Iongetloft Hardness,
Resistance Note
Change
;$ ~
Methylene Chloride
~
... ... u::
0-
Material Note
,
......... .. ~
mil)o~ 10 moder. eifect
6 6
20
7
20
7
25
5
20
20
7
4
16
23 25 25 3B
3 3 28
56
109
A-19
45
57
A-l0
... ,
,
~
Methylhydrazine Methylphenylsillcone
6 4 6 3
may cause 51. visible swettlloss of prop, not recommended. substantlel etfeet good·exc. resist, moder. effoct
27 15 29
31
60
A18
48
37
90
A-33
-5
116
82
A5
6
Methylene Dichloride Methylformamide
50', monomethyl hydrazine lIuid
205
7
3
40
4 7
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, , 15 phr magnesia or litharge, curing agent ., DuPont Viton GF (Perox, Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
minono moder, offect
,
' DuPont Viton B (FKMlTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent moder.. to severe effect DuPont Viton A (FKM); 20 phr MT btack, 15 phr magnesia or litharge, curing agent
.~
MiI·8200 MiI·L·2104·B MiI·L·23699
MiI·O·5606 MiI·R·83282
Milk Mine Fluid 3XF Mineral Oils
Mobil XRM 206A Mobile JET II Motor Oils
oil
38
180
·9
0.1
lOa
105
A2
"
38'
9
" " " "
38 38
365 730 1095
9
0,3 0,3
6
I
90 97 64
90 110 88
Al A·6 A-l0
175 175
4 4
4 5
34 22
A-20 A·16
" "
205 205
4 4
6 3
25 34
A·8 A·22
70
28
8
oil
121
14
8
6
92
120
A·2
"
121
14
.8
4
103
130
A-2
135
7
8 B
"",
~
" '..
8 8 8'
" " " DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent exc. ,esist. lillie or no ellect
3M Fluorel (FKM) DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox, Cur.); 20 phr I.1T black, 15 phr magnesia or litharge, curing agent
, reco'!'mended lor use exc. resist.. linle or no effect ,. recommended lor uso
3M Fluorel (FKM)
.
,
lillie/no elloct·severe condo may cause change
23 lOa
7
9
106
105
lOa
7
9
103
96
MIL·H·83282
121
180
8
2
89
108
"
175
7
8
2
82
84
175
3
7
13
'" 'ele. ies;sL.i.itiie o{M~#eW ' 'recoi1iiriendlld(of lise
3M Fluorel (FKM)
7
8'
0,5
good·exe. resist, moder. effect
3M Fluorel (FKM)
3
7
2
Esso Super Permalube lOW· 30 Synthetic, SOC·l00, SAE 10W40
,
149 150 ;'.
; h
AO
8
82
71
(FKI.1) DuPont Viton A (FKI.1); 20 phr MT black, 15 phr magnesia or litharge, curing agent , DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKl.1 20 phr MT black, 15 phr magnesia or lit arge, curing agent
Al
'TI
;:;l";
"
""
;
Univolt .35
-._-
~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
I\) (J,)
.-..
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
II
;;,;;:
N
'" N
~
Reagent Motor Oils
I
Reagent Note
Iconc.\Temp·ITime (%)
% Change
I
POL Rating
Volume
% Retained T.~~,lle
lIodulus Elongal1on
I
Hardness I Change
('C)
(days)
Esso, 20W 50
150
7
6
0.8
66
68
A-5
Shell super, with STP oil additive
150
7
8
2
74
96
A-I
150
7
6
2
45
62
AO
Spirax 90 EP, with STP oil additive
150
7
6
3
57
67
AI
150
7
9
4
91
100
A-I
150
7
7
2
74
70
Al
150
14
7
1
73
71
AD
150
14
5
1
43
48
Al
14
6
2
58
76
A-I
Synthetic, SOC-l00, SAE 10W40 Shell super, with STP oil additive
Slt,iiglh
Resistance Note
' DuPont Vilon 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
' DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Spirax 90 EP, with STP oil additive
150 150
14
9
3
93
100
A-I
American LDO , SAE 10W-30
150
14.6
7
1
63
79
Al
150
14.6
6
1
58
71
A-2
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Esso, 20W 50
150
28
5
0.8
55
56
A-3
DuPont Vilon GF (Perol. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent
American LDO , SAE 10W·30
150
125
5
2
47
63
All
150
125
4
2
43
57
A14
0.083
Stil ..... n' til tl
163/
10W40 SG CD
@
"1:l
7
88
163
0.17
'3
72
163
0.17
9
97 92
16~
0.33
163
0.33
8 3
163
0.67
3
60
163
1
55
163
1
2 '2
163
2
2'
44
. 163
2
2
48
8 4
.~
10W30 SG CC
1~~
7
"
163
7
,. ~:~~i':i
" "
; DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or IiIharge, curing agent
. ····riii'C(jcliirilioh:iiWrig
I, f
j
7
:~:
':f:~
69.4
60
A-1.5
44
52
A-l.5
1,9
43,1
47
AO.5 A1.5
1.8
no
c~~cking Of ~razing
.
showed Cf,acking/crazlng ,"':
~~
A-2
1.7
~;.
\
82
94
no cracking or crazing
showed cracking/crazing
52
2.2
"
"
7
3
0.6
36.8
42
163
7
3
1.1
29.4
25
A2.5
163~j
7
1.8
53.3
59
A-0.5
163
7
2.6
88.3
70
A-l.5
hti,'cracklng or crazing
163,":
7
2.9
59.2
55
A-2.5
showed cracking/crazing
"
..,0..,i=l
10W30 SG CE
{.
,4.,,,.
3M (FKMITFE); high fluoride (70 wgt.%) peroxide cured; Shore A76 3M Fluorel (FKM); 66 wgt.% fluorine; Shore A75 3M (FKMITFE); high fluoride (70 wgt.%) peroxide cured; Shore A76
3M Fluorel (FKM); 66 wgt.% fluorine; Shore A75
"
~
3M Fluorel (FKM); 66 wgt.% fluorine; Shore A75
Sho~;d e(acking/erazing'
~
10W30 SG CD
3M (FKMITFE); high fluoride (70 wgt.%) peroxide cured; Shore A76
", no"'crackh;g or crazing
<E' ;:l
3M Fluorel (FKM); 66 wgt.% fluorine; Shore A75
showed crackingicrazing
,,
60
~~~
7
DuPont Vilon 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,,'163
til
Material Note DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent
)
Motor Oils
I
3M (FKMITFE); high fluoride (70 wgt. %) peroxide cured; Shore A76
@
Reagent
Cone. Temp. Time
Reagent Note
(%)
~
ri' CJ>
16' CJ> to·
Motor Oils
t""'
.,c;:p .,
(days) ~ating
('C)
Material Note
showed cracking/crazing
3M Fluorel (FKM); 66 wgt.% lIuorine; Shore A75
1.6
35.1
33
A2.5
10W40 SG CD
163 163 163
7 7 7
3 3 8
0.8 1.1 1.1
42.5 32 98
46 26 80
AO.5 A8 A-l.5
163 163 163 163
7 7 7 7
3 9 8 4
2.2 0.9 1.2 2.7
49.1 94.8 92.5 57.7
42 91 84 56
AO.5 A-1.5 A-2.5 A-2.5
showed cf1lcking/cf1lzing no cracking or crazing
163 175
7 3
3 6
1.8 3
42.1 74
48 57
A3.5 A1
"
7
5
4
7
8 9
7 28 28
8 8 8 7
" "
"
175
" Naphtha
20 23
.25 70 70
Naphthalene 23 23
Naphthalenic Acid Naphthenic Acids Natural Gas
Nickel Acetate aqueous
Nickel Chloride 23
aqueous
Nickel Salts Nickel Sulfate 23
aqueous
Niter Cake 23 3 molar concenlraled dilute inhibited red fuming; IRFNA red fuming; RFNA red luming
20
inhibited. red turning
23
,
3M (FKM/TFE); high fluoride (70 wgt.%) peroxide cured; Shore A76
"
" "
" showed cracking/crazing
3M Fluorel (FKM); 66 wgt.% lIuorine; Shore A75
" ..
67
52
A3
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" rec9mmended for use
4
4 7 7
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or Iilharge, curing agent (FKM) 3M Fluorel (FKM)
liltle/no elfecl-severe condo may cause change exc. resist.. iiltle or no ellect
.
94
113
"
A-l1
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
reco'""!ended.101.uSe
(FKM)
"
"
,
"
"
,
,li'l'e!?9"e"e9Me·Ye!8AAM··.meYge~·~,e.change rec9fl\mended for use little/no ellect-severe condo may cause change.
.
recommlint!ed.for use
(FKM) (FKM)
>-
" little/no eflect-severe condo may cause change
(FKM)
2 1
lJllslltislllclory for use not suitable for service
(FKM)
8 8 8 8 8 8 8 8 8 8 6
recommended for use ,)ittle/no··effec!'severe'cond/may·cause·change
(FKM)
recommended for use
"
little/no elfect-severe condo may cause change
6 1
(FKM)
recom'!'ended lor·use ".I.itllerno.ellecl:seVe!.e.cO?~.,...~r~~H~·fCJMmJ,e rec:ommeridedioruse
(FKM)
.
"
..
~
minor 10 moder. elfe.ct
4 7
"
no cracking or crazing
8 8
23
23
Neon Neville Acid
..
"
recom"1ended for use , Iiltle/no ellect-severe condo may cause change
23
Neats Foot Oil
..
8 8
8 8 8 8 8 8 8
23
~
Resistance Note
3
Synthetic, SOC-l00, SAE 10W40
;:7';;
I I
Tensile Modulus Elongation Hardness Strength Change
7
"
Nitric Acid
Volume
163
15W40 SG CE
u::
POL
10W30 SG CE
" "
;:l
"
% Retained
% Change
'1:l
I:i CJ>
moder.· to severe ellect 23
j
not suitable lor service
DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
~
~
I\:)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'"s:
% Retained
% Change
Reagent Nitric Acid
I
Reagent Note
Iconc'ITemp'ITimel POL (%) ('C) (days) Rat!ng
I
Volume
Hardness Change
Tensile,.
Stra~gl"
24
7
6
23
70 70
7 7
4 3
60 60
10 10
66 66
28 28
4-
5
41 41
0-50 60
23 20
7
8 9
4
60
24
7
··'8
4.4
70
20
3
9
0.5
70
20
3
9
0.5
70
20
7
9
2
red fuming
w
.po.
I
I
Resistance Note
3M Fluorel (FKM); compounds wflead based metal oxides recommended
good-exc. resist., moder. eUecl
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" , 3M Fluorel (FKM); compounds wflead based metal oxides recommended (FKM) lillie/no e~~ct.sevilra condo may cause change: DuPont Viton A (FKM); 20 phr MT black, 15 .•., phr magnesia or litharge, curing agent good·exc. resist., moder. elrect
102
119
A2
'; 3M Fluorel (FKM); compounds wflead based metal oxides recommended DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent " DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or titharge, curing agent .. DuPont Viton GF (Perox. CULl; 20 phr MT ., btack, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ; DuPont Viton B (FKMITFE); 20 phr MT black, ~ 15 phr magnesia or litharge, curing agent
exc. f8slst, lillie or no ellecl
1 I I
,
I
70
20
7
70
~B
180
38 70
365 3 3
70 70 70
Nitric Acid
..
":.:;~ .70
.
~
7 7
70
70
7
70 70
70 70
7 14
70 25
70
~
90 50100
~,
4
,. 2
22
11
475
A-24
38 28 5
2 38
510 375
A-35 A-35
21 15
56 49
216 405
A·27 A-25
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
:~;>::;
.;.
70"'; 70 ,~
70 70
A-1
\l
1 2 g."
/;"2" 2
., .'
N
12
45
138
A-10
'i3 .\ 2
8 8
49 35
165 345
A-20 A-23
14
r ~~>4
9
79
253
A-14
7
6
4
22
23
M~terial Note
'~.
~.;.
~:
.;:
~,
~~
good-'exc,.resisl.. moder, elleel :,.,:"'
mod,,)seve,e si.ell'andlo;loss of prop, .'..
'
...~.; .
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
'. DuPont Viton B (FKMITFE); 20 phr MT black, " 15 phr magnesia or litharge, curing agent i DuPont Viton A (FKM); 20 phr MT black, 15 " phr magnesia or litharge, curing agenl " 3M Fluorel (FKM); compounds wflead based , metal oxides recommended (FKM) .~
Nitrobenzene 15
I:i
Nitroethane
0'
Nitrogen
~
't"J ;:l
t""
0: -.. j:)
-..
u:::
24
..:: .'' :i: .;.;;
'."
nOl ~~il;~" 10C: se;Vice 'imsaUsl8ctOry lor USe ;~~~'j;ded io,'use
23 textroxide N204, 1 ,~
lillie/no eit8~1'$~~j,!e condo may cause change
'23
Nitrogen Dioxide
.,:~::.:.;~~
.'
;~;.:.:
.' DuPonl Viton B (FKMITFE); 20 phr MT black, '.' 15 phr magnesia or litharge, curing agent (FKM)
unsaUslllctory for use
ell
'" <E"
7
23
~
.'~.
may cause.s4;?;ible swelVioss of prop.
'O,:V;~
@
j.:;/':
,
20
::,.;.~5
1
~~:
190 :.::,-
1
.. :'<.1 ...
190
not,ree~m.m'!M~'.!~~~J'!mw,~~!•.
(FKM)
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Ftuorel (FKM)
@
'il
S ~
Reagent
Reagent Note
Vl
~ Vl
Iconc·ITemp·1 Time (')(,1
0'
Nitrogen Tetraoxide
\Ei'
Nitrogen Tetroxide
t-<
Nitromethane
('CI, (d~YSI
23
I
POL Rating
Ok Change
% Retained
Volume
Tensile 1I0duius Elongation Streng.~h .
?5
1
1 1
100
20
7
1,;
280
I
Hardness' Change
Resistance Note
Material Note
not'suhable lor seIVica not recommended, substantial ellect
(FKM) 3M Fluorel (FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
;:J
.,0: .,j:l
unsatIsfactory lor use noi suitabte for service
2 23
-
Nitropropane
20
tr:
Nitrotoluene Octachlorotoluene
with 60% dinitrotoluene
(FKM)
ilnsaJlsfai:lorj lor use 10
1
130
40
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent ""recommendeiftoFust (FKM)
Octadecane (FKM)
Octane
N-Octane n-Octane
(FKM)
Octyl Alcohol 0.7
Oil Additive
n·Octanol
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
Parapoid 10-C, Enjay Chemical
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litherge, curing agent
Oleic Acid (FKM)
Olein Oleum
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent fuming sulluric acid spirits fuming sulluric acid
(FKM)
Olive Oil 4
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
4
Oronite 8200 2.2 3 1.5 0.5 1
3M Fluorel (FKM)
3 3 1.6
Oronite 8515
i./'•. recOlnmend-ed·!orusa
o 3.6 -0.8 4
"
;:lI::; ~
~~~::t;Vi~'~~ ~~::;~:~:~ notr&C~';;m"'ded.subSlantial
3M Fluorel (FKM)
ellm
axc.
;es(st~ IIl1i8'oibo'effect .
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
N W 01
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
":s::A Reagent
Reagent Note
(%)
Oronite M2V
Orthochloroethylbenzene Orthochloronaphthalene Orthodichlorobenzene OS 124
OS 45
4
85
114
A-7
7
6
8
60
92
A-12
205
7
8 8 8 5
2
o
-13
A-2
260
7
:3
3
53
7
A22
8 8
9
200
177
21
3
8 8
6.9 6
204 205
7 3
8 '8
3 6
80
91
AD
Ozone
©
p-
Paint Thinners
C/) M-
r;' C/)
1?
Duco Kearsley, Xyloi base, Kearsley Varnish
8
3
82
85
A-1
7
8
3
75
9B
A-2
205
7
5
11
62
67
A-3
~05
21
5
4
56
48
A4
205
21
6
4
67
54
AD
260
3
9
9
260
3
8 8 8 8 8 8 2 8
9
;:l
t""
..,0:
..,
$:l
II::
DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-1 exc,}e~IS!.,.VUI~~r.no. e~~ct ·····iec~mri;~1lgediCli· ~.,"
.:~.:,::.:
use"
-.'
.'
litllefno effect·severe cOnd, may cause change
(FKM)
(FKM)
6
23
8 8
little!no effect.sev;r. co/iil.mav
recommended for use minor1ol1)O~er,
6
40
3
····8
8
"·6
A-6
litllefnq
9
'8 7
~ause.SP~nge'.
21
(FKM)
allect
may' cause sl; v!si~l..·s.weIUloss of prop,
6.
2;'. 204.;
4
8 '.;. .8+
.23' ' .... .149 "-
8
DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
.... M .. ~·
93-149
6
"·:·'.:23.
Pentalube TP653
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recomiilended lor use unsatisfactory for use litllelno ellect-severe' condo may cause change may causa sl,.viSibl~ ..swell/loss of prop. , mino; tilrnod;r, ellect
20
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
"
7
C/)
tE'
. DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
exe. resist:, liUle..o( no effecl
205
23 23
(FKM)
A-3
205
Palmitic Acid Parapoid 10C Peanut Oil
use
recommended for use
204
coid liquid cold hot cold
DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent reco~ended for
Monsanto, type III hydraulic lIuid
":'::
Material Note
Iftllelno ellect·severe cond: may cause change recommended for use
21
as 45 type IV
Resistance Note
Chang~
175
'23
'i:l
St""gJh
Monsanto type IV hydraulic lIuid
Monsanto, type III hydraulic lIuid Monsanto type IV hydraulic lIuid
Oxygen
I
!lIodUIUS Elongellon Hardness
7
200
as 45 type III
Monsanto type IV hydraulic fluid
OS 45-1 OS 70 Oxalic Acid
Te~ell.4!
7
(days)
23 n·Bis(m· phenoxyphenoxy), Monsanto
I
Volume
('C)
UJ 0>
% Retained
% Change
POL Rating
conc'ITemp'ITime
'"
ell~b~~1;:lt~i~~~:ft~SJ~us8 change
•.' exc.~esist; l\1t!a. qrcno e~ect·. recorniitTn
elfeet
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent (FKM) (FKM) 3M Fluorel (FKM) (FKM) 3M Fluorel (FKM)
@
'1:l
P
Reagent
r;'
I"
~
'"
f?
'" <E'
Pentoxone Perchloric Acid
.,
Perchloroethylene
.,0P
Conc. Temp. Time POL (Oc) (days) Rating ('J(,)
Pentane (N-) Pentoxol
t
;:l
Reagent Note
20
7
20
7
It::
Perchloryl Fluoride Petroleum Petroleum Ether Petroleum Oil
: above 250 deg below 250 deg
284
13
18
A-37
38 38 38 70 70
365 730 1095 3 3
9'. 7 8 8 7
70 70
13.9 13.9
7
70 10?
28 26
20
7
.. :,' lillie/no affect·severe condo may
,7
.
2
7
A-l0
6
1~IIe1no
1 1
:
" 92
81
A-2
5 9 9
98 92 87 86 82
100 93 95 108 108
A-3 A-9 A-7 A-2 A-3
9 8
82 88
108 108
A-6 A-5
8 11
87 89
100 105
A-9 A-9
"
with 30% H2O with 15% H2O
70 85
technical
65
" DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent may cause 51.. visible sweiVIoss 01 prop. little/no effect-severe condo may cause change
(FKM)
exc. resist., Iinle or no effect
3M Fluorel (FKM)
3
5 :"8
Phenyl Benzene
66'
7
"
"
23;
PDA
' 13,.,
recommended for use .' lillie/no elfect-severe condo mey cause change exc. resist., little or no efleci
'.
0 7 10 10 24 24
85
100
A-l1
89
140
A-14
~
.,,"9
2
~:}
';c
0
3M Fluorel (FKM)
good-el(c. ~esrst., moder. eff~cl 57
210
"
A-19
DuPont Viton; 20 phr MT black, 15 phr magnesia or IiIharge, curing agent
A2
,
"
.::.
"",
'".'
DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or IiIharge, curing agent
:.~.
\ , recommended for use.
.litt(e/no;ff~C\:sM'i;;;;6~d, 'Wi\" cause~hange ",.
(FKM)
.diSSolved ;~~
.2'
23,
"
,; -,~ -~. ",;,.,-,- '-c.
resist.. lillie'or no effect
recommended for use
.~
:;
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
'.~
l
" II 8
,
minQ; to moder. eflect
.;:.6,.. 2
,> e
biphenyUdiphenyl
"
reco'!""e.nded for use
8 8
28 28 26 28
" "
"
.. ~ ... .~
8 8
i
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
,
6
100 149 150
3M Fluorel FlS 2330 (FKM) • DuPont Viton A (FKM); 20 phr MT black, 15 . phr magnesia or litharge, curing agent
" " "
8
9 7
(FKM)
.... ,."
exc. resisl., lillie or no ellecl
73
8
3 28
"
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent ellect'severe condo may cause change .. (FKM)
8
23 25 70
caus.t.~M~.gt';
recommended for use
8 ;
DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
racommended for use
7
crude
phenetore
-
6 8
:,. ioo.
~
1
8 9 9 8
23 23
carbolic acid
"TI A
A-34
7 7 180
Material Note
recommended for use 30
23 23 25 38
25
Phenylethyl Ether
"
Resistance Note
Hardness Change
19
7
Phenol
Phenylenediamine
I
220
20
; <121 >121
Phenolsulfonic Acid
Tensile, IlIoduluS Elongallon Strength
8 1
8 7
:1
% Retained
Volume
8 8
•
23
% Change
A~; •.
,
unsatlsfaclory for use :"not s;i,\able for servica
'
,.
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
~
(FKM)
l\;)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
'" ......
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
II ~
N
(J.)
ex>
s: % Retained I% Change T:e~!II~ ,IUodUIUsl Elongation 'I Hardne~~ C~~c'IT~.~rl~~1ljl:R~~~gl Volume Slr~~~lh """ ..,.,...... . C.hliJl9~i ;1:'
Reagent
Reagent Note
Phenylhydrazine
23
3 molar concentrated 23 23 100
28
60
100
28
t:l Vl
to· ;::l
H20 solution molten
87
A19
205
5
42
75
113
A9
-
Pinene
23 70,
(~.)
chrome others chrome others
.,>l
\r;:
·littleln.o~qe~.\;nve!e·~.o,~"!{ffilI'I·.c~~,secM~ge .... recommended tor use
(FKM)
Infle/no .1Iec\-severe condo may cause change
(FKM)
recommend.d for use little/no ellect·sev.r. condo may cause chang.
8 A6
.8
14
6
17
76
100
A-14
150
14
4
13
66
133
A-II
(FKM) DuPont Viton B (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent
unsatisfactory for use' nol suitable for service
2 1
8
(FKM)
recommended for use
150
-
(FKM)
"miiioijomod~r:eilei:l
8
7
(FKM) DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM); compounds w/lead based metal oxides recommended
DuPont Viton A (FKM); 20 phr Ml black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent may cause sl.. visibla swellfloss of prop.
8.' 8 8 8 8
--'-:: Hercollex 600, Hercules
"I~II~!?9,~II~Pk~~y.~!,~.AA?"!;'!'Ml.E\\~s,e change
6 6 8 8
23 23
(FKM)
recommended tor use 85
Pinene
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr Ml black, 15 phr magnesia or litharge, curing agent
recommended lor use
8 23 23
--
Pneumatic Service Potassium Acetate
8.
-
Potassium Chloride
.'.:'8
uns~1isfacloryfO[..,use
",.t8, 8
23
8 8
'"
8 23
(FKM)
recommen.ded lor,us. " , not,s,ultabJe ,(or servi~.
2,3
Potassium Cuprocyanide
, little/no eff.ct-sev.re condo may caus. chang.
8
23
Potassium Cyanide
exc, resist., IiUle or no eftecl
98
-23
white
t""'
0: .,
A·8
4
23
(1)
4,2
110
205
~
Piperidine
~
8'
.. ~~.
89
8-
-
white
S"
4
23
23
n'Vl
8 7
8
Pickling Solutions
1:l
liUIe/no effect·sever. condo may caus. chang. , recommend.d for Use liltle/no eftect'sev.re cond, may cause change .
8 .', 8
60
Phthalic Anhydride
@
(FKM)
recommended tor USe
8
Phosphorous Trichloride
Plating Solutions
1
8 8
20 20 45 45
Plasticizers
(FKM)
uris.alisfaclory lor use not suilable fOf service
2' diisopropylidene acetone
Pine Oil
recommended lor USe lill.lerno eftect·severe c.ond, may cause change·
8
Phorone
Picric Acid
Material Note
8 23
Phosphoric Acid
Resistance Note
8.< .
recommended for use : little/no effect-severe'~ond. niay caUSe change
(FKM) (FKM)
recommend.d for use'
,\limo/n,.o.eq,~c!;seV~.!e.AA~,"!,ii>elE~~.s.chang.
(FKM)
iecommeiidedfijijjse .' liltle/no effect-severe condo may caus•.cha.n.g•..•
(FKM)
@
po
~
n-
V>
tl
IReagent
Reagent Note
conc'lTemp'1 Time POL .",.(~l I.'Cl (dayslRaling
,"
<E-
23
-23
IPotassium Hydroxide
;:l
t"'
IPotassium Nitrate
..,p
I
0: .., II:
70
% Retained
I
5
23 -
)~!I~f~9~1!!!ft;m~!~,~994,!WlYH9~~ 28
~ec9!!""e~dedfor use
Iittlelno"'Wecl-severe·"cond. may, cause change recommended tor use
8
8 8 3 3
23
9 6
" axc_ resis!., IiUle or no elfect good;e,c_Ie~_, moder_ effect
2 11
w~~~!!~!i,§,~~~~r.cQP\l_mayca~se
!l
.-
n-propyl acetate
20
8
2 1
'retomm.endedfor use' unsatisfactory tor use .
I-propanol n-propyl alcohol
20
8
20
21
23 21 4
20
7
Propyl Nitrate n-propyl Nitrate
9
0,6
8
2
'8
2 6
2 1
140
,.8",.
Al0
7
8
23
2 1
Propylene Oxide hydraulic fluid; Monsanto
ieco;"mllnded'ioius~r
8
23
8 8
Pydraul 115E 23
Pydraul 230E
23 23
8 8 8 '8 "8'
'"
IiWelno ellect-se~erecond. may¢M~e change unsatisfactory for usa n9t sUila,b,ta for service recommended tor usa 1~t1afno ellact'severa condo may cause change
(FKM)
r8comm~nded fOI ~se !~J1~f~o~I!M';~~X~!ej:~~Ij, may Ci!9~" change . "'iecommelldeilioiuse
(FKM)
t~I"f~o·.ef!~~';~,~,~.~!",·~9~1j;.·m1I¥,~i!9~~.cllanQ.e..
(FKM)
(FKM)
(FKM)
i
:ihlliinollffeche~ei8cond~ma)iciiusiiCl\erigiiJ,
,
recoflllllended fot use
,."
l\.)
"TI
'":is:
DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM)
nol suilable for service not lacommanded. substantial allecl
140
23
(FKM)
unSiiilslacioryloruse
8
Propylene
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
A-3B
23 25
(FKM)
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) IItlleln!! elfec.t·sevele'.C()nd: I1J8Y cause ~hange' 3M Fluorel (FKM) gOod;e~
.8
25 70
change' (
nol suilable for service unsatisfactory for use nol suitable for .service recommended fOI use
2 1 8
23
3M Fluorel (FKM)
200
23
methyl butyl ketone
(FKM)
"{
8
Propane Proplonitrile Propyl Acetate
Pydraul 29 ELT
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
change
A-II
8 125 psi 160 psi
Pydraul10E
(FKM)
8
Potassium Sulfite Producer Gas Propane
Propyl Acetate (N-) Propyl Acetone Propyl Alcohol
(FKM)
.(e~orm1tllndediorusll" ,r
8
Potassium Salts Potassium Sulfate
Material Note
recollll)lendeq lor use , 1~t1elno elle,ct-~evere ~on,drmay caUSe change mInor tomo(ler:eHllct . no.t su;tabte.f~rservice
,<'
8· 8 6
Resl~tance Note
Tensne,.IModu.'US ElongeUo,,! Hardness Slre"gt~.., Change
6
23 30
Potassium Permanganate
Volume
8 8
Potassium Dichromate
(\)
V>
% Change
I
'1:l
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
'"co
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
11
~
o
A
s:: Reagent Note
fleagent ...
~:.
;'('.';
"'
.~~
Cone. Temp. Time (Oe)
('J(,)
..
Pydraul30E
hydraulic fluid; Monsanto
" "
23'
Pydraul312
" "
(days)
POL Rating
% Change
% Retained
Volume
Tensile: IlIodUIUS Elongation Strength
I
Resistance Note
Hardness Change
.reco~[I1ended
8 8
lor use
littlel~\! • •~flMk~~Y.~!~M~jj(@~M;~~e change
7
8
100 100
7 28
"
121
"
12l
14 14
"
121
14.6
9
5
95
105
AO
"
121
14.6
8
6
85
103
A3
121 121
83 83
8 7
6 6
78 90
103 121
A-2 A-2
70· ..•
Material Note
2
91
118
A6
7 .6
5 10
89 72
118 120
A5 A-l0
7
4 3
110 104
130 110
AO AO
::.;.:
(FKM)
.···.'·w··
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. ~'
"
Pydraul 540C Pydraul60
.
23 '.
.. ..
"
23 .66
Pydraul90E Pydraul A200
"
14 7
Pydraul F9
" "
82 100 70'
7
8 9
23 100
4
8 8 9
4
149
7
8
5
~ .. ~
r?
Ramjet Fuel
t"-
.,o: .,I=l \t:
(FKM)
exc. resist.. little or no effect
3M Fluorel (FKM)
I
.
"
A-I
2
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent recommended lor use
litlle/no
3
3
120
20 23 25
7
1 1 1
119
3
exc. resist•• little or no effect A-15 21
67
..
not suitabla for service not recommended, substantial eflect
120
2 1
23
(FKM) DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM~; 20 phr MT black, 15 phr magnesia or lit arge, curing agent
A-25
2 1 .~
effect-sev~re condo may cause chenge
unsatisfactory lor use
20
23
(I)
2.7 3
(FKM)
recommended for use ' IiIIlelno ellect-severe condo may caus~&hM~'/
2
Pyroligneous Acid
(I)
8
.'
effect-$~~ere·~nd. may cause change
I
"
Ei
recommended for use
IiIIte/no
8
oil
'tl
8 8 8
23
(FKM) DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
hydraulic fluid 23'
<E'
.:~
60
" " "
Pyrrole
(FKM)
recommended for use Iltllelno effect-severe cond, may cause chenge
hydreulic fluid; Monsanto
@
;J
3
!hlle/no ellecHevere. cond, may caus~.:.cI)~ng~ ••:.
..
8 1
(FKM)
r~co~m~~ded foi use
8
Monsanto, industrial
maY ceuse change'
little/no ellect~e~il\.e.~ond.
8 8
23
Transformer Oil, GE GE hydraulic fluid
~
..
DuPont Viton 8 (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent
8,.:
Pydraul65E
Pyridine
" DuPont Viton GF (Perox. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agent
·•·••••. 8:·· . y
" "
Pyranol
;::;.
9
.~:
:~
.. Pydraul 312C Pydraul312E Pydraul50E
,
I
unsatisfactory for use not suitable for service
I
un~at!sf!lctOry for use
"
riot suitabl~ lor service
RJ·l, petroleum base
20
28
9
1
RJ 1; Mll·F-25558 8 RJ 1
23 24
28
8 9
1
A-2 Iitllelno ellect-severe condo may cause change .... ~ ...
..
,. e%~,~miilit\!~9r~R~~eAt
(FKM) 3M Fluorel (FKM) (FKM) (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent (FKM) 3M Fluorel (FKM)
@
'\l
S' ~
,. ;:~
-
o'
't"l
Rapeseed Oil
tEo '"
RO 6195
Cone. Temp. Time
Reagent Note
Reagent
.....
I'C)
1%)
,
23
;:l
t"'
0: .,
., i=l
Red Oil RJ 1 Rocket Fuel Rotella Oil Royco 899 RP 1
Monsanto, hydraulic lIuid
.. .. ..
ISO
40 40
199 200
40 40
MIL-H-5606
I
·s
2.7 3
57
132
A-5
6 4
20 20
39
36
A-6
8·'
... exc. resist., little or no effect
20
28
1
Shell
200
7
9
0
MIL-L-23699
205
3
6
12
78
130
A-6
.
205
3
6
19
66
96
A-14
28
8 8 9 ·'8' 8
,
chlorinated
Sea Water
Sewage Shell Turbine No. 307
,
70
7
8 8 8 8 8
100
7
7
23 25 100
30 30
8 9 8
200
3
5
200
3
6
20
6.9
".7
23
,.
..
'
A-4
.~
23
Silicone Greases
;:8
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
..
iecommeridedfor iise IilUe/no effect-severe condo may cause change 8XC. resist.. little or no effect
0.9
F 60, low viscosity F 61, high viscosity DC 200, Dow Corning
,
23 150
26
8 9
150 175
28 28
9 :··9
Silver Nitrate
8 23
.:,,;·8X·
(FKM) 3M Fluorel (FKM)
"recom,iiended for use
:
little/no ~1'~B!~e~~!~B9M;(ll~YC8~S~:9h8ng!" .. ······recommend.iffOr use
(FKM)
lillie/no effect-severe condo Il)ay cause change
(FKM)
reco/lUTlended for use
.
1
91
118
A3
3
83
110
AS
••
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
..
.,
(FKM) 3M Fluorel (FKM) 3M Fiuorel (FKM); compounds wi lead based metal oxides recommended
. litlle/no'elfecl'severe'ciind;may cause cMnge exc. resist., little or no effecl
.'
1.5 4.5
..
24
59
100
A-14
16
75
90
A-11
106
120
..
recommendad lor use DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 6 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent recommended for use "IilUe/ro··effect-severecond"mey cause, change
(FKM)
..
,
..
.. " ..
8
Silicone Oils
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
e.~c.r.~~~t,little~r np~.ltect ..
8 8
23
(FKM)
recommended for use
. ::.
Silicate Esters
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended tor use H~lIefno ellect-severe condo may cause change
8
Shinol TWS·R
.I:
good-exc, res'lSt" moder. effect
8 9
23 24
Material.. Note
recommended for use 1~lIa/no effect'severe condo may cause change,
MIL·F-25558 RP·1, petroleum base
MIL-R-25576 MIL-H-25576 C
."
Resistance Note
Hardness Cha nge
8 8
Salicylic Acid
;;l';;
Tensile 1.IUodUIUS Elongation S!re~g!~
23
..
23
"s::
% Retained
Volume
8
149
Sal Ammoniac
Salt Brine Santosafe 300
% Change
8
(1l
\t:
(days)
POL Rating
..
recom!!'8~d8~. tor. ~se
.
little/no effect-severe condo may cause change
',;'
0.1
A-5
0.7 -2
A-1 A2
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
.. ..
;.,.
····riiconiili.ndedloiiise
:.
little/no effect-se~ere,.~~d,.!I\8Y causeWeQge/
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
(FKM)
'"...... ~
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'Tl
A
N
~
N
s:: .~
....
;
Reagenf Skelly Solvent
Reagent Note solvent B solvent C solvent E
Conc•. Temp. ·Time . POL ('f.) ('C) • (~~yst 'Rating
,
Volume
Tensile I IllodUIUS Elongation Strength.
I
y
tire resist. hydraulic lIuid
149'
7
150
. .
l
I
unsatislaclory lor use not.suitable forservlca
aircralt hydraulic lIuid
.. .. .. .. ..
.
7
266
11,4
22
A-52
150
7
1
174
12
45
A-54
100
7
1
171
27
61
A-22
121
7
2
151
23
90
A-44
121
7
3
45
50
81
A·20
121 121
14
4 '1
31 92
62
14
35
90 60
A·22 A-27
150 ,
7 7
139
16 13
61 35
A-56 A-54
150
1 1
Skydrol 7000 23
6 ••••
Skylube 4S0
,200
3
4
15
36
33
A-4
200
3
4
12
34
61
A-5
200 200
14 14
4 4
17 24
13 14
30 19
A-1 A-4
solutions
..
23
'"
•
Soda Ash
@
"tl
po ~
n'Ul
Sodium Bicarbonate
~
Sodium Bisulfite
Ul
t"'
.,0: ., ~
(FKM)
rac0'!lmen,dad lor use little/no effeC1'severe cond, may cause' change·
(FKM)
reco.mmendad 10luse . Iitlle/no affect·severe condo may cause change.
(FKM)
7
23
Sodium Borate 23
soda ash
88
93
AO
7
78
112
A-4
9
102
97
A-1
1
8 23
Sodium Carbonate
unsatislaclory lor use not suitable for service
175 177 177
tE' ;:l
2
vapor, N2 atmosphere liquid vapor, nitrogen atmosphere
','
(FKM)
recommended lor use
3M Fluorel (FKM)
8
baking soda
•
Iilllelno affect-severa condo mey cause change .'
exc. resis!.. lillie or no effect
1 1
23
..
DuPont Vitali, A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
8 8
121 175
Sodium Acetate
(FKM) DuPont Vitali, A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vitali, B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
exc, resisl.. tillie or no ellecl
.
:.'
..
DuPont Vitali, A (FKM~; 20 phr MT black, 15 phr magnesia or lit arge, curing agent
(FKM)
8
1 7
..
DuPont Vitali, B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
DuPont Vitali, A (FKM); 20 phr MT black, 15 phr magnesie or litharge, curing agent 3M Fluorel (FKM) DuPont Vitali,; 20 phr MT black, 15 phr magnesia or litharge, curing agent
1
..
DuPont Vitali, A (FKM); 20 phr MT btack, 15 phr magnesia or litharge, curing agent DuPont Vitali, B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vitali, GF (Perox, Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent
... lillla/n.?,.~ff~~I~.$.~ver~.c9nd, . "!"y,.ca~~,"pl\~rge.".
121
liquid
"'
recommended for use
8 8
8 8
23
Sodium
(FKM) 3M Fluorel FLS 2330 (FKM) DuPont Vitali, A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Vitali, B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
minor 10 moder. efte,ct may cause 51. visible swelVloss 01 prop,
6
Monsanto; hydraulic fluid
Soap
236
,
good·exc, resist.. moder. affect
45
5 1
..
Skydrol 500B
.......
recommend,ed tor use
2 1
23
MateriaI Note
Resistance Note
Hardness Change.
8
Monsanto; hydraulic fluid
.. ..
% Retained
8 8
Skydrol500 Skydrol SOOA
% Change
8 8 ';'8 8. 8 8.·· .j
..
.
..
..
recommended for use , . '
l~ttlo/r9~eCI-s~:Ve~ic9n.d'mi!M~~sa change •• 'iecolNjiendedior use .....
(FKM)
@
'S"' ~
% Change
Reagent
Reagent Note
'~"
cEo '"
Conc. ITemp'l Time
0: .,
I~~.~.I.I'~'I !!l?!luIUS
I
Material Note
(FKM)
8
recomniande~ for use ~ Jml~f~!l~I!~S';~~Y~f~A?~jlHJlll¥Hu~e change! ········reconinianllell·foi·use !
23
8
.10.llelno
ellect;se~~;~§~~jl;.!fllly • S.ll.~.~.•~•••~.llng.~ ••••
(FKM)
30
23. 70
14
6 ;,6 5
46.5 46.5
20 38
7 180
8 6
46.5 46.5
38, ._ 365 730 38
5 3
(days)
('C)
Sodium Chloride
.
~~!~~~\.~t
EIOngatlon;1 Hardness '.
t;
Change
'8 23
Sodium Hydroxide
.,p
ll:
..'
8
Sodium Cyanide
;:l
t-'
IRating PDL
% Retained Resistance Note
(%)
o'
Volume
~:
. mInor, to moder. effect
may caus,~s"
34
53
114
A-10
2
75 73
100 86
A1 A-5
54 32
81 67
A·6 A-9
17
62
A-17
46.5 50 50 50 50
38 24 38 70 70'
1095 7 180 7 14
2 9 7 8 6
2.1 -9.5 0.5 -7
69
115
A3
50
70
14
6
-8
47
120
A-2
0.8
vi;i;l;si~IIIlOSs
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
ol'prop,
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent exc. rlSisl., Iiltleor no ellect good-exc;.resi$t.. model. effect ~)~j\i~:
3M Fluorel (FKM)
.. '
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Parox. CULl; 20 phr MT black, 15 phr magnesia or litharge. curing agent
~:
Sodium Hypochlorite 5
23 20 ;
28
8 8. 9
5
24
28
9
0.8
5
70
28
7
24
28
7
24
20
,
Sodium Metaphosphate 23'
8 8 8 8 8 8 8,
23
Sodium Peroxide 23 dibasic mono tribasic
23
Sodium Salts Sodium Silicate Sodium Sulfate ~UUIUIII
~
2~
i;tUIIIUe
Sodium Sulfite Sodium Thiosulfate
89
110
A-6 exc
reslsI'; iiltle or no ellecl. :':'"':.:.~::-::
(FKM) recommended lor·use Iitl\e/no efleC\.s.lver;'·..ond,~y clluse change .•
.:
..
(FKM)
..•• 8 .. /. 8 .... 8 :"
~
t.,,·~j·'
:.',:'
Inlle/no'
el~~~;:;t~~ti:,~i~~!.~y· cau~e
II ~
:;:
(FKM)
, r~c~en~ed lor use
.' 8 8 8·. 8" ..
8
t····. 23 }·
ext. resisl.;.Ii\lIe or no ellecl
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent . 3M Fluorel (FKM); compounds wI lead based melal oxides recommended DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent 3M Fluorel (FKM); compounds wI lead based metal oxides recommended
8
'0..'
,",VYIUIIII1ijj;IUVIQIl1ii'
Sodium Phosphate
reco"'!"enjled lor use l~lIe/no elleet·se~e[e cand, may cause change
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
Chllnge
(FKM)
I\:) ~
W
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'TI ;;0;;: ~
~ ~
.,.,...
0/0 Reagent Note
Reagent
POL
Cone. Temp. Time ('J(,I (days) Rating ('CI
7
50
Sodium Thiosulfate
9
0.5
7 3
8 4'"
9 24
23 121
7
8 8 9
24
7
8 9
7
8 9
,.'
,,24 70
Soybean
SR SR
luel
10
fuel
6
24 23 50 Stannous Chloride aqueous
Stauffer Steam
6.9
7
1
8 7
1
4
7700 1.4 MPa, 200 psig
,.
"
'"
.,
3
42
230
A-7
162
7
~
exc. resist.; IInle or no eftect
.
,
" "
"
gjlOd-exc. resist., moder. ellect exc. resist.,jitile:or nO efteCI
64
75
A-9
..
9
162 16?
14.6 14.6
4·' 8
exe. resist., linle or no eftect
6
not suitable for service
6 1
70
81
A·7
73
95
AO
94
105
"
"
': '
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
,j. :~.
,1
162 Hi2
21 21
5
45
91
A-13
4 -2
34 82
140 106
A-ll A7
;;.
13 2
49 87
70 105
A-5 A2
;
4
;:l
t
.., ..,
0-
P
u::
9
:
....
'. DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. CULl; 20 phr MT ., black, 15 phr magnesia or litharge, curing agent ! DuPont Viton B (FKMITFE); 20 phr MT black, ,. 15 phr magnesia or litharge, curing agent
.~
A4
"
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
C1l
<.5'
3M Fluorel (FKM) 3M Fluorel (FKM); compounds wi lead based metal oxides recommended DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM); compounds wi lead based metal oxides recommended (FKM)
I
i
9
162
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM); compounds wi lead based metal oxides recommended
,'\.:
;
n' t:l
A2
;
p
(1)
176
.,
7
(FKM)
cause change
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge. curing agent
89
5
7
120
2
50
162
.
recomm.ended'for use ",.
125
21
109
.,
9 6 9
..
(FKM)
.~
"
1 1 5
3M Fluorel (FKM)
iirecommended for use @Ieino etlecl'severe .cond;· may (ause change
1~t1e/njl etlect·severa.eond..may
1.4 1.8 10.8 1.5
8
3M Fluorel (FKM)
recomme~d~d for use
1.3
@
C1l
:;,.
9
21
(FKM) . DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agent
}eciiii\meiid~djofuse eX,('·resi~.. IInle'or no eftect
2.3
9,
149
"
!~~.resi~/llll!!Jlr~o eftect
...•. ";. ,,",
3
<149 >149 150
3M Fluorel (FKM)
exc. res.ist.','IiUle !ir no, eftect not recommo/'ded,~SUbSlaniiat efleci
recommended lor use
14 42 7 7
Steam
"
,
0.8
"
100 100 121 121
and water
,
DuPont Viton A (FKMj; 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge. curing agent
"
0.4
100
" "
<,
recommended for use lillie/no eflect-sevefe ~ond. may cause (hange
and waler
"
Material Note
..
8>
23 20
Stannous Fluoroborate
Resistance Note
,"
8 8 8 8
Stannic Chloride aqueous
I
'
Oil
,
§~;,;;~\~llIodUIUS E~ng.tlOnr¢~:~:~s
1
9
7
50 Sour Gas
Volume
".
%Retained
Change
" ;
......,
DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent
@
Ei ~
IReagent
Reagent Note
VJ
tl (1)
ISteam
VJ
tE·
POL I
(' C)
(days)
Rating
170
4
9
Volume
T.nSIl.llIodUIUs.IEtongauon Strength , .
Resistance Note
IHardness Chan!!e A-3
0.7
175
6
,.5
46
175 "'<'177' ~., >177 ",
50
2 2.
15
197
7
2'
200 204 204
0.3 3 3
9· 8
J.
204
7
.8
204
14
87
A-3
t"'
49
A·13
0: ..,
..,
p
LSteam
and water
Styrene
unsatisfactory tor use
2
7
29
49
7
monomer styrene monomer
20
7
20
28
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-l
. goo(j:~.c. re$i$t" moder, effect
3
2
82
110
A-I
68
114
A-5 !ecoi:iiiliended'fohite'" . little/no ellecHevere ~nd. may c'ause change
ii·
23
A16
o
8"
Stoddard Solvents white spirits
.
6 8
6
4
11
6 5
-16
,I.
may cause vi,sible swelUloss of. prop. f . good·~c, resist., moder. effect
11 31
8,
recommended tor use . little/no effeel-severe condo may cause change
Sulfite Liquors
8"
""}
Sulfole
'9
Sulfur
8"
recommended 'or use
8 8 8
littte/no ellect,severe condo may cause change
Sulfur Chloride
8"
recommended'for use
Sulfur Dichloride
go
Sulfur Dioxide
8"
·0.1
;!!III!{M.e!!m.iMM!~;Mll·.ma.Y •.~M~l~il,!lQ~/
8
2
8 ,8 '·8 8
4
3
(FKM)
.'
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
(FKM) (FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
. recommended for use unsatisfactory for USe recommended 10J use
liitlei~~. eff.c;:~~~er,cond. ~ay' c..use change :".:::::,., ~::
6
moder. to severe effecl may caun 51. visibte swelVioss ofprop,
8"
recommended tor use
''-8
.Wl.~!r9'ffecl-sever.: ¢Dnd. ma¥:£'!~M change
(FKM)
(FKM) (FKM)
IX)
"'TI
=" ~
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended lor uSe
m"tl"m"ff,.c\;~,~,r'.Mn~,m~y.,c,~uS'.CMrg,/
8
Sulfur Trioxide
(FKM)
~
8
Sulfur Hexafluoride
3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM); compounds wI lead based metal oxides recommended DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent
minor to moder. elleel
6
Sucrose
Material Note DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black, 15 ph. magnesia or litharge, curing agent
;.;',
,:-/
;J
II:
conc'ITemp'l Time (%)
ri'
j.
% Retilined'
"'% Change
'tl
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
.;.. 01
N .I:>-
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"s::
;;:0;:
{eagent Sulfuric Acid
I
Reagent Note
1°C)
(')(,J
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum fuming, 20% oleum
20% oleum concentrated dilute 25% Oleum fuming, 20% oleum fuming
Sulfuric Acid
I~onc.
0,4 Change
Temp. Time ···PDL
with 28% nitric, 4% HNOS04, 17 % water
Volume
(days) ijati~g
I
Te~~1.18111odUIUS
I
Elongetlon
Slr.~gt~,;
I
2.0
7
8'
20
7
'9
20
36
6
20
23 23 23 24 25 24
36 7 7
a'"
20
24
7
20
24
20
3
A-5
4
A-2
28
A8
8
ia:" .
92.5
102.5
123
A-1
. 6.
82
123
66
AO
7
7
95
127
90
A-1
100
3
9
-2
106
A2
40
115
28
6
27
51
38
17
8' :•.••• ,9
,.
102
A-11
60 90
121 38
28 180
10
90 119
100 95
A-5 A2
90 90 90 95 95
38 38 38 20 20
365 730 1095 14 14
103 101 102 99 104
100 98 86 95 100
A2 A3 A3 AO A6
95
70
28
5
88
90
A1
98
20
7
9K
7
101
108
A-2
n' IJl
98
20
30
8-:'
10
A6
tl (\)
98
20
30
. ;. 8,
7
A-5
98
100
14
IJl
;:s
t'"
0: ..,
..,p
\l:
,
I
,
0.5
1 0.2 0.5
exc, resj~l.; liUie or no effect ~' .'
;:~/" ~
::,-"
.;.'~
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
I
:::l
21
· DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM); compounds wi lead based metal oxides recommended DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent · DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge. curing agent
)
6
3M Fluorel (FKM) 3M Kel-F 3700 (VDF/CTFE); Shore A65; 100:10:10:1:6 - Kel-F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel-F 3700 (VDF/CTFE); Shore A53; 100:10:10:3 phr - Kel-F: Zn02: Dyphos: Diak .1 3M Kel-F 3700 (VDF/CTFE); Shore ASS; 100:10:10:3 phr - Kel-F: Zn02: Dyphos: benzoyl perox. DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton; 20 phr MT black. 15 phr magnesia or litharge, curing agent
1 90
... 8
:~
,
8
90
9 9 9· 9 9
e~¢.resi~.;"ilule or ,,~ etleci
l
0.5
:..:.
,
::,~:
".;.l1oi
•
28 12
7
<E'
.
,('
,,::~:
'lr
28
~
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM) little/no effecl-severe cond: may cause change
..
70
Ei
Material Note
I
70
Sulfuric Acid
I
'{
;recOf1lllle.~~~
60
'1:l
~ote
.,:
,
60
@
. . R~$istance
Hardness Change
m
.~:{
J
good-exc, resist., moder, effect
DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent · DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM); compounds wi lead based · metal oxides recommended
@
% Change
'1:l
~ ~
Reagent
Reagent Note
(%)
r;'
'~"
Cone. Temp. Time ('C)
Sulfurous Acid
'" 15'
5% sullur dioxide
20
Mobit Oit
90
o:.., ..,
SX 90 Tannic Acid
I:l
tannin bituminous
23
"
Tartaric Acid toluene diisocyanate Shell
23 70
28
21
8
3
14
8 9
2
: 20 23 23
6
7
Tetralin tetrahydronaphthalene, Dupont
23
177
177
";s::,.;;
24 .•...
recommended lor use
"
litlleino enecl·severe condo may cause change
/8 2 1
281
,
,
,.
8 .9 '8
9 ",'8i
nOI suiteble lor service
200
" (FKM) (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
" recommended lor ose IItIie/no effect-severe condo may cause change
1.4
7
(FKM)
"
unsallsfactory tor use
7
40
exc. r&l~b'II!\t£!9R~'lect ",ecommiiiidelftoi'iiiiii:\
lillie/no enect-severe cond, may cause change
8 9
7
Al0
8 8
3.1
Texamatic Fluid 3528 Ke.rsley thinners
.!i1llelnoeffecl:sever.c0llC!: '!lay ~ause cbenge 3
8 8
Texamatic Fluid 3525 177
may
8
1 1
" 3M Fluorel (FKM)
recommended lor use
7
Texamatic Fluid 3401 177
recommended for use 111IIelno effect-severe condo cause change
8 8
Texamatic Fluid 1581
Thinners
"
ng$
23
(FKM)
ex£, reslsl"litUeor ~o enect recomlilliiidedforuse' . 111IIe/no effect-severe'cond. may cause change
0.6
21
23
(FKM)
,
nol suitable for service
20
blend
Tetrahydrofuran
recommended for use litlle/no effect-severe condo may cause change
'.
Tetrachloroethylene
(FKM)
"
S 8,·;
23
3M Fluorel (FKM)
lillie/no effect-severe condo may cause change
8
20
exc. resist., litlle or no effecl
8 8
8 8 8 8 :.' 7
Tetrachloroethane
Tetraethyllead
. Iilllelno effect·severe condo may cause'change 0.7
recommended for use 111IIeino effecl-severe condo may cause change . recommended lor use
23 23
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent (FKM)
8 8 8
23
Tetrabutyl Titanate
Material Note 0
recommended for use severely cracked and swelled
9 ".
Tetrabromoethane Tetrabromomethane
Resistance Note
.Q~allglt:
8 8 . 1
23
TOI Tellus 33 Terpineol
Slr.ngl~ .
9
10
Tar
J
TenSIl.liiod~I;~ IEI~~gatlon Hardnes~
'.8\ 21
23
u::
Volume
8 1,
7
23
;:l
t-
(days)
POL Rating
::
% Retained
(FKM)
recommended for use exc. resist., '\!1!~9(W~:.ff.91 recommended for ose . ..xc,
reslS1"ij\\I~Ml1~~ffMI
3M Ftuorel (FKM) 3M Fluorel (FKM)
iecomme~ded for use
1.9
exc. resist, lillie or no effect
3M Fluorel (FKM)
2.1
recommended for use exc.' resist., 111l1. or no effect
3M Fluorel (FKM)
3.5
."
"
"
N
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
~
-J
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"'TI
""
N
~
CD
$:
Reagent
Reagent Note
conc'ITemp'l Time (%)
(0 C)
(d.~ys)
20
28
Thionyl Chloride
Titanium Tetrachloride 23
TJ 15
Transformer Oils
38 177
1095 7
",t?Oit'"
28 20
". ~56
trinitrotoluene
with 5% pyridine
Toluene Oiisocyanate Toluene Oiisocyanide Toluene-2,4-diisocyanate
23
"1:l
S ~
r;' CIl
1? CIl
IQ' ;:l
t-o
..,0:p ..,
It::
Volume
% Retained
~~;;~~;h Illodulus
I
Elongation
I~qb:~;~~
4
Reslstanc~ Note' tec~mendetl
6 8 6 8 7
6 6
22
46
83
may ca.us~
exc. resls!., Iitlle or no effect good-e.c. resis!.. moder. elfact
20 29
,
8
recommended lor use little/no effect-se~ere cond, may cause chenge
(FKM)
88 8
38 38 38 50
365 730 1095 2
4
70
7
10
6 4
8 4.8 17
exc.• resist. lil\'8 or no eflecl good-e'9.·resist. moder. etfec1 54
72
A-12
3
54
64
3 22
52 67
12 86 75 83
A·14
4
5
13
59
80
A-10
7
8
4
73
100
A-3
A-17
4
6 6
15 17
73
100
A-14
95
70
14
5
26
61
100
A-18
good-e.c. resis.... moder. e!fec1
1
9
7
8 8 8 8
Pyranol
Mobilgas WA200; Type A automatic type A type A; Esso Texamatic "An type A Esso. type A
100
/lot,sunable for seNite' unsatis(actoIY lor use
lillfe/no etlecl·se~ere condo may cause change 6
~" ,~~~::
100
1
u:~::':
recommJ~d~ci lor' use
'.-":":-::
""""'8 8
(FKM) DuPont Viton B (FKM/TFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended for use
,.:'\ 7 7
(FKM)
recommended (or use
Q
23
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent , DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Pero•. Cur.); 20 phr MT bleck, 15 phr magnesia or litharge, curing agent 3M Fluorel FlS 2330 (FKM) DuPont Viton GF (Pero•. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent . DuPont Viton 8 (FKM/TFE); 20 phr MT black, . 15 phr magnesia or litharge, curing agent
DuPont Viton; 20 phr MT black, 15 phr magnesia or litharge, curing agent
8 8
100
3M Fluorel FlS 2330 (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-19
14
8
,::>
A-23
93
20
I
.. (FKM)
10
80
(FKM) 3M Fluorel (FKM)
may cause 51.. ~Isible swelllloss of prop.
2 with 20% toluene ·2,6 diisocyanate
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM)
6
7 1 14 180
23
Sl,~i~ib.l~ swelllloss 01 prop.
recorilniended for use may cause 51. ~isible. s~ell(loss 01 prop. 7.8 7.5
Ma.terial Note
for use
A-20
95
TDI
Chlore.tol, AllisChalmers
Transmission Fluids
POL Ratin g
23 23 25 25 38
23
@
I
Change
8
23
ITJ 35 TNT Toluene
0,4
3 2
77
79
A-l
t}(T::::_~.,'
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litherge, curing agent
I\.)
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
-n A
c.n
o
:;: ...
Reagent
Reagent Note
~
Conc. Temp. Time
Treflan
% Retained Tensile, Modulus Elongallon Slrenglh
I I
(days)
POL Rating
Volume
('C) 175
3
7
2
77
82
A-I
175
3
,7
2
75
78
A-I
175
3
7
2
76
80
AO
175
3
6
2
53
61
175
3
7
2
84
Sunoco Sunametic 141 ATF WSX-8762B, Exxon AFT 1 AFT 2 AFT 3 AFT 4 AFT 5
175
3
7
2
175 177 177 177 177 177
3 3 3 3 3 3
6 8
9 9 9 "·9
trifluraiin·preemergent herbicide-Elanco
20
30
"
20 25
('f.)
Transmission Fluids
0,4 Change
ATF 2, viscosity index 140, sap. no. 2.0 ATF 3, viscosity index 136, sap. no. 2.0 ATF 4, viscosity index 140, sap. no. 6.0 ATF 5, viscosity index 147, sap. no. 3.3 Chevron PD·4645 ATF
with water + 5% suriactanl
50
Resistance Note
Hardness Change
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
" 8
"
A-I
"
73
AO
,
DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
76
64
AO
2 2.6 2.1 2.3 2.5 1.5
67
62
A2
7
3
83
118
AO
30
7·
2
91
144
AO
7
8
Triacetin
" "
:
· " · "
1
,
3.5
exc. resist., Iiltle or no ellec!
DuPont Viton B (FKMfTFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
unsalisfactory for use not suitable lor service
(FKM)
• 23
8 8
recommended lor use . liltle/no ellect-se~e;e condo may cause change
(FKM)
23
8 8
recommended for uSe Iitile/no ellecl-severe condo may cause change
(FKM)
recommended lor use
23
8 8
23 100 100
7 7
2 1 1 1
380 380
150
7
1
400
Tributyl Mercaptan Tributyl Phosphate
Trichloroacetic Acid
little/no ellect-severe condo may caus~:s~~.~g~)
, ,
unsatisfactory for use nol suilable for service not recommended, subslanlial elleet
,
23
moder. to severe ellect moder lsevere swell and/or loss of prop. recommended for use
20
7
8 7
11
"0
20
21
7
3
~
23 25 100 100
21 28 28
8 7 5 2
3 46 46
20
7
8 8
10
Trichloroethane @
I:i ::;.
't"l C1l
., $:l .,
0-
u::
Trichloroethylene '~
..
,
,
Al0 Iiltle/no ollecl-severo condo may causo change good-ox.c. resist.. modor. elfect 31
60
A28
,
(FKM) (FKM) 3M Fluorol (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
"
4 4
t
..
" " " "
2 1
Tributoxyethyl Phosphate
;:s
3M Fluorel (FKM)
exc. lesist.. little or no ellect
23
Triaryl Phosphate
tE· '"
Material Note
·
(FKM) DuPont Viton; 20 phr MT black, 15 phr magnosia or lithargo, curing agent DuPont Viton A (FKM~ 20 phr MT black, 15 phr magnesia or lit arge, curing agent (FKM) 3M Fluorel (FKM)
" DuPonl Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recommended for use DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
@
'1:1
po
~
Reagent
Reagent Note
conc'ITemp'ITime ('Yo)
r:;' CIl
~ CIl
Trichloroethylene
to·
Ok Change
I
POL Rating
Volume
% Retained Tenan, Slrength
IlIodUIU~
I
Elongation
Hardness Change
('C)
(days)
20
7
4
9
62
175
A·18
20"
7
e
7
65
86
A-5
20
14
9
4
20 23
14
8
6
25 25 70 70
7
Resistance Note ,.:
Material Note
~.:. ;,
DuPont Viton B (FKMITFE); 20 phr MT biack, 15 phr magnesia or litharge, curing agent DuPont Viton GF (Pero~. CULl; 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
;:l
tetrachloroethylene
t"'
0: ..,
..,
~
\l::
8
IitUe/no efjecI·severe condo may cause cha'nge a~c. raslsi.. Iillia or no aHecl
7
8
e
28
6
23 38
3
6 8 7'
38
180
9
9B
100
AO
39
8
90 92 72 76 83
90 98
A·3 A-12
85 106 118
A-13
100
365 730 1095 14 14
149
7
7
17
150
7
7
21
84
104
A-7
150
7
8
7
93
110
A·3
150 150
14 14
6 7
7
125 86
A-6
20
81 74
150 150
21
4
6
62 71
70 83
A-13
21
18 7
38 38 '100
Triethanolamine TEA
6 7 15 15
28
Tricresyl Phosphate
Tricresyl Phosphate
8
23
Triethylalumlnum 23 71
30
good·exc. rasisl., modar. effact 61
95
A-12
liifiio; iomoder: elieci 'hUe/no eHac!;saver"~nd, may cause change . axe.'teslst., Iitll, no eHecl
or
13
'0
"6:
13
6
21
7
5
A·4
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Fluorel (FKM)
exc,resist,ill1leOr no e.flect.
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-2
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A·3
DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
2 1
unsatisl~~~ty.lor use not SUi\atMJM~ervice
6 6 6
minor to moder, ellecI may cause 51. visible swallfloss 01 prop.
(FKM)
30
8
23 71
30
Trifluoroethane Trinitrotoluene Trioctyl Phosphate
5
;i~;:!? "70" china wood oil Sunamatic 137
149
...·w·.;.w.:.:.·.;.·....
"
6 7
6
23
8
.m,~~• ~~.\\!,. .~I,.Xj~jP"~.~'I!!!oHotprop.
(FKM) DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
3
litUeJno'eHecl·severe!;M~;!ll~~~~~M chang.
(FKM)
axc. rasi~".Ji'MMM~ff!~
3M Fluoret (FKM)
...
l\)
'TI
=" :s:
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
rec:oinmal1dadfofuse ..
8 8
7
(FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
recpmmended lor usa minor \0 modei; allect
6 (f·'·· ..
23
Turbine Engine Lubricant
9 8
Trioxane Tung 011
recommended loruse IitUe/no aHecl·severe 70nd. may causa changa .
8
(FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
A-9
"
Triethylborane
(FKM) 3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM) 3M Fluorel (FKM) DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
01
'"<.n '"
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
."
A
:s:: o'
" Reagent,
Reagent Note • •.
Turbine Oil
% Change
% Retained
Cone. remp, Time. POL VOlume.Ten.sile (%) ('C) (days) Raling~t!;~~h
'15; MIL·L-7808A • 35
IMOdulus IElongation I
I
Hardness Resistance Note Material Note C h a n g e . _
8
recommended lor use
, ' 8
23 70 70
28 28
,.
' "
8 Turpentine
" •.•.••.
8 8 8 7
9 8.6
" •. lillie/no elle'cl-severe condo mal' cause change exc. resist.. liltle or no ellect 84
105
(FKM) 3M FIuorel (FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or lilharge, curing agenl
A-7 ,
Ucon 50HB1 00 Ucon 50HB260 Ucan 50HB280X
Ucan 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucan Ucan Ucan Ucan Ucan Ucon
Hydrolube J4 LB 1145 LB135 LB285 LB300 LB385
Ucan LB400X Ucan LB625 Ucan LB65 UDMH
lubricant
" , " . , .•
'.~
c'
~
0'
'~" to· '" ;:l
t"-
o:., .,I:l
DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
, recof!lmended 10r use
'j
, "
" • '.' " ' ' ' " , , ,
' -. '
" I "
l , , ' .
!
not suitable for service
(FKM)
28 7
9 8 2
1.8 2.6
exc. resist.. liltle or no effect ".'
4 "7
8
10 2.6
. .•. exc. resist., liltle or no effect " .•
3M Fluorel (FKM) " (FKM)
unsymmetrical (UDMH) 24 24
• •
"
8 8 8 23 1 70 135
" ,,"
:
I
8
8
3M Fluorel (FKM) I
23
8
iecoiiiiiieriC!iidfor use lillie/no effect-sevete condo mal' ca.~s~tp~.n.g.e".
23
8 8
recommended for use lillie/no effeCl"5eveo>'.condd,!ay;cause change
20
30
5
12
69
118
A-l0
20
30
6
2
88
133
A-7
Ve rs iIu be Versilube F50
8 23 '1.77 260
Vinegar 23 •.;.
28 3
8 7 7 8 8
"
(FKM) DuPont Viton 8 (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPont Viton GF (Perox. Cur.); 20 phr MT black, 15 phr magnesia or litharge, curing ~em
..
'il
S"
A2
"1 lubricant
" unsymmelrical dimethyl hydrazine
"
" 3
. ; . 8 lubricant' 8' , , " 8 '" 8 , , ' 8 oil 8
Vegetable Oils
@
" .0;
8 8
Varnish
Vernam
recommended lor use
8
lubricant
Univis J43 Unsymmetrical Dimethvlhvdrazine Valclene
8
" 8 oil; potyacrylonitrile ". 8 glycol derivetive heat transler lubricant 38 205 14 9
..
recommended tor use . ' , 3 -3
.Iiltle/no elle~t'siM!fIl;conliimIiYcause change g~od-exc,resist.. model. effect': , " ;}.\ ,,' recommendedloiusil
::
liI"~noelle~M~IW~~9~!h~YS~Usech.an.g~.
(FKM) 3M Fluorel (FKM) " .~
(FKM)
@
'i:l
Ei ~
o·tt> tl
,
, Reagent
Reagent Note
Cone. Temp. Time (%)
Vinyl Acetylene
% Retained
% Change ('C)
(days)
'POL Rating
monovinyl acetylene
I
.. Tensile .llIodUIUS Elongallon .Stre~~~h
Hardness' Change
7
;::l
~
0...,
20
}im,m9~«~et-~'~~(~S9~1,'Mys~~~e~hange
8
23 25
u::
7
'6
drinking salt waler
12
DuPont Vilon A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent little/no eHecl-severe·cond. may cause Change . (FKM) 3M Fluorel (FKM) goo~-e~e.)~ist~moder, etfecl
8
7
12
recommende,fio'use .
distilled
20
30
8 8 8 9
0.6
AS
"
20
30
9
0.8
A-5
cold distilled
23 70
180
8 8
3
"
70 70 90 100
365 730 4.2 3
7 6 9 9
11 5 5 1.3
"·"0100';.,'
7
6
59.5
90
86
A-2
100
7
8
80
105
90
A-4
100
7
3
33
140
43
A-7
distilled
100
10
9
1
111
A-I
and sleam
100
14
9
1.4
distilled
100
28
9
0.3
99
117
A2
"
100
28
6
0.7
83
125
A-18
..
100
30
8
2
104
117
AD
100
30
6
50.5
68.75
95
A-2
1.00
30
6
65
91
103
A-l0
100
30
5
31.25
97
63
A-a
100
42
9
" plus 1% soluble oil and steam
Water
and steam
."
little/no ellect-severe condo may cause change
.,
I.B
69
100
AD
80
130
A6
,
" "
exe. resist. lillie or no elleci
104
s::
DuPonl Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM) DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or IiIharge. curing agent
..
..
, exc. resist.. lillie or no ellect
..
exc. resist., Iinle or no eHecl
3M Fluorel (FKM); compounds wI lead based metal oxides recommended 3M Kel-F 3700 (VDF/CTFE); Shore A65; 100,10:10:1:6 - Kel·F: Zn02: Dyphos: Luperco 101XL: TAlC 3M Kel-F 3700 (VDF/CTFE); Shore A55; 100:10:10:3 phr - Kel·F: Zn02: Dyphos: benzoyl perox. 3M Kei-F 3700 (VDF/CTFE); Shore A53; 100:10:10:3 phr - Kel-F: ZnD2: Dyphos: Diak .1 DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge, curing agenl 3M Fluorel (FKM); compounds wI lead based metal oxides recommended DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl DuPont Viton B (FKMITFE); 20 phr MT black. 15 phr magnesia or litharge, curing agent DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent 3M Kel-F 3700 (VDFICTFE); Shore A65; 100:10:10:1:6 - Kel-F: ZnD2: Dyphos: Luperco 101XL: TAlC 3M Kel-F 3700 (VDFICTFE); Shore A55; 100:10:10:3 phr - Kel·F: Zn02: Dyphos: benzoyl perox. 3M Kel-F 3700 IVDF/CTFE); Shore A53; 100:10:10:3 phr - Kel·F: Zn02: Dyphos: Diak .1 , 3M Fluorel (FKM); compounds wI lead based metal oxides recommended
N
'TI
r:
DuPont Viton A (FKM); 20 phr MT black. 15 phr magnesia or litharge. curing agent (FKM)
recomni"ndedforuse' .
7 '.'
.~
.~:
8
i=l ...,
Water
'~'.;:
A-2
7
9
23
Vinyl Chloride Vinyl Fluoride
Material Note
:~.
unsatisfactory for use
tt>
lEi'
Resistance Note
2,· -20
C1>
Volume
<.n
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
w
/'\J 01
Chemical Resistance - FKM, VDF/CTFE, FKM/TFE Fluoroelastomers
"
~
;::0:;
~
Reagent
Reagent Note
Water
and steam
distilled
Water and steam
with glysantin 1:1
Whiskey White Oil
50
6 9
10.8 1.5
149 162
21 7
6 8
6 9
86
95
A6
162
7
8
5
86
105
A·7
162. 162
21 21
8 , 7
5 11
94 64
121 110
A·3 A4
170 170 175 204 204
4 8 6 3 3
9 9 5 8 7
2 4 50
126
A·3 A4
0 3
90
4.2
9
2
121 121,
-
-23
~
~ CIl ..... r;' CIl
~ CIl
cEo ;:l
t""
c;: ..,
..,
I:l
tt::
','
Zinc Salts Zinc Sulfate
DuPont Vilon A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agenl
good·exc. resist.. moder. elleel
,
8
lillie/no effecl·severe condo may caus~p~~~.g~.:. recommende.d for use
8
l~tlfi~'l~!!MkM¥~I~co~d'maY cause change
. recoriirilen!led fOf
2 12 18 18
20
10
'9
5
23
Zinc Chloride
-23 ~~
3M Fluorel (FKM) 3M Fluorel (FKM); compounds w/lead based metal oxides recommended
'8 '8
8 9 7 6 5
-23
Zinc Acetate
good·.xc. resist., moder. effeel exe. resisl., linle or no effect
recommended for use
7 14 28 28
23
Material Note
DuPont Viton A (FKM); 20 phr MT black, IS phr magnesia or lilharge, curing agent DuPont Viton GF (Perox, CUI.); 20 phr MT black, 15 phr magnesia or litharge, curing agent
3M Fluorel (FKM) 3M Fluorel FLS 2330 (FKM); compounds w/ lead based metal oxides recommended DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent
(FKM)
(FKM)
use
little/no ellec~·severe condo may caUSe change 'xc. re5isl., little or no effect
(FKM) 3M Fluorel FLS 2330 (FKM) 3M Fluorel (FKM)
good-exe. resist.. moder. effeeJ
66
85
A·16
DuPont Viton A (FKM); 20 phr MT black, 15 phr magnesia or litharge, curing agent DuPont Viton B (FKMITFE); 20 phr MT black, 15 phr magnesia or litharge, curing agent
'2
mixed aromatic amines di·methyl aniline
Resistance Note
Change .
.
ii ii
23 .,25 25 70 70
Zeolites
@
'..T . •.ns.II•.·.•• ~ll:!.~g,~ ..,.
ii ii
-
Xylene (m·1 Xylidine
7 7
(days)
-23
Xenon Xylene
·llIodUIUS·.I.Elong8110n.' Hardness
Volum,
(0 C)
&wines
Wolmar Salt Wood Oil
I
POL Rating
conc'ITemp'l Time (%)
% Retained
% Change
I
unsatisfactory tof use nOI suitable'for service
'8
recoriiriiende,fioi uso'
8
1~llfig'l!J!~EM~m!S'lgg!~Yc~uJachan~e unsaiiSiaCio!y iOi'US8
(FKM)
'2 1
nol suitable for sarvice
(FKM)
ii 8
reco",mended for lise lillie/no effeet·severecotid. may cause change
(FKM)
ii
reeommengedlor use
.6:· 6
tiffle/no
~ffecl:~evere C'l~~i\wtM1!.~Se change
(FKM)
(FKM)
255 Chemical Resistance - FFKM Fluoroelastomer
Reagent
Reagent Note
Aconitic Acid Acridine Acrolein Acrylic Acid Acrylonitrile Adipic Acid Aircraft Turbine Oils Alcohols Alkanes Alkanesulfonic Acid Alkenes Alkyl Acetone Alkyl Alcohol Alkyl Amine Alkyl Arylsulfonates Alkyl Arylsulfonics Alkyl Chloride Alkyl Sulfide Alkylbenzenes Alkylnaphthalenesulfonlc Acid Allylidene Diacetate Alum Aluminum Acetate Aluminum Bromide Aluminum Chlorate Aluminum Chloride Aluminum Ethylate Aluminum Fluoride Aluminum Fluosilicate Aluminum Formate Aluminum Hydroxide Aluminum Llnoleate Aluminum Nitrate Aluminum Oxalate Aluminum Phosphate Aluminum Potassium Sulfate Aluminum Salts Aluminum Sodium Sulfate Aluminum Sulfate Amlnes Amino Phenol Aminoanthraquinone Aminoazobenzene
© Plastics Design Library
{daYI)
@Qd) 100 glacial
·100\": 100
faa,
Acetic Anhydride Acetoacetic Acid Acetone Acetone Cyanohydrin Acetonitrile Acetophenetidin Acetophenone Acetotoluidide Acetyl Bromide Acetyl Chloride Acetylacetone Acetylene Acetylene Tetrabromide Acetylene Tetrachloride Acetylsalicylic Acid Acids
('C)
., .100
Abietic Acid Acetaldehyde Acetamide Acetanilide Acetic Acid
C'onc. Temp. TIme
··(%f> .
100 ,,'
·100'
mixed non organic organic
denatured
olefin hydrocarbons
" ..
.~,
FFKM
256
Chemical Resistance - FFKM Fluoroelastomer :'C"
....., ..
<:"
.,
Reagent .,
.
Reagen~
,. '<.
'"
·,:1,'" . Note '... Cont. Temr~ .Tlme POL % (days) Rating Change ('c . l%J
VOlu~~
Amlnobenzenesulfonlc Acid Aminobenzoic Acid Aminobenzoic Acid (po) Amlnoethylethanolamine Aminopyridine Aminosalicylic Acid Aminosalicylic Acid (po) Ammonia Ammonium Acetate Ammonium Arsenate Ammonium Benzoate Ammonium Bicarbonate Ammonium Blfluoride Ammonium Bisulfite Ammonium Bromide Ammonium Carbamate Ammonium Carbonate Ammonium Chloride Ammonium Citrate Ammonium Dichromate Ammonium Diphosphate Ammonium Fluoride Ammonium Fluosilicate Ammonium Formate Ammonium Hydrogen Fluoride Ammonium Hydroxide Ammonium Iodide Ammonium Lactate Ammonium Metaphosphate Ammonium Molybdate Ammonium Nitrate Ammonium Nitrite Ammonium Oxalate Ammonium Perchlorate Ammonium Perchloride Ammonium Persulfate Ammonium Phosphate
Ammonium Phosphite Ammonium Picrate Ammonium Polysulflde Ammonium Salicylate Ammonium Salts Ammonium Sulfamate Ammonium Sulfate Ammonium Sulfate Nitrate Ammonium Sulfide Ammonium Sulfite Ammonium Thiocyanate Ammonium Thioglycolate Ammonium Thiosulfate Ammonium Tungstate Ammonium Valerate Amyl Acetate Amyl Alcohol Amyl Bqrate Amyl Butryate Amyl Chloride Amyl Chloronaphthalene Amyl Clnnamaldehyde Amyl Laurate Amyl Mercaptan Amyl Naphthalene Amyl Nitrate Amyl Nitrite
FFKM
1.0 0 .. 106 100 100 100 100 100 100 100 100 160 100 100 100 100 100 100. 100 100 100
anhydrous gas. cold gas. hot
sal ammoniac
lOa
concentrated
dibasic monobasic tribasic
."
8 8 8
a 8 8 8 8 8 8 8
a '8
a 8 8 8
,
a 8
8 8 8 8 8 8 8 8 8
100 100 100 100 100 ,. 109< 100
il
10q
8
loa,
a
100 100 100 100
8 8 8
lOa
8
100 100 100 100 100 100 100 100.,:""
a
.10? .. , 100" 100 ·100
a 8 8 8 8 8 8 8
a 8 8 8
lOa lOa
8
100 100 100 100 100
8
lOa ;:
P
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
a
100 100 1.00
lOa
8
<10
100 100 •
lOa
. 100,.": ., ,.1'00, 100' 100 100 100 100
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
;'" ,.
M~terial
~eslstanceNote :
Note ::.
:
Iiltlelno elfect, severe condit'. may cause 51. swelVprop.loss ...
~.
DuPont Kalrez (FFKM)
.. . .. ..
..
"
"
.. ..
"
:c;::',::,·
.........
" "
,,'.',
.. " "
" " " " " " " " " " "
,
"
.." .." "
"
•
.
.."
"
" " "
" " u
"
" "
" " "
~
"
"
u
" " " " " " " "
u
.. "
!
~
,,' "
•
,
u
"
." ."
"
" " " "
.. ;;
:
t,.
.."
.. .."
,
" "
... u
.."
,
::
." ." "
" "
:
"
..
" " " " " " " " " "
"
" "
:
" " " " " " " " " " " "
"'
"':"
.,.
.;
" " " " " " " " "
" © Plastics Design Library
257 Chemical Resistance - FFKM Fluoroelastomer . ·c.
I!'
~:':'
Elelige,,~Not8< Amyl Phenol
t-=: ~ :.;:J~ .:.;:a:.:~. :°C:.:.;.:.;~.:.~_at_e Aniline Aniline Hydrochloride Aniline Hydrochlorlne Aniline Sulfate Aniline Sulfite Animal Fats
Animal Oils Anisole Anlsoyl Chloride Ansul's Ether Anthracene Anthranilic Acid Anthraquinone Antifreeze Antimony Chloride Antimony Pentachlorlde Antimony Pentafluorlde Antimony Sulfate Antimony Tribromide Antimony Trichloride Antimony Trifluoride Antimony Trioxide Aqua Regia Arachidic Acid Argon Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Arsenic Oxide Arsenic Trichloride Arsenic Trioxide Arsenic Trisulflde Arsenltes Arsine Aryl Orthosllicate Ascorbic Acid Askarel Aspartic Acid Asphalt ASTM Oil No.1 ASTM Oil No.2 ASTM 011 No.3 ASTM ASTM ASTM ASTM
011 No.4 Reference Fuel A Reference Fuel B Reference Fuel C
Aurex 256 Azobenzene Barium Carbonate Barium Chlorate Barium Chloride Barium Cyanide Barium Hydroxide Barium Iodide Barium Nitrate Barium Oxide Barium Peroxide
© Plastics Design Library
POL
Time
Reslstanc!, Note ' Change." .' .
% Volume I ,
idlyl) Rating I··· . <10 8 .. l1~{ilillietnoefleCl.
, (%)("C)
.
•... .' , ...
'.<>'"
.;
.' Con~; teit)p,
Matllrlal~ote>
DuPont Kalrez (FFKM) severe condit. may ,cause sl.swelVprop; 16ss <10 <10 T_en_ne c..;,.o_Ch e_mi;,;,:ca:..:'s -"'4 iii '-;·_:::'yE}{__:_; '--------l • <10 8 .•. ··· dyes;!: ; : ~ ' •..••••...•... ~: .••• . •..• i" 8 . <10 <10 8 .;.. <10 8 <10 8 .'. <10 8 <10 lard 8 100 {\~'£:'~~' <10 ""00 ". 8 <10 ,100. 8 "00 <10 8 <10 100 8 <10 ~<100 .8 <10 8 ........,:.:: :.,~ <10 '8 <10 8 ·100······ <10 ethylene glycol; Prestone 8 .. <10 solutions .'100 8 . . ... " }. .. · ....1·00. <10 8 <10 8 :~100 . '. . 100' may cause sl. visible sweIVlos&.· 6 "01 physical props. .:. '100 <10 8 Iittle/~o,effect. sev~.le cond/l. may cause sl. swelVprop. loss .' <10 100 8 <10 ·.·.·.}OO.. ' 8 '" may cause sl. visible swelVloss 6 »;100 :'~::: .... . of physical props. '.' " <10 8 'lil\t~/~o effect, s,evBll condit" · ". -... may cause sl. slYelVprop. loss <10 8 <10 ~·.lOo. 8 .... ;" '." ,~ •••• 8 toO , <10 gas ". ! '100/ <10 Monsanto .8 <10 8 .. A <10 '100 8' <10 100 8 <10 100 8 <10 8 • 100 .. <10 8 100 . <10 8 <10 i tOO 8 ..... 100.' <10 { ,8 , <10 8 ' . . 100 <10 8 100 · roo. <10 8 <10 .. loa \ 8 <10 8 ""-ioa" ""toO <10 8 <10 lubricating oil 100 8 ~:
'}
;7)--.;.,.,.-;;---:----.-~-
~:,;. :.:.· >__._....,...,._
.8 . 8
. .,.
...
...•
i~'J~r;j
. .>
~::~.
..
.
,
~{.
;<100 '.
. 100
,~.
..
100
..
-.
23 .•". "'1'00 :i"
<10
8 8 8 '. 8
<10 <10 <10 <10
···.10b .10 0 ';; )O?;
8 8 8'
·tOOj
8 8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
.i ·tOO·,··
100
•.....10·0· . 50% isooctane. 50% toluene Mobil Corp.
.,.•.:'\00'..:•. ";:\..~
7
. j( ;
.
":;'"';
·:.Joo . .
aqueous
2
9 8
}i
,100 100 .. tOO
100. 100 •··.•··100
8
8 8 8 8
.
~\
.
.
,. .'~
. - ,.
-. "/
".
FFKM
258
Chemical Resistance - FFKM Fluoroelastomer
:.
.... :
,.'"
\h· .
Cone.
····100i"·
Barium Polysulflde Barium Salts Barium Sulfate Barium Sulfide Beet Sugar Liquors Benzaldehyde Benzaldehydedisulfonlc Acid Benzamide Benzanthrone Benzene
lio .;
aqueous
Borax Bordeaux Boric Acid Boric Oxide Borneol Bornyl Acetate Bornyl Chloride Bornyl Formate Boron Hydride Boron Phosphate Boron Trlbromide Boron Trichloride
Brines Bromic Acid
<10
8
<10 <10 <10 <10 <10 <10 <10 <10 3 <10
8 8. 8 " 8
,100· .:./-.: .100·, \60
100 . 23
8
'8
'-";','
7
.8 8 9·
lOa .• :,
'8
100/ 100
,8, .. 8 8 8
100 100 100
lpo···· '100' · ""100 10Cl' 160 ,1.00 .. 100 .'
8 8 8 8 8'
.. 8 8 8
"'100 .;.
8
100 • 100'· 100 100 ..
8 8
100
;~~;
, .' iOPi 100 100
100." , lOO
100 100
100 1'10 lpO 100
lime bleach solutions solution, sodium borate mixture
100 100 100 100. 100. .' 100. 100 ·.100' 100 :"10.0,
ioo:
100 ' 100: 100"'"
100; ... 100 · .·1.00' 100 .'
Boron Trifluoride Boron Trioxide Brake Fluids
wcy ·• 100 ,.,.,. "100
Ilgroine
Benzene Hexachloride Benzenesulfonic Acid Benzidine Benzidine 3·Sulfonic Acid Benzil Benzlllc Acid Benzocatechol Benzoic Acid Benzoin Benzonitrlle Benzophenone Benzoquinone Benzotrichloride Benzotrlfluoride Benzoyl Chloride Benzoyl Peroxide Benzoylsufonillc Acid Benzyl Acetate Benzyl Alcohol Benzyl Benzoate Benzyl Bromide Benzyl Butyl Phthalate Benzyl Chloride Benzyl Phenol Benzyl Salicylate Benzylamine Beryllium Chloride Beryllium Fluoride Beryllium Oxide Beryllium Sulfate Bismuth Carbonate Bismuth Nitrate Bismuth Oxychloride Billern Blast Furnace Gas Bleach
vo,u"li .
Tflmp;
:TIme ,POL % ,(~)i II'CI" .. J~aya) Rating .'. ~~,anlle
Reagent
8 8 8 8 8 , 8 8 8 8 8 8. 8 8 8
8 8 8 8 8 8
8 8
6
100/
6
,100.:
8
<10
100
8 8 8 8
<10 <10 <10 <10
",::,:.. ".
automotive Wagner 218
8 .8 8 8 8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
. lOp) .10.0.
100 .....
Resistance Note
~
., ,'.,
lilt(efrioie'uel:t,:s&v~re condit. may cail~'S~. ~V:~luprop. ioss .,'
"
.~
Mat~rlalNofe
DuPont Kalrez (FFKM)
•
.,
:
"
....," ":.
IIltleino ellect, severe condll. '. may cause sl. swall/prop. loss;
".
.'
/ .
-.: ..•.
':
· ". "
':.
"
,
II,'}'<'
";J:
.•..i,:<.'~
",' ":"':",;..
..'
.,:,:.
..:
may cause 51: ~jslbl; ~weluici5s ' of phvslCal props. ,.::
•
Jlttl~lrio elleet, ~ever~ cQOdll.
~~ye.au~l sl,s\"aWp[~p.loss.
.
.
© Plastics Design Library
259 Chemical Resistance - FFKM Fluoroelastomer ,
,;
., '~
.,
., R~agent •.
Reagent Note .-
Bromine
Cone..· T;mp. Time
POL
('C) . (days) Rating
J%)
...
anhydrous
100
bromine water
Bromine Pentafluoride
100 100
Bromine Trifluoride Bromobenzene
100 100.
6 8
..100 •.. 100 100. 100 100 100 100 100 100 100 100 100.. 100 10.0 100. '100' , 100 100 . lQO 100 100 100 100 100
8 8
Bromobenzene Cyanide Bromobenzylphenyl Ether (p-) Bromoform Bromomethane Bromotoluene Brucine Sulfate Bunker Fuel C Butadiene Butane Butanediol Butyl Acetate Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol Butyl Alcohol (sec-) Butyl Alcohol (tert-) Butyl Benzoate Butyl Butyrate Butyl Carbltol Butyl Catechol (tert-) Butyl Cellosolve Butyl Cellosolve Acetate Butyl Chloride Butyl Ether Butyl Glycolate Butyl Lactate Butyl Laurate Butyl Mercaptan Butyl Mercaptan (tert-) Butyl Methacrylate Butyl Oleate Butyl Oxalate Butyl Paracresol Butyl Peroxide (dl-tert-) Butyl Phenol Butyl Stearate Butylamine Butylbenzoic Acid Butylene Butyraldehyde Butyric Acid Butyric Anhydride Butyrolactone Butyryl Chloride Cadmium Chloride Cadmium Cyanide Cadmium Nitrate Cadmium Oxide Cadmium Sulfate Cadmium Sulfide Calcium Acetate
methyl bromide
fuel oil
butanol
Union Carbide
..
....•.:;.
.,
100 100 100, 100 100 100 100 , 100 100 100 100 100 100 100 100 100· ., 100 100 100 100 .'. '100 " 10.0 100 :. 100 10Q
• ..
<10
S 6
<10
8
•
8
<
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
· ,.100
8 8 8 8 ,8 8 8 8 8' 6
Calcium Arsenate
1.00
8
<10
Calcium Calcium Calcium Calcium Calcium Calcium Calcium Calcium
100 '100,.
8 8 '. 8 8 8 8 8 8
<10 <10 <10 <10 <10 <10 <10 <10
Benzoate Bicarbonate Bisulfide Bisulfite Bromide Carbide Carbonate Chlorate
© Plastics Design Library
.
.. Hio
"10p . 100' ,. 100 100 100 .'100· ,
•
lillleino efteel, severe conll». may cause 51. sweiliprop. loss
..
. lillie/no eftecl, severe condil. •. may cause 51. swelVprop. loss .,:
. "'.
.
..
..
.. ....
~.::.:
.
.. .. .. ..
..
.
.. ..
"
u
"
·.. .."
.,
.
.~
.." .. .. ..
.. ..
·
z' .
.
.:..;:
.
.. ..
·" ·
. .. . .. . .
"
:.,.
"
"
·.
.."
..
"
"
·
11-,
.
"
.
.. .. ..
'.
".
-c'
' .
"
··
may cause 51. visible. sweWloss of physiCal projlS. lillie/no ;'Uecl, seve.re condil. may cause·sl. swelVprop. 10'65 ..
"
....
.,;/..
,
.,. :',',
.
·· -' ·.. ·"
·
.. .. ..
.."
tl;
:::"
.." . .. . . . . ..
· ...,.
,
.. .. .. ..
.. ..
"
'
.. ..
..
·....
...
"
..
"..
;.
'~.'
. .
.. ..
.
.
..
."
c.'
Materl~iNote < ::;::
.
DuPont Kalrez (FFKM)
.
<10
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
8 .8 8 8 8 .8 8
:~:
,
may cause 51. vlsl~le. swelVloss of phySiCal props.
8 '.c
Resistance Note
Change'
S
,.8
Hio
"10 VPl\lme
..
.
.~. ,:
" "
." .." "
·.. ·" " "
."
.. ..
FFKM
260
Chemical Resistance - FFKM Fluoroelastomer
'k Reagent
Reagent Note
(%)'J:C)'
Calcium Chloride Calcium Chromate Calcium Cyanamide Calcium Cyanide Calcium Fluoride Calcium Gluconate Calcium Hydride Calcium Hydrosulfide Calcium Hydroxide Calcium Hypochlorite Calcium Hypophosphite Calcium Lactate Calcium Naphthenate Calcium Nitrate Calcium Oxide Calcium Oxlate Calcium Permanganate Calcium Peroxide Calcium Phenolsulfonate Calcium Phosphate Calcium Phosphate Acid Calcium Propionate Calcium Pyridine Sulfonate Calcium Salts Calcium Stearate Calcium Sulfamate Calcium Sulfate Calcium Sulfide Calcium Sulfite Calcium Thiocyanate Calcium Tungstate Caliche Camphene Camphor Camphoric Acid Cane Sugar Capric Acid Caproaldehyde Caproic Acid Caproic Aldehyde Caprolactam Carbamate Carbazole Carbltol Carbolic Acid Carbon Bisulfide Carbon Dioxide Carbon Disulfide Carbon Fluorides Carbon Monoxide Carbon Tetrabromide Carbon Tetrachloride Carbonic Acid Casein Castor Oil Caustic Lime Caustic Potash Caustic Soda Cellosolve Cellosolve Acetate Cellulose Acetate Cellulose Acetate Butyrate Cellulose Ether Cellulose Nitrate Cellulose Triproplonate Cellulube Cerium Sulfate
FFKM
,
I""
I",
Conc; ,Temp. Time (day e)
100
8
<10
100" 100 100 fOO .100
II
100
8
fOO 100 100 ·100 100. 100
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8.
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
8
8 8 8
faa 100
roo . 100
ioo 100 • 100 100 100 100 100 100
liquors
Calgon phenol
sodium hydroxide Union Carbide
JOCl
8
100 fOO 100 100 '" 100 100.{ 100 100 100 100 100 100 100 IOl? ' 100 100 '100 100 100 100 100 100 100 "'. 100 100' 23 tOO
8 8 8 8 :8 8 8' 8 8 8 8
8 8
8 8 8 '8
8 8 8 '8
8 8
8' 8
<10
lOa
8 8
100
8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
10()
8'
<10
8 8
1~0'
8
100 100" ,100 100 100<;
100, 100
'A']i
,/' Material Note':,{
Resistance,Note'
IIltle/no eltect, $8vere CONClIi, DuPont Kalrez (FFKM) may cause sl. swelVprop,loss ,;
.
'
'-'-.
'. !
·'i.
....... ,
..
'
..
".:.., '
"
4
7
100 100
:b~r
Tenneco Chemicals, phosphate esters
PPL % Vol~me Rating Change
8 8 '8
.} 8
'8 8 8
'mllelno effect. severe condit:.';, may, causa sl, swaIV~rop'. los.s ,.
..
..
'"
II
:(::
"
.,
'. ,.
© Plastics Design Library
261
Chemical Resistance - FFKM Fluoroelastomer
DuPont Kalrez (FFKM)
Chlorine
dry wet
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
.•. 100
;'86;~:
;
.:."
....;} . ' ••. •.....) i)·
,.. ....>;:;::>'.:'; .: .:. _ . \~:;r:.:-.<·:.:~" -': :': : . :.:·\~::::\:.;::;::;:~t: ,may cii~~e 51: visible sw8lVibss
\·i·ill~hYsli:ill~fOPS.\·{;d'·
Chlorine Dioxide
<10
Chlorine Trifluoride Chloroacetaldehyde Chloroacetic Acid
1~
<10 8
lQO . ;."
Chloroacetone Chloroacetyl Chloride Chloroamlnobenzoic Acid Chioroanlllne Chlorobenzaldehyde Chlorobenzene
<10 <10 <10 <10 <10 <10
-;-
i~.",
. ... ~
. i · ' ; . .... ,.. ",
.~..:'
<10
Chlorobenzene Chloride Chlorobenzene Trifluoride Chlorobenzochloride Chlorobenzotrifluoride Chlorobromomethane Chlorobromopropane Chlorobutane Chlorobutene Chlorododecane Chloroethane Chloroethane Sulfonic Acid Chloroethylbenzene Chloroform Chlorohydrln
r:
(100<:. butyl chloride
;1~~\" /,00"
8
8·
':'100 .i
s··
..
"'~ ,
s··:·....
:,100 '. 100
i
::.
8 8..... ..... 8
ipo, ".
C h l o r o n i t r o b e n z e n e / l 00 . . C h l o r o n l t r o e t h a n e , ( ~~; Chlorooxyfluorldes iT ~U' Chloropentafluoroethane Chlorophenol
Freon 1I 5, D u p o n t ' .
}
Chlorophenol (po)
~;: ;,c,
(
Chloropicrin
" __
I-:C~h'7lo~r~o.,l;p~re~n~e'------------ch'"'"lo-ro"7b""'ut-ad::-ie-ne ----...""" [;ii;'io/j Chlorosllanes Chlorosulfonic Acid Chlorotoluene Chlorotoluene Sulfonic Acid Chlorotoluidine Chlorotrlfluoroethylene Chlorotrifluoromethane Chloroxylenol
ttgor
8
'( .. 8
8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
,•. 6.
8
<10
~i
<10,;;l..; );;·;}.{
8i'
<1 o i
;;
~""""""~"Dl~':_~<~10~_i )!~(~~;~~~it---';'---1 }:,: :~ ~ ~[;.(.. ....;i :(.Kii
sulfuric chlorohydrin
CTFE Freon B, Dupont
Chloroxylol Cholesterol
© Plastics Design Library
FFKM
262
Chemical Resistance - FFKM Fluoroelastomer
263
Chemical Resistance - FFKM Fluoroelastomer .~:
..
,"
,',
I'
Reagent
." R"ag~~t~bte .,.~~nc; TeI!1P.I'TI~J Ratri1gCh~~ge PDL
", r ' ) : ' ( i " , ' ...., ,
. (%)
(. C)
(eI.ya)
Cyclopentadiene Cyclopentane Cyclopolyolefins Cymene (po) DDT
isopropylloluene dichlorodiphenyllrichloroeth ane
Decalin Decane Detergents Developing Solutions Dextrin Dextro Lactic Acid Diacetone Diacetone Alcohol Dlalkyl Sulfates Diallyl Ether Diallyl Phthalate Diamylamine Diazinon Dibenzyl Dibenzyl Ether Dibenzyl Sebecate Diborane Dibromoethane Dibromoethylbenzene Dibutyl Cellosolve Adipate Dibutyl Ether Dibutyl Methylenedithio Glycolate Dibutyl Phthalate Dlbutyl Sebacate Dibutyl Thioglycolate Dlbutyl Thiourea Dibutylamine Dicarboxyllc Acid Dichloroacetic Acid Dichloroanlline Dichlorobenzene (0 Dichlorobenzene (po) Dichlorobutane Dichlorobutene Dichlorodifluoromethane
Dupont solutions
sym·Diphenylelhante
Union Carbide
100 100 100 100
8 8 8 8
<10 <10 <10 <10
100 100 100 100 100 ,100\ .100 } 100 100 100 100 100 100 100
8 8'"
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
il 8 8 8 8, 8 8, 8
8 8 8 8 8 8 8.-8 8 8 8 8 8 8 8,. 8· 8 8 8 8 '8 8 8 8
100' 100 100 100 100 100 100 100 lOa'
100 , 100 100' aliphatic
Hio'
Freon 12, Dupont
100 100 100 100 100 100 100
)
Dichloroethane Dichloroethylene Dichlorofluoromethane Dlchlorohyrin Dichloroisopropyl Ether Dichloromethane Dichlorophenol Dichlorophenoxyacetic Acid Dichloropropane Dichloropropene Dichlorosllane Dichlorotetrafluoroethane
<10
Hio
0
Dich lorod iphenyld ich loroethane
8
.'
6
100
8
<10
Freon 21, Dupont
. 100 , 100 (100 100 100
8 8 8 8
methylene chloride
lOa
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
DOD
100
faa 100 .i
;00 100 Freon 114, Dupont
faa
Dicyelohexylamine
100
Dleyclohexylammonium Nitrate Dieldrin Diesel Fuels Diethanolamlne Diethyl Benzene Diethyl Carbonate Dlethyl Ether Diethyl Phthalate Diethyl Sebaeate Diethyl Sulfate Diethylamine Dlethylaniline
100
8 8 ,.. 8 8 8 8 :'' '.,. 8 6 8
<10
8 8 8· 8 8 8 8 8 8 '8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
...
© Plastics Design Library
lQO
diesel oil DEA
,ioo 100.' lOa"
100 100 100 lQO
1.°0 100
J@
:.:--.
8 8'
.,.,
IIltlelno effect, severe condit. ", DuPont Kalrez (FFKM) . may cause sl. sweillprop; loss
,.
..
.. •
·
,.
·..
'.
... ,i
•.. . .. .." •
" "
.."
.. ..
·... ..
.
..
· ....
""
,
.. ..
.. may cause sl. visible swelilloss 01 physical props. Illtle/no effect, severe condll. may cause sl. sweillprop. loss
'. may cause 61. vls.lble s.welVloss .; of physical props. . liltIe/no effe'ct, $evere condit. may caUSe sl. swelVprop. loss
.
. .
·.. ·...
.,
,-
,. .,
.." FFKM
264
Chemical Resistance - FFKM Fluoroelastomer
Re~gerit Diethylene Glycol Dlethylenetrlamlne Difluorochloroethane Dlfluorodibromomethane Dlfluorodichloromethane
DETA
Freon 12, Dupont
Difluoroethane Diglycol Chloroformate Diglycolic Acid Dihydroxydiphenylsulfone Diisobutyl Ketone Dilsobutylcarbinol Diisobutylene Dilsopropyl Benzene Dilsopropyl Ketone Dilsopro ylldene Acetone Dimethyl Disulfide Dimethyl Ether Dimethyl Formaldehyde Dimethyl Phenyl Carbinol Dimethyl Phenyl Methanol Dimethyl Phthalate Dimethyl Sulfoxide Dimethyl Terephtha late Dlmethylacetamide Dimethylamine Dimethylaniline Dlmethylformamide Dimethylhydrazine Dinitrochlorobenzene Dinitrogen Tetroxide Dlnltrotoluene Dloctyl Phthalate Dioctyl Sebacate Dioctylamlne Dioxane Dloxolane Dipentene Dlphenyl Diphenyl Oxide Diphenylamine Dlphenylene Oxide Dlphenylpropane Dodecylbenzene DowanolP Dowtherm Dry Cleaning Fluids Epichlorohydrin Erucic Acid Ethane Ethers Ethyl Acetate
DMDS methyl ether, monomethyl ether
DMSO DMT DMA xylidine DMF
DNT
biph enyl/phenylbenzene diphenyl ether DPA
mixture, Dow Chemical fluids, Dow Chemical
Ethyl Acetoacetate Ethyl Acrylate Ethyl Alcohol Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl
FFKM
Aluminum Dichloride Benzene Benzoate Bromide Butyrate Cellosolve Cellulose Chloride Chlorocarbonate Chloroformate
Union Carbide
© Plastics Design Library
265 Chemical Resistance - FFKM Fluoroelastomer
Reagent Ethyl Ether Ethyl Formate Ethyl Hexyl Alcohol Ethyl Lactate Ethyl Mercaptan Ethyl Nitrite Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Pyridine Ethyl Silicate Ethyl Stearate Ethyl Valerate Ethylamlne Ethylcyclopentane Ethylene Ethylene Chloride Ethylene Chlorohydrln Ethylene Cyanohydrin Ethylene Dibromlde Ethylene Dichloride Ethylene Glycol Ethylene Hydrochloride Ethylene Oxide Ethylene Trichloride Ethylenediamine Ethylenelmine Ethylmorphollne Ethylsulfurlc Acid Fatty Acids Ferric Acetate Ferric Ammonium Sulfate Ferric Ch loride Ferric Ferrocyanide Ferric Hydroxide Ferric Nitrate Ferric Sulfate Ferrous Ammonium Citrate Ferrous Ammonium Sulfate Ferrous Carbonate Ferrous Chloride Ferrous Iodide Ferrous Sulfate Ferrous Tartrate Fish Oils Fluoborlc Acid Fluorinated Cyclic Ethers Fluorine
aqueous
aqueous
f1uoboric acid liquid
Fluorobenzene Fluorocarbon Oils Fluorolube Fluorophosphoric Acid
Occidental Chemical
Fluosiliclc Acid Fluosulfonic Acid Formaldehyde Formamlde Formic Acid Freon 11 Freon 112
Dupont
Freon 113 Freon Freon Freon Freon
114 11482 115 116
© Plastics Design Library
Dupont chloropentalluoroethane Dupont
FFKM
266
Chemical Resistance - FFKM Fluoroelastomer
Reagent .:::...;.
Freon 12 Freon 13 Freon 1381 Freon Freon Freon Freon
14 1428 1528 21
Freon 218 Freon 22
Freon Freon Freon Freon
23 31 32 502
Freon 8F Freon C316 Freon C318
100 Dupont bromotrifluoromethane tetralluoromethane Dupont
100 100 100 100"" 100
lnO .-:;.·8·
<10
100 100
8
<10
10~
8
<10
100 100 100· 100
8
<10 <10 <10
"'00.· Dupont chlorodifluoromethane
Dupont
6
8
8 6
tetrachlorodilluoroethan e
100
<10
Dupont
100 100
<10
Freon MF Freon TA Freon TC
100 100 100
6 6· 8
<10
Freon TF
100·
Freon TMC
100·
8
<10
'.00 100 100
.8· '., 8 8·
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
Dupont
Freon TP35 Freon TWD602 Fuel Oils
Fuels Fumaric Acid Furan Furfural Furfuryl Alcohol Furoic Acid Fyrquel Gallic Acid Gasoline
aromatic
furfuran lurluraldehyde
Stauller Chemicat
liquefied, LPG producer
Gelatins Glaubers Salt Gluconic Acid Glucose Glues Glutamic Acid Glycerin Glycerol Chlorohydrln Glycerol Dichlorhydrin Glycerol Trlacetate Glycerophosphoric Acid Glyceryl Phosphate Glycidol Glycol Ether Glycolic Acid Glycols Glycoxylic Acid Green Sulfate Liquor Halothane Halowax Oil Helium Heptachlor Heptachlorobutene Heptaldehyde
FFKM
little/no elfeel, $e~erft'cond"·.:t DuPont Kalrez (FFKM) , may. cause sl. sweU/prop~.I~§S '
6
········,00
8
100 100
8 8 8 8 8 8
100
100 100 .100 100 23 100 100 100 100 tOO 100 100 100 100
8 ....
7
9
2
8
<10
8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
8 .·.·8
8 8
8 8
8
glycerol
100
8
8 8 8
glycol monoether
100 100. 100 100 ,100 •.. 100:.. 100'
Koppers
too
8 8
100
8
100 100 100 100 100 ·100
1.0 0 heptanal
8
8 8
.·.·}OO
8
8 8 8 8
8 8 8
may cause sl. visible swelUlo$$i of physical p.rops: \ . , little/no effect, sev8/e·toncllt. . may cause sl. swelVprop..l6s$·'
may caus, sl. vlslb·,e sweillios~'" pI physical p:r~ps~:. :.. _...; IIl1lelno affect, saveie::~OJldiL may C8US8.Sl>swel,lIp~op#~~(;
'Illleino effect, seve/eeonelll." may causa 51. s.\YeWpr.~p,'.lossf
© Plastics Design Library
267
Chemical Resistance - FFKM Fluoroelastomer
. . ?>~-~~:
II, . .
Reagent
:ReligebtNote ,:;.. :.' ."
.<
... Coneo Temp. Time ~>i"r
'(;e)'
Heptane
POL ,"Volume Rating Change
(days)
t~O
e
<10
<10 <10 <10 <10 <10 <10
.... ; .. ;.
Heptanoic Acid Hexachloroacetone Hexachlorobutadiene Hexachlorobutene Hexachloroethane Hexaethyl Tetraphosphate Hexafluoroethane
100
e
100
e
. 100
e
'\100..,..··
e
100·'
e e
100 ,100 "
Freon 116, Dupont
Hexaldehyde Hexamethyldisilizane Hexamethylene Hexamethylene Oiammonium Adipate Hexamethylenediamine Hexamethylenetetramine Hexane
n·Hexaldehyde
<10
•.• 100
8
<10 <10 <10 <10 <10 <10
e e
cyclohexane
1.00 100
8
100 " 1QC)'
'8
>.
23' "100 '.
8 7
. Hexene Hexone Hexyl Acetate Hexyl Alcohol Hexylene Glycol Hexylresorcinol Hydraulic Oils
n·Hexene·1 methyl isobutyl kelone
100. 100 100
Hydrazine Hydrazine Oihydrochlorlde Hydrazine Hydrate Hydriodic Acid Hydroabietyl Alcohol Hydrobromic Acid
e
<10 <10 <10 <10
a a
100 .•.• 100 100;/
8
a e
{OO;
• 100 .··10p .
8 8
>jf!~~
8.
:
••
'Too
8
40 'loa
a
... concentrated
IIl1le/no affect, severe condit. sl. swelVprop. loss
~ayc~use
.......... ·····u······
<10
<10 <10 <10 <10 <10 <10 <10 <10 <10
'iI ;.,:"
..
'
may causa st visible sw.IVloss ;. of physical props, •...;. :
<10
little/no,enect. severa condit. . milHaus•. s.I..sweIVprop,.19ss
cold hot
Hydrocyanic Acid Hydrofluoric Acid
37 37
anhydrous cold, concentrat.d hot, concentrated
Hydrofluosllicic Acid Hydrogen Hydrogen Hydrogen Hydrogen Hydrogen Hydrogen Hydrogen Hydrogen Hydrogen
Bromide Chloride Cyanide Fluoride Iodide Peroxide Selenide Sulfide
Hydrooxycltronellal Hydroqulnone Hydroxyacetlc Acid Hydyne Hypochlorous Acid Indole Insulin lodlc Acid Iodine
© Plastics Design Library
<5
!OO
<10
·..·100 .. 100, 100 ,."'100:'. . . 100 100
e a
<10 <10 <10 <10 <10 <10
7
~
.
8 8
~:
50
........... ,
9
e
23,
..
23/'
8
a 9
<1
100\
a
<10
100 100
e 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
7
;
:;.;:;.
gas anhydrous
100 lQO
8
i:~~ .nhydrous
./
a a -- a e e
100
Hio' . 90 wet, cold wet, hot
·.'100 ·C'.';: '\190
8
\
e e
.,100 ,. '100':
:>
4
100 :.:
;:100 .1Q~ 10Q.
lob "'100"'; 109
..
a
<10
e
<10 <10 <10 <10 <10 <10
8
a a a a
DuPont Kalrez (FFKM)
ot physical props. IIl11e/no eilecl. seyere condit. may ~ausHI. sivelVprop.loss ..
'
Hydrochloric Acid
..:,';., ,:."
Mate~.I,~I~b~~
"
6
'100
Hydrocarbons
<1
<10
8
100
petroleum base synthetic base
9·
e 8
) If
may causo·:s!. visible swelVloss .
8
100 .
~~te
IIWe/noaffkt, nyere ~9nd~. may ~auSG at swelVprop, lOSS,
6
'100
Hexafluoroxylene
Resistance
'~':'
,.,
,',
,
.. , . , '..
.~~~~aou~~I~~.l~Wli~~t#~r!~~~ ,
>
"
:
....•.
1I1t1e/no elrect,.s.ovefHondll. • may. cause sl, SY{fill/p~oP.loss", ···: ..M
..
.. ,_..
···,lot
modena sey~re swell and/or Ipss 01 ptiys; props. 1IIt1.ino etrech~v~i'condl1. may causa sl. sweli/prop. loss I<
FFKM
268
Chemical Resistance - FFKM Fluoroelastomer «
Reagent
Reagent'Note
o/~V~,ume
Cone. Temp. Time . POL (%) ('C)' (daya) Rating ; Change .
Iodine Penta fluoride
100
6
Iodoform Isoamyl Acetate
100 100
6
Isoamyl Butyrate Isoamyl Valerate Isoboreol Isobutane Isobutyl Acetate Isobutyl Alcohol Isobutyl Chloride Isobutyl Methyl Ketone Isobutyl Phosphate Isobutylene Isobutyric Acid Isocrotyl Chloride Isodecyl Alcohol Isododecane Isoeugenol Isooctane Isopentane Isophorone Isopropyl Acetate Isopropyl Alcohol Isopropyl Chloride Isopropyl Ether Isopropylacetone Isopropylamine Isovaleric Acid Jet Aircraft Fuels
isopropanol
Fuel A JP 3 JP 4 JP 5 JP 6
Kerosine Lacquers Lactic Acid Lauric Acid Lavender Oil Lead Lead Acetate Lead Arsenate Lead Azide Lead Bromide Lead Carbonate Lead Chloride Lead Chromate Lead Dioxide Lead Linoleate Lead Naphthenate Lead Nitrate Lead Oxide Lead Sullamate Ligroln Lime Sulfur Lindol Linoleic Acid Linseed Oil Lithium Bromide lithium Carbonate lithium Chloride lithium Citrate lithium Hydroxide Lithium Hypochlorite
FFKM
lacquer solvents cold hot
mollen
:'00 100. ,'. 100 100 .100 100 :'00 100 100 100 100 100 100 100 100 100 100 100 '100 100 100 100 100 100 100 100 100 100 100 100 100 23 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100
benzine/nitrobenz ine hydraulic fluids. Staufler Chemical
brine
'"n,;,:~';i'
<......
100 100 100 100 100 ,00 100 100 100 100 100 100
'
", .Reslstii:ri.ceNote,)'ateriafNote .....:
"::'
'8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
8
8 , 8 '8 8 8 8 8 8 8 8 '8
8
•
8
8 8 8
8 8 8 8 8
8 8 8 8.·,.
8
8
<10
8
<10 <10 <10 <10 <10 <10 <10 <10
8 8 8 8
8 8
8 8 8 8 8.
8 8 8
8 8
e 8
8
8
8 8
8 8 8 8,
..
, ,.
,
"
"
.
..
.....
J.
.
.<~
io"",'
..
. "
.
"
' ..::'. ·ii·· .
... ',i
.....
"
,
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
....
lillie/no effect, siiveie c.ondll. may .cause.sl. sweli/prop,}9SS
2
8 8
.~
may causa sl. visible swilU!ioss' DuPont Kalrez (FFKM) of phys~al props,": .
<10
7
>, .
:';:
8'
8 8 8 8
·\(i.
lillie/no ellect. seve/8'Condi!.,· may cause 51. sweIUp/op. loss
:,:.,"
••
•
"
.'.
.
. © Plastics Design Library
269 Chemical Resistance - FFKM Fluoroelastomer ..
Reagent
<'<;Yi'i-~
",.:
:
..~
.~.
(~)
....
,
<;
.;"
b,.'.,· . Conc;.
;R~~ge"f~Qt~ ;:
.C
";::;:..;.
Temp.
time ;PDL
·100
8
<10
Lubricating Oils Lye Magnesium Chloride Magnesium Hydroxide Magnesium Salts Magnesium Sulfate Magnesium Sulfite Magnesium Trisilicate Malathion Maleic Acid Maleic Anhydride Malic Acid Mandelic Acid Manganese Acetate Manganese Carbonate Manganese Dioxide Manganese Gluconate Manganese Hypophosphite Manganese Linoleate Manganese Naphthenate Manganous Chloride Manganous Phosphate Manganous Sulfate Mannitol MDI Mercaptan Mercaptobenzothiazole Mercuric Acetate Mercuric Cyanide Mercuric Iodide Mercuric Nitrate Mercuric Sulfate Mercuric Sulfite Mercurous Nitrate Mercury Mercury Chloride Mercury Fulminate Mercury Salts Mesltyl Oxide Metaldehyde Metanltroan iIIne Metatoluidlne Methacryllc Acid Methallyl Chloride Methane Methoxychlor Methyl Abietate Methyl Acetate Methyl Acetoacetate Methyl Acetophonone Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol
Mobil 254 Mobiljet II petroleum base synthetic base
8 8 8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
MBT
© Plastics Design Library
il "
8 8 8 8 8 B B 8 8 B B B
8 B
8 B
8 .. 8 8 8
'.
,Iocr:
•
methanol
,
100 100 ":""",100 .,.' ; :;." :100 'F 100 100
8 B 8 8 8 8 B B 8 8 8 9 B
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <1 <10
8 8 '8 :,,8'''.. ,':8,' ./ '. 8"·
<10 <10 <10 <10 <10 <10
B
8 8 8 8 8
8 8 8 8
8 8
S ..,.8 8
,,"" 8
.100 ..:
,
~:
II
100
wood alchol
Amyl Acetate Amyl Ketone Anthranilate Benzoate Butyl Ketone
8 8
100:' '.100 'j:. 100 tOO 100 100 lOO 100 100 , HiD 100 100 100· 100 10C!.
100"'" 100' 100 ." 100'· 100 100 100 HlO 100 23 . JOO'
,.
8 -8 8
100 100
methylene di-p-phenylene isocyanate
'.'
!l
1.0Cn ,., 100
aqueous
" Methyl Methyl Methyl Methyl Methyl
100 100 100 •..,; 100 100 , ·100 100 100 100 tOO" 100 ;60 100 ·100 100 100 100 100 100 100 1'00 100 100 100 100 100 100 .....·100
7
,
,,
..
lIitielno eflect. severe condit.
DuPont Kalrez (FFKM)
..
.
"
" " "
.may cause al. S'!ieIVprop. loss :
"
.:.
M~~&d~I~~;~'\
".- Reslstan¢~ Note
% volume
('C); (daya) Rating hChilnge
Lithium Nitrate Lithium Nitrite Lithium Perchlorate Lithium Salicylate Lithopone Lubricants
:}',i(
~.
,;.;~:.
·"
.
"
.. ..
""
:'
"
"
·.
:
','
" "
.."
" "
"
" " "
"
·
."
.
" "
.. ..
"
" " " "
"
· "
."
·
... ',c'"
..
" " " " " " " "
"
"';/.. '.
T .'.
·· ..
·..
· ··" "
"
" " " " " "
"
"
"
"
"
··..
" "
" " "
" " "
.,..
"
"
·· "
" " " "
"
"
"
" " " " " " "
·· ·
..
"
"
"
, .
.:;~
little/no effect. severe condit. : may cause'sl. swell/prop. loSS' u
.."
.;.
" " "
,~.
·
" ..."
" "
.. .."
·· " FFKM
270
Chemical Resistance - FFKM Fluoroelastomer
Methyl Butyrate Cellosolve Methyl Butyrate Chloride Methyl Carbonate Methyl Cellosolve Methyl Cellulose Methyl Chloride Methyl Chloroacetate Methyl Chloroformate Methyl Chlorosilanes Methyl Cyanide Methyl Cyclohexanone Methyl Cyclopentane Methyl Dichloride Methyl Ether
Methyl Ethyl Ketone Methyl Ethyl Ketone Peroxide Methyl Ethyl Oleate Methyl Formate Methyl Hexyl Ketone Methyl Iodide Methyl Isobutyl Carbinol Methyl Isopropyl Ketone Methyl Lactate Methyl Methacrylate Methyl Oleate Methyl Pentadiene Methyl Phenylacetate Methyl Salicylate Methyl Sulfuric Acid Methyl Tertiary Butyl Ether Methyl Valerate Methylal Methylamine Methylaniline Methylene Bromide Methylene Chloride Methylene Iodide Methylglycerol Methylisocyanate Methylisovalerate Methylpyrrolidine Methylpyrrolldone MII·L·23699 MiI·L·7808 Mineral Oils Molybdenum Oxide Molybdenum Trioxide Molybdic Acid Morpholine Motor Oils Mustard Gas Myristic Acid Naphtha Naphthalene Naphthalene Chloride Naphthalenesulfonic Acid Naphthalenic Acid Naphthalonic Acid Naphthenic Acids Naphthylamine Natural Gas
FFKM
Union Carbide
acetonitrile
dimethyl ether dimethyl ether/monomethyl ether methyl ether MEK
2·0ctanone
MBK
MTBE C
MMA
lubricants
sour
© Plastics Design Library
Chemical Resistance - FFKM Fluoroelastomer
271
Reagent Neats Foot 011 Neon Neville Acid Nickel Acetate Nickel Ammonium Sulfate Nickel Chloride Nickel Cyanide Nickel Nitrate Nickel Salts Nickel Sulfate Nicotinamide Nicotinamide Hydrochloride Nicotine Nicotine Sulfate Niter Cake Nitric Acid
aqueous aqueous
aqueous niacinamide
inhibited, red fuming white turning
Nitroaniline Nltroaniline (po) Nitrobenzene Nitrobenzoic Acid Nltrobenzoic Acid (po) Nitrocellulose Nitrochlorobenzene Nitrochloroform Nitrodlethylaniline Nitrodiphenyl Ether Nitroethane Nitrofluorobenzene Nitrogen Nitrogen Oxide Nitrogen Peroxide Nitrogen Tetraoxide Nitrogen Trifluoride Nitroglycerin Nitroglycerol Nltrolsopropylbenzene Nltromethane Nitrophenol Nitrophenol (po) Nitropropane Nitrosyl Chloride Nltrosylsulfurlc Acid Nitrothlophene Nitrotoluene Nitrotoluene (0 Nitrous Acid Nitrous Oxide Nonane Octachlorotoluene Octadecane Octane Octyl Acetate Octyl Alcohol Octyl Chloride Octyl Phthalate Oleic Acid Oleum Oleyl Alcohol Olive Oil Orthochloroanillne Orthochloronaphthalene Orthochlorophenol 0
)
© Plastics Design Library
n·Octane
fuming sulfuric ecid
FFKM
272
Chemical Resistance· FFKM Fluoroelastomer
> POL -,'. Volume
. Reagent NQte ,
Orthophos Acid Oxalic Acid Oxygen Ozone Paint Thinners Palmitic Acid Paracymene Paraffin Paraformaldehyde Paraldehyde Parathion Peanut Oil Pectin Pelagonic Acid Penicillin Pentachloroethane Pentachlorophenol Pentaerythritol Pentaerythritol Tetranitrate Pentane Pentoxone Pentyl Pentanoate Peracetic Acid
.
'~.;.:
Rating
Clia!lga
6
<10
8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
Chevron Chemical
i 100 ,
cold hot
6·
a
;"1.00 '100'",
.11
106 '
8
100
(~~~i:' 109
8
6 "
B.. ,0','
.,. 6
. 'loa
6"
100· 100 .100 )00
6 8 6
100
8 6 8
liquor liquid
100
100 fOo
Shell Chemical
Perchlorlc Acid
8'
6
100 100 100 100 100
6 6 6
.100
6
8 8
Perchloroethylene
<10 2
<10
11111./1)0 eUect, sev.h;'¢~nd)i,+ may .cause $I,sw.llfpto~:dosii: .
Perfluorotriethylamine .~::
Permanganic Acid Persulfuric Acid Petrolatum Petrolatum Ether Petroleum
Phenol Phenolic Sulfonate Phenolsulfonlc Acid Phenyl Acetate Phenyl Benzene Phenylacetam ide Phenylacetic Acid Phenylenediamine Phenylethyl Alcohol Phenylethyl Ether Phenylethyl Molonic Ester Phenylglycerine Phenylhydrazine Phenylhydrazine Hydrochloride Phenylmercuric Acetate Phorone Phosgene Phosphine Phosphoric Acid Phosphorous Phosphorous Oxychloride Phosphorous Trichloride Phthalic Acid Phthalic Anhydride Pickling Solutions Picollne (u,k-) Picric Acid Pine Oil
FFKM
100 .. ~
8
100
Caro's acid
100
lao 100 .. 100 100 100
above 250 deg below 250 deg crude carbolic acid
100 100 100 100 100
biphenyl/diphenyl
100 100
PDA
9
10 100 100
8
"'100
6
·,100
8 8 .6
phenatole
,;100
19,9
'100 . tOO
diisopropylidene acetone
(' 100<
mollen
20
',,·,'100,"
45
····190)
8 8 .8"':' 8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
.100",
:~~'~ f'~b~i
.••
"""100 100 100 whita
100
6
. '100,
8
<10 <10
© Plastics Design Library
273
Chemical Resistance - FFKM Fluoroelastomer "
"',
. . "'0t!
.\\~:-;.
/,/'~ilagentNote . . . Ci!nc.' Temp, Time POL" % Volume.
Reag~qI;
"."
."
Pine Tar
('C)
100
Pinene Piperazine Piperidine Plating Solutions Polyethylene Glycol Polyglycerol Polyglycols Polyoleflns Polyvinyl Acetate Potassium Potassium Acetate Potassium Acid Sulfate Potassium Alum Potassium Aluminum Sulfate Potassium Antimonate Potassium Bicarbonate Potassium Bichromate Potassium Bifluoride Potassium Bisulfate Potassium Bisulfite Potassium Bitartrate Potassium Bromide Potassium Carbonate Potassium Chlorate Potassium Chloride Potassium Chromate Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium Potassium
I}(~),;<'
Citrate Cuprocyanlde Cyanate Cyanide Dichromate Diphosphate Ferricyanlde Fluoride Glucocyanate Hydroxide Hypochlorite Iodate Iodide Metablsulfate Metasllicate Nitrate Nitrite Oxalate Perchlorate Perfluoroacetate Permanganate Peroxide Persulfate Phosphate
Potassium Pyrosulfate Potassium Salts Potassium Silicate Potassium Sodium Tartrate Potassium Stannate Potassium Stearate Potassium Sulfate Potassium Sulfide Potassium Sulfite Potassium Tartrate Potassium Thiocyanate Potassium Thiosulfate Potassium Triphosphate
© Plastics Design Library
laO';'" 100 ••
8 8 •.
lOa
!!.
chrome others
8 8 8 8 8",••• , 8
emulsion molten
8
100<: 100" 'lOa' .
100 .' 100•• 100," "100 100 o 100 100 .. 100.' 100.·.
····ioo
potassium monochromate
.100· iQO 100 100 100 100 ,100 '. 100 100 . 100 lOa 10q 1.00' 100 '. .100 lOO' 100 100 100 100
'?O '. 100 100 '100 100
Hio acid alkaline diltri basic
Id~Y8)Ratlng 8 "\
.":<.100 ", 100·••. :,.dOO ··',00, :.)00 .: .•....':100 ",'
.100
······,00·; .100:. 100••. :: '100··.·.:
<10
8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
S
8 ..... .8 "'8 8' 8' 8. 8
S' .. 8 8 8 8 8. 8
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 .. 8 8
'·8 8'
S "., 8 8
100
8
100
··:loo
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10
1
160 100
. . ioo!
<10
8
.8 8 8 8 8 8 8
,:'0l)'
C~an~~
Resistance Note
:.Mit~rlal
I: little/no effect, severe cO.ndit may cause sl. Sl'!ellfp(op, toss
~
.? ":.
N6t'., .' .:.',
DuPont Kalrez (FFKM)
..; .,
.....? .;. ""
.C'. nol suitable for,service . Iittleitioetfect, severe ,condit.,' ; may cause sl. swelVprop. loss .
. '"
"
'"
<:: .
FFKM
274
Chemical Resistance - FFKM Fluoroelastomer
Reagent Propane Propionaldehyde Propionic Acid Propionitrile Propyl Acetate Propyl Acetone Propyl Alcohol Propyl Nitrate Propyl Propionate Propylamine Propylbenzene Propylene Propylene Chloride Propylene Chlorohydrin Propylene Dichloride Propylene Glycol Propylene Oxide Pydraul10E Pydraul11SE Pydraul 230E Pydraul 29 ELT Pydraul30E Pydraul312C
100
methyl butyl ketone l-propanol
100 '100 ",
,100": , ,100"""
Hio "
1,00 100 100"" '
1.00
hydraulic t1uid; Monsanto
Pyridine Pyridine Sulfate Pyridine Sulfonic Acid Pyrogallic Acid Pyroligneous Acid Pyrosulfuric Acid Pyrosulfuryl Chloride
.,';00 100
FFKM
<10
100
100
,1
100
8
<10
100 100
Transformer Oil. GE
liltl:;:i~~::~i~:~~;J~~;j;;!~~
, 'may cause'st.-swill/pillp. 10$$" ~",' ~o;s'ui1~bJef6r $'elvfce, 1i1l1./~9:8flecl!Slivli;;; condit: ' may'cause sl. $weIVprop,"loss ,: nOI sufla,b.le:tor;s,e'tVjce;, .;~>:.:,
100
<10
r:' . -" '_.~:':'
:~""':
\,,::'
: 1I(\lelno efle~::s~~~i~ landlf_' ',:.': , maY'~au$a ~$!;:swlinlpr6P,'lo$$i . :f ;:)y. 'r'~:::~t'-;:::::':::'\\r . ,}.::(::
pyrogallol may causa ~"
\>lsl~;t$~eJVlo" ,,'
ofp~y$ieJil, ~ro 5., ",'"''
Pyrrole Pyruvic Acid Quinidine Quinine Quinine Bisulfate Quinine Hydrochloride Quinine Sulfate Quinine Tartrate Quinizarin Quinoline Quinone Raffinate Ramjet Fuel Rapeseed Oil Red Oil Resorcinol Rhodium Riboflavin Ricinoleic Acid Rosin RP 1 Saccharin Sal Ammoniac Salicylic Acid Sea Water Sebacic Acid Selenic Acid Selenious Acid Shellac Silane Silicate Esters
100 100, ,,-,100 " , 100::}
PydraulSOE Pydraul 540C Pydraul6SE Pydraul90E Pyranol
-'u
100
100 100 100 ' 100
100
8,' ~
little/no eflect.'severa con!lit: ; meyeauus!. sweWe~~p:'I?,S,$ ';i ,~
8
, '"8,,, ...~.: .. 8 '::
100'
,8
1'00
:' ',8
RJ 1; MIL-F-25558 B
100 100 100, 100 100, 100
MIL-H-5606
)00","
", 8
"8' ; , 8"
,100
.. 100""
MIL-H-25576 C
solution
100 100 , . 100 106
100
,~6~'" '100
100 109 lQO
© Plastics Design Library
275 Chemical Resistance - FFKM Fluoroelastomer .,
»<:'
'
·w··,·
-,we·w·o,
..
:., .;
..
:::-~
Rea~ent
-,,,
Reagjlnt Note
."
ioo
','
100
dry
6 .~
Silicone Oils Silver Bromide Silver Chloride Silver Cyanide Sliver Nitrate Sliver Sulfate Skydrol500 Skydrol 7000 Soap Soda Ash Sodium Sodium Acetate Sodium Acid Bisulfate Sodium Acid Fluoride Sodium Acid Sulfate Sodium Aluminate Sodium Aluminate Sulfate Sodium Anthraquinone Disulfate Sodium Antimonate Sodium Arsenate Sodium Arsenite Sodium Benzoate Sodium Bicarbonate Sodium Bichromate Sodium Bifluoride Sodium Bisulfate Sodium Bisulfide Sodium Bisulfite Sodium Bitartrate Sodium Borate Sodium Bromate Sodium Bromide Sodium Carbonate Sodium Chlorate Sodium Chloride Sodium Chlorite Sodium Chloroacetate Sodium Chromate Sodium Citrate Sodium Cyanamide Sodium Cyanate Sodium Cyanide Sodium Diacetate Sodium Diphenylsulfonate Sodium Diphosphate Sodium Dislllcate Sodium Ethylate Sodium Ferrlcyanide Sodium Ferrocyanide Sodium Fluoride Sodium Fluoroslllcate Sodium Glutamate Sodium Hydride Sodium Hydrogen Sulfate Sodium Hydrosulflde Sodium Hydrosulfite Sodium Hydroxide Sodium Hypochlorite Sodium Hypophosphate Sodium Hypophosphite Sodium Hyposulfite Sodium Iodide
© Plastics Design Library
Monsanto; hydraulic fluid
" solutions molten
8 8 8
100" 100 100 100 100 100 100 100 100 . 100 100·
8 8 8 8 8 8 8 1 8
100 100 100 100
8 8 8 8 8 .8 .,8 '8
,'0~ ,,: 100 100
lQQ
laO
8 8 8
100 100 100
"""",\HH,(". . . ····'··.,-00·. 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100, 100 .:: , 100 100 , " 100 100 100 100 100, 100 100 100
"~
soda ash
,
>
loa 100 100 ~::.~ 100;
,
8 ,8
8 8 8 .'." 8 8 8 8· 8 8 8 8 ::.: 8 .: 8 8 8 8 8 8 8 8, 8 8 8 8 8 '8 8 8
'8 8 8 ..:; .8 '8 ':'8
lOa
8
.. 100 :>·100
8 ' ' 8
::......
DuPont Kalrez (FFKM)
ffiilfiiiliisil$C~isibiiisWiilVioh.
"
·
" " "
of phy~ical prop$..· :: "
.:
6 8
, " 100 . >
liltlelno' ellect, $evere condit.
maY9~~~~~h~~~WlmWW~M
.
..
<10
lillie/no eflect,. severe condit. . 'may cau~e sr: $weillprop.·io.ss '
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10
.."
" "
..
"
··
:>r.
'.
" "
" "
· · ··
i
C
•
" "
" " " "
"
" "
" "
'
"
" "
"
:.,.'
· " "
.-
" " "
•••
"'"",:,:,
'.
· · ··
,.
",
,
" "
«
...•
..
"
"" ::'"''
...." "
" ",
.;.
" «
.. .."
. "
·
"::.
&C'"
........, ''OJ; .,'
,
.. " " "
.. «
"
"
" " " " " " "
"
not sulteble for service lillie/no eflect. severe condit. may cause sl. $wellJprop. 10S$
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
," i/."
.. M~terial~Not~ >.
Resistance Note
'6
100 1'00,· 100 ..
Silicon Tetrafluoride Silicone Grease
% Volume <10
8
.:~ -.:
wet
. w
. ....
(days) Rating ,Change
('C)
Silicon Fluoride Silicon Tetrachloride
.PDL
,",
"
...
J'
Cone. T~ri)p; Time (~)
,.
<
.. , .
~
~.
,
" " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " "
FFKM
276
Chemical Resistance - FFKM Fluoroelastomer
Reagent Sodium Lactate Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium
Metaphosphate Metaslllcate Methylate Nitrate Oleate Orthoslllcate Oxalate Perborate Percarbonate Perchlorate Peroxide Persulfate Phenolate Phenoxlde Phosphate
Sodium Plum bite Sodium Pyrophosphate Sodium Reslnate Sodium Salicylate Sodium Salts Sodium Sesqulsillcate Sodium Silicate Sodium Silicofluoride Sodium Stannate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Sulfocyanlde Sodium Tartrate Sodium Tetraborate Sodium Tetraphosphate Sodium Tetrasulflde Sodium Thloarsenate Sodium Thiocyanate Sodium Thiosulfate Sodium Trichloroacetate Sodium Triphosphate Solvesso 100 Solvesso 150 Sorbitol Soybean Oil Stannic Ammonium Chloride Stannic Chloride Stannic Tetrachloride Stannous Bisulfate Stannous Bromide Stannous Chloride Stannous Fluoride Stannous Sulfate Stauffer 7700 Steam Stearic Acid Stoddard Solvents Strontium Acetate Strontium Carbonate Strontium Chloride Strontium Hydroxide Strontium Nitrate Styrene Succinic Acid Sucrose Sulfamlc Acid Sulfanilic Acid Sulfanilic Chloride Sulfanilimide Sulfite Liquors
FFKM
sodium monophosphate
Exxon
aqueous
aqueous
Stauffer Chemical
white spirits
aqueous
solution
© Plastics Design Library
277
Chemical Resistance - FFKM Fluoroelastomer
Reagent Sulfonated Oils Sulfonic Acid Sulfonyl Chloride Sulfur Sulfur Chloride
sulfur monochloride
Sulfur Dioxide
dry liquid moist
Sulfur Hexafluoride Sulfur Trioxide Su Ifuric Acid
Sulfurous Acid Sulfuryl Chloride Tallow Tannic Acid Tar Tartaric Acid TDI Tellone II Terephthalic Acid Terpineol Terplnyl Acetate Tetrabromoethane Tetrabromomethane Tetrabutyl Titanate Tetrachloroethylene Tetraethyllead Tetrafluoromethane
20% oleum concentrated dilute fuming, 20% oleum
tannin bituminous toluene diisocyanate Dow Chemical
Freon 14, Dupont
Tetrahydrofuran Tetralin Tetramethylammonium Hydroxide Tetramethyldihydropyrldlne Tetraphosphoglucosate Tetraphosphoric Acid Therminol 55 Therminol 66 Thermlnol FR Thio Acid Chloride Thioamyl Alcohol Thlodlacetic Acid Thloethanol Thioglycollc Acid Thlonyl Chloride Thiophene Thlophosphoryl Chloride Thiourea Thorium Nitrate Tin Ammonium Chloride Tin Chloride Tin Tetrachloride Titanic Acid Titanium Dioxide Titanium Sulfate Titanium Tetrachloride TNT
© Plastics Design Library
tetrahydronaphthalene, Dupont
Monsanto
thiofuran
trinitrotoluene
FFKM
278
Chemical Resistance - FFKM Fluoroelastomer
':'.
Cone.
Reagent -.:::':{'-"''-
Temp, Time
('C) ',' (days)
',('M
~i
Toluene
7
100
9 8
<1 <10
..'.
.~,
Toluene Bisodium Sulfite Toluene Diisocyanate Toluenesulfonic Acid Toluenesulfonlc Acid (p.) Toluenesulfonyl Chloride Toluidine Toluquinone Tolylaldehyde Transformer Oils Transmission Fluids Triacetin Triaryl Phosphate Trlbromomethylbenzene Tributoxyethyl Phosphate Tributyl Citrate Tributyl Mercaptan Tributyl Phosphate Trlbutylam ine Trichloroacetic Acid Trichloroacetyl Chloride Trichlorobenzene Trichloroethane Trichloroethanolamlne Trichloroethylene Trichlorofluoromethane
TOI
100
8
160
8 8 8
100 lOa 100 100 100
8
;~~ '.
100' 100 ';0;
type A automatic
8 8 8
8 8 8
100
'loa 100 100 1'00 100
8
8 8 8 8 8 8 8 8 8 8 8
lOa 100 100 100 10~,
100. 100 100
Freon 11, Dupont
6
8
<10
8 8 8 6
<10 <10 <10
lOa":.:::
8
<10
100<
8
lOa,
8 8
<10 <10 <10 <10 <10 <10 <10 <10
Trichloromethane Trichloronltromethane Trichlorophenylsilane Trichloropropane Trichlorotrifluoroethane
8 8 8
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
chloropicrin
,
100", , "':",.; 100 100 i'100';'
Freon 113, Dupont
..:~
Tricresyl Phosphate Triethanolamine Triethyl Phosphate Triethylaluminum Triethylamine Trlethylborane Triethylene Glycol Triethylenetetramine Trifluoroacetlc Acid Trifluorochloroethylene Trifluoromethane Trifluorovinylchloride Triisopropylbenzylchloride Trimethylamine Trimethylbenzene Trimethylpentane Trioctyl Phosphate Triphenyl Phosphite Trlpotassium Phosphate Trisodium Phosphate Tritium Tung Oil Tungsten Hexafluoride
TEA
UDMH Undecyclenic Acid
FFKM
8
tOO
'8
100
8
Hio'
8 8 6
..
10<) 100
,lOa
Freon 23, Dupont
8,
'
\;~~) 100,/.
"'Joo;} ,lOa '
ioo. ;100 '
china wood oil
lubricantsllluids, Union Carbide unsymmetrical dimethyl hydrazine
<10
..~
100 , ;00 ','"
Tungstic Acid Turpentine Ucon
100" 10'0'
:? "
'i
,\:{:
:.:»~::
{i:(
IlIlIa/no eflscl: ;~';ei8 ,cond;!" ' may caU$8 sl. swell/plOp. los~'"
DuPont Kalrez (FFKM)
u' :....:,..
•
"."'
.~
~ay causn). viSible s\l'alljlo~s v" or phv*al p,rops~,";i:::i : litiie/no sHsct; severe.£OnQI1; " "lllavca~s8':sl.::ivSII/PtOP:l0~~Y
•may causa sl: Vlslbli swel~loss ' OlphysjcalplOps, , , '
":::.~~~Wa~:~~~;~We'~~I~r,g~i;
. '
may caU$8 sl. visibluwalllloss of physical props"" lillIe/no affscl/savsls c'o~dl1i may cause sl. s~eIVP(Op; io~~,
8 8 8 :-.~(. 8 8 8 8 8 8
100 10,? ,,100' . "::.\::: ~ 100
8
,:100
8
8 6 8
IDa,
8
100
8
100
8
<10
© Plastics Design Library
279
Chemical Resistance - FFKM Fluoroelastomer ,
/.
,-
.
.,",
,~,
Reagent
~
:.: . ..
... r·
. ·x
...•...........•........•
"
t;
,
~eag~nt,Not;; . /.
~;"'.
. ".~ .
,y",
."
..............
Cone. Temp. Time . POL % Voiume (%) ('C) (daya) Rating Change
Undecylic Acid
100
8
Uranium Hexafluoride
100
6
Uranium Sulfate
100
8
<10
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 .'
<10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10
Uric Acid Valeric Acid Vanadium Oxide Vanadium Pentoxide Varnish Vegetable Oils Versilube F50 Vinegar Vinyl Acetate Vinyl Acetylene Vinyl Benzene Vinyl Chloride Vinyl Fluoride Vinylidene Chloride Vinylpyridine Vitriol Water
White 011 Wood 011 Xenon Xylene Xylidine Zeolites Zinc Acetate Zinc Ammonium Chloride Zinc Chloride Zinc Chromate Zinc Cyanide Zinc Olethyldithiocarbamate Zinc Oihydrogen Phosphate Zinc Fluorosilicate Zinc Hydrosulfite Zinc Naphthenate Zinc Nitrate Zinc Oxide Zinc Phenolsulfonate Zinc Phosphate Zinc Salts Zinc Silicofluoride Zinc Stearate Zinc Sulfate Zinc Sulfide Zirconium Nitrate
© Plastics Design Library
white cold deionized heavy hot
xylol dl·methyl aniline
/.;:~.;r
.~
100 100 100 100 100 100 100 ;.,100 .:: 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 '100 100 . . 100 100 100 1'00 '. 100 .100 100
.8 8 .. ;
6
taO
100 100 ... 100 ~ 100 100 100 '", 100 100 .... 100i·
8. 8
•
8 8 8 8. 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8;
Mate!iaIN~t;
Resistance Note ~
<10
"
lillie/no ei'eet·, seve'e cohd~. may cause sl. swelUp,op. loss may cause sl. visible swelllloss of physical props. lillie/no elleet, seve,e condit. may cau,s8 sl.swell/prop, .Ioss
DuPont Kalrez (FFKM)
«
" "
" ." .. ."
.
....
.........
"
.:'
:~~
,-
•
·.
....
~
:i ......
,C;
"
" .;
"
"
"
·.
"
•
,
«
.. ..
"
" "
: ~.
" ,..
"
..."
"
" "
«
· ,.
........
"
«
'
i
..
,.."
.." " " " " " "
.
..
. u
.. .
." ,.~.
" "
..
"
".
•
............. '. «
" " " "
"
··..
..
" " " " "
"
.,"
.,
" "
" "
..
.,
"
"
..."
••
"
" "
.
....
"
.." .,
"
FFKM
Chemical Resistance - Tetrafluoroethylene Propylene Copolymer and Terpolymer
--i
"'Tl
'"o OJ
-u
r
Reagent Acetamide Acetic Acid Acetic Anhydride Acetone
·················r~··'·········r··":I··
Reagent Note
Iconc'ITemp'ITimel POL (%) , 1°C) (days) Rating 6 2
7
jet turbine oils 41 41
~
saturated solution
.
saturated solution
,,
28 saturated solution pure ~.
7
50% isooctane, 50% toluene saturated solution
23 with 70% methanol with 50% methanol
@
'tl
po ~
n'en
tl (1) en
cE' ;:l
t""
0: ..,
..,
$:l
II::
Bromine Bromobenzene Butyl Acetate Butyl Alcohol Butyl Stearate Calcium Acetate Calcium Chloride Calcium Hydroxide Calcium Hypochlorite Calcium Nitrate Calcium Sulfide Caproic Acid Carbon Disulfide Carbon Tetrachloride ICastor Oil
Tensile. Elongation Hardness Sirellgih. ..C:hangll
Material Note
<10
exceIlent properly' retention
3M Aftas (TFP copoL)
>40
good prOp. relenti.on. moder. ~ol. $well poor piOR. ietentlori, vol. swell >40%
bleaching powder
2
>40
poor prop. retention, "ol..swell >40%
7 6 5
10 12
7
II
<10 <10 <10 <10 <10 <10 <10
8 9
<10 5
2 2 8 6
>40 >40 <10
4
20-40 30
30 50
10
8 8 8
<10 <10 <10
8 '8 ,8
<10 <10 <10
8 6 2 8
<10
: : :• • ~:;,'
0"
n·butyl alcohol
,
saturated
~
saturated solution
~
'.
~::
10
>40 <10 <10 <10
8 ... : ~.,:
i
8 .8
,':
~
::;;.;. . ~::::..
8
8 '''''.
~::':>;'
. . ,.8 . . '
;)(23;
?~<~2":
;. '.'-:':~L- .
112 125
A-l0 A-15
3M Aftas (TFP copoL); Shore A8S excellent property retention
3M Atlas (TFP copol.)
poor prop. retention, vol. swell >40%
3M Aftas (TFP copoL)
(TFP copoL)
excellent. property .retention good prop. reiention. moder: vol. swell 1air-good prop, rets,ntion. yol. swell <40
exc~lIenl
(TFP copoL) 3M Alias (TFP copoL)
property retention
" .
a/
..
".,
"' II
j."
100~'pro~;, retsjltion. moder. vol, swell poo~ prop. ;~Ientio~.\ol.
s.,ell >40%
~xc.iie~iprop.~r.tentlon "",\, ~~.'
..
<10 <10 <10 <10 <10
"". ~.,
:};.' Nt~· ~t··~:::
84 78
good prop. retention, mOde.,. Yol, swell
8
~.:
(TFP copoL) 3M Aftas (TFP copoL)
good-exc. prop. retention, some YOI. swell
6 6 6>
glycol base mineral oil silicone oil
saturated solution
poor prop. retenlion, yol. swell >40%
4
>40 50
8 8 8 8 8 8
28
2;3
Benzyl Alcohol Benzyl Chloride Bleach Brake Fluids
I
Re$istance Note
Volume
good prop. reteil.tion.mOder. vot..swell'"
'2
pure
:i240
ASTM Reference Fuel B ASTM Reference Fuel C Barium Sulfide Benzaldehyde Benzene
,"0 Retained
6
200
Alum Ammonia Ammonium Carbonate Ammonium Hydroxide Ammonium Nitrate Aniline ASTM Oil No.1 ASTM Oil No.3
%Chan~~
I
8 with 10% sodium chlorite
23,
Acetylacetone Aircraft Turbine Oils
nTn ..... wl
7
r··, 2
••,,: 8
<10 .~~:
>40 85 <10
po~r,jjr~p. r~~~iililln. vol. swell >40%
::·+<J~{r
excel/entlif9Rl'r!~i~l~flcl\~n, ..
(TFP copoL) 3M Aftas (TFP copoL)
@
'p"o ~
o'Vl tl
(1)
Vl
~.
;:l
~
.,
0-
.,
P
u::
Reagent
Reagent Note
Cone. Temp. Time I'C)
1%) ~-
POL (days) Rating
% Change
% Retained
Volume
Tensile Elongation Strength
I
Hardness Change'
Resistance Note
Material Note
excellent property tetenlion
3M Alias (TFP copol.) (TFP copol.) 3M Atlas (TFP copol.)
~
Chlorine Ch lorobenzene Chloroform Chloroprene Chlorosulfonic Acid Chromic Acid Citric Acid Corrosion Inhibitor Cottonseed Oil Creosylic Acid Cresol Cupric Sulfate Cyclohexane
sat.sol. 35% NaCL.1 O%sodium hypochlorite 23 ~
7
..;.
mineral filled with 25% sulluric acid
46 62
"0 / amine corrosion inhibitors
"
I
' ,
saturated
'
<10 90 >40 <10 <10
8 8
<10 <10
8 8 8 8 8 8
<10 <10 <10 <10 <10 <10
6 23,
Cyclohexanone Dibutyl Phthalate Dichlorobutane Diesel Fuels Diethyl Ether Dimethylformamide Dinitrochlorobenzene Dioctyl Cebacate Dioctyl Phthalate Dioxane Diphenyl Diphenyl Oxide Dowtherm 209 EP Gear Lubricants
8 2 " 2 8 .. 8
50
i ;;;
7
.
~:
, ,
1.
,
, i
14
,
"
,
,
.." ;:'
,~
.
<10
2
>40
8 8 8
<10 <10 <10
, : excellii,nt property retention good prop. retention. moder. Yol. swell poo'r'prop. retenliOn. yol. swell >40% excellent property retention
." good prop. relention. moder. yolo swell poor prop. relention. vol. swell >40"good prop. retention. moder. yol. swell
>40
8
<10
.
" 3M Atlas (TFP copol.)
" " " " " " " " "
"
"
"
excellent property retenlion
.
" "
nO",cracking or crazing
3M Fluorelll FX 11900 (TFP lerpol.); Shore A70
faclory fill mineral oil base
150"
7
8 7
<10 3.5
88
120
A-3
new Ihermally stable mineral oil base
150
"
150
7 7 7 7 21
8 8 7 7 7
4.4 3.1 11.4 4.1 9
82 89 83 88 81
98 104 103 112 129
AO AO A-8 AO A-l
2 2
>40 90
poor prop. retention, vol. swell >40"-
7
3M Atlas (TFP copol.) (TFP copol.)
8 9
<10 1
excellent properly relention
7
3M Atlas (TFP copol.) (TFP copol.)
6 4 8
<10
good prop. retenlion. moder. vol. swell fai"gQod PJop"relenlion, vol. swell <40 excellent property relenlion gO,od prop. retention, moder. vol. swell ';}' exc~'lIenl'propertyretention
3M Alias (TFP copol.)
20-40
new thermally slable synthetic base
150 150 175
" Ethyl Acetate
23
"
Ethyl Alcohol 23
, with waler and rusl inhibitor
~
6
. ~3
technical
,
, l
,
7
8' 8 8 6 2 6
<10 <10 <10 >40
~.
" "
.. "
" " "
"
3M Alias (TFP copol.); Shore AS5
-."
./,;
excellent property relentlon gQod ",op. retentio~. moder, yol. swell poor prop. relenlion, yol. swell >40"good prop. retention, moder. vol.J'!I,,,ll,,}
-l
"'Tl -0
" " " " " " " " " (TFP copol.)
good ,prop:' ret~ntion. inOder. yol. swell
6 6
, ,
."
good prop.relention, moder. Yolo swell
<
8 6
2
"
.
6
i
. " .
"
..
Ethyl Benzene Ethyl Benzoate Ethylene Chlorohydrin Ethylene Dichloride Ethylene Glycol Ethylenediamine Formaldehyde Formic Acid Freon TF Furfural
::~
"
6 ::;
,.'
~'
'6
:~
~:
diesel fuel .2
7"
poor prop. retenlion, vol. swell >40"
'<: ~xcellent.~i~pertY'relention:
Chemical Resistance - Tetrafluoroethylene Propylene Copolymer and Terpolymer
" " " "
(TFP copol.) 3M Atlas (TFP capo I.)
" ." N 00
-'-
Chemical Resistance - Tetrafluoroethylene Propylene Copolymer and Terpolymer
-i
11 "'U
Reagent Note
Reagent ,.
C..o.nC'ITem p., Tim.e.1 POL I . (%) ('C) (days) Rating
Gasoline 7
23
Glycerin Heptane Hexane
pure 7
23
Hydrazine Hydrochloric Acid
concentrated
7
23
30
7
8 2 8 6
······66
JP 10 RJ4
'66·
2.9
2 5
2.9
;;,/,
7
58 18
-'( ::,::
}
!
Material Note
lair-good prop. retention, Y~!. swell <40
3M Alias (TFP capo!.)
"excelleni ~ropertYfflW\@n
3M Alias (TFP capo!.)
fair-gop~~~9.P>~teoiio1;@j:.s;ell <40 :good·proiflelerii'oii;jii6deiiilo!isWelj:.·.· . \·:)i}.~'::· .
good~~c. prop..relention, some Y9k~l\'~\\" :~;~~:;;:.
7
23'
7
·'-f.:, •
I
,:,.~'.
•
engine oils (SF,SF CD) 10W·40
::>;
2.9
<10
>40
p60,
18
74
130
A-15
13
78
130
A-l1
>40
8
<10
8
<10
8
<10
8
<10
8
<10
2
>40
,II
<10
135'"
<E'
synthetic long lile
149
10W40 SG CD
~ti3
~'i4~ ,
:,163 . '163
3M Alias (TFP capo!.); Shore AS5 "'."
g!,o~~~~. ~[oPlet~~~ri1; S9T8voii{sWell
3M Alias (TFP capo!.)
poor proP:·r8I!'ntiOn~,y~1. swell >40%
3M Alias (TFP capo!.)
·e~~~~i1~:f:.~en;rel~~tion :.L..; :"'
.
.
,8Xc~~nl prope(1y relenllon
lpl?S?:
<1
.<;.q
r?
(TFP capo!.)
8~'fejliij!!!!~M!Wtw~Mi~i1
<10
poor'Prop: (ei~nljon, \/01:
>40
.~:. ~.. ,;,.:.,~;:': "~., :}}::
2
>40
poiiifirqp;iet8iiilOn~ >40% fair:good'p'tilp,;ieiention, YO!. swell <40
<10
7
5
16
?:::
(TFP capo!.)
\io[sweii
20-40
76
118
A-14
,g:::'~:~i-~~~j~~lt~~:~:~~r:~:'I: e~c~1i8nl propilrly ielenfion .
92
143
A-4
.'J:/?::::\>:;:-:t.
':-<'
:<:~::
3M Alias (TFP capo!.)
S)fii!l>4()%
85
5 8
(TFP copol.)
~r::::::··
~
.-~
g!lod;.~~, f!r~~~,ie!enliOn;$ome yol. $well
3M Alias (TFP copo!.)
3M Alias (TFP capo!.); Shore ASS 3M Alias (TFP capo!.) 3M Alias (TFP capo!.); Shore ASS 3M Alias (TFP copol.)
<10
2.9
7
5
95
128
A-3
30
.'7'
7
87
114
A-4
30 0.17
'S
6
95
111
A-4
8
110
0.33
,.(8 '8
108
0.67
P[op.;~~e~~~. ~o!. swell >40%
~
., .7, --8
,.,If
.
>40
7
'J35
:,:::.."
':::::.;,
3M Alias (TFP capo!.)
(TFP copol.)
2
4 '
2.9
retention
3M Alias (TFP capo!.)
6 135
(TFP capo!.)
~~~~fteni.pr~perty
2
5
9
.;.;.:",{~>
(TFP capo!.) 3M Alias (TFP capo!.)
<10
9
8 2·'
5W-30 SF
..,>l
'Resistance Note
(TFP copol.)
".7.
Methyl Isopropyl Ketone Methyl Salicylate Methylene Chloride MiI·H·5606 MiI·H·5606C MiI·H·83282A MiI·L·7808 Motor Oils
IHQh:~~~~'
6 .~:;
C/)
(l:
<5 <10
Hydrogen Peroxide Isoamyl Acetate Isoamyl Alcohol Isooctane Isophorone Isopropyl Ether Jet Aircraft Fuels
f? t""
9 8
<10
2.3
Elongation
-
<10
'"
0: ..,
25
8
Methyl Cellosolve Methyl Ethyl Ketone
;:l
6
,.(:8 9
Lacquer Thinners Light Oil Linseed Oil Lithium Bromide Lithium Chromate Magnesium Chloride Mesityl Oxide Methyl Alcohol
C/)
20-40 -
S~~:~~~h I
<10
50
•.",23
r;'
4
6
% Retained
25
37
Kerosine
~
20-40
Hydrofluoric Acid
50
i:i
Volume
5 6 "if
7
minerallilled 20
~
ex> N
% Change
@
N
110
3M Alias (TFP copol.); Shore ASS
::: 3M Fluorelll FX 11900 (TFP terpo!.); Shore A70
.,~
,.
@
'" [
,B~agent,Re~gent Note
g:
..
't"l
Motor Oils
~
_
~,
.. .
Conc. Temp. Time P~L ('Yo) ('C), (days) Ratmg
10W40 SG CD
163
~
Ie:
'.163"" ~h 1'63'
"i~:j:.
10W40 SG CD
.;
.1l;;3/.~.
15W40 SG CE
. '1.63""
solvent
i.X;}
163(\ Naphtha Naphthalene Nitric Acid
1
9
102
7
85
~~l\~l~~~: Pyridine Skydrol 50084 Bisulfite Borate Carbonate Chloride Chlorite
mi~~ ~~~::..
I
Resistance Note no cracking or crazing
:: ;:;
~:;::
8 6
3.6 5,3
84 69.8
95 90
A-3 A-2
7 7 7 7
7 6 7 6
4.1 5 3.5 4.6
81.8 62 82,7 73.3
109 82 108 86
A·3 A-3 A·2 A-3
8,
<10
j '!
t)IT:Ii-ll
n"~~;".
7
1;\lt~~'~~:~
l'nitropropane
!~~I~~J!;l
w
3M Fluorel II FX 11900 (TFP terpoL); Shore
An
' •
,I ' \ ,•
ex¢ellent.pro'party retention
~);:W'\
~~o
i,y '" -'
i,:,~~H
3M Atlas (TFP copol.)
7
t
~
"o>AW+>n
(TFP copoL)
'gOod ll'.op,~!Ie.mion;·rrioder,Yoi.swei)
2~;0
3M Alias (TFP copol.)
";;W3bW%i; " ' , . , " ,
Il~ !ii
;'~C~_~
.,
(TFP copol.)
,".'ul""'~'1
pyridine oil
8 8
17 <10 <10
8, 8
<10 <10
: ~~~ 'i
~!!
saturated
"
.."
n"",:?:
saturated solution s o l u t i o n s / « ,;,
. . :"~
76
136
A·13
,
;',.,,/;E::
.~.,,',.,\
;,
··········'exceHfilfjjfil/iliiifi'eieriii6n ....
3M Alias (TFP copoL); Shore A85 3M Alias (TFP copoL)
.
10
Sodium Silicate " .... Sodium Sulfate " Sour Gas wet (35% H2S) w/5% amine corr. inhibitor ;: .,' Stauffer 7700 Stauller Chemical ' ,':} S t e a m "'\
8
8 8:, 6 ,:: 8
<10 <10 <10 < 10
good prl/ll. [etenpon, moder. vol: swell exceneniJ?ioperty· ret~ntion
~
=H
Material Note
<10
5
Sodium Sodium Sodium Sodium Sodium
Hardness I Change
fuming
Nitrobenzene
~:~~C&~~~~~fennz:ne
I
7 7
20 60 98
=::~::~~~~~e
Tensile Elongation Strength
2
;~'t;
,"WOO:"" 10W30 SG CD 10W30 SG CE
$:)
% Retained
Volume
~
"163""
~
% Change
N
Chemical Resistance - Tetrafluoroethylene Propylene Copolymer and Terpolymer
~
N
Chemical Resistance - Tetrafluoroethylene Propylene Copolymer and Terpolymer
-I "'Tl
CD ~
""tl
% Change
Reagent Stearic Acid Styrene Sulfur Dioxide Sulfuric Acid
Reagent Note
Cone; ITemp-1 Time'l POL •• ('I.) ('cj(daysL R"ting
5
60 96
Tanning Solutions Tetrahydrofuran Toluene
23
, /23\
16;l
.'."~;3""" Tributyl Phosphate
@
'"c
P ~
n'til ~ til
tEi' ;:l
t-'
c;: .., p
..,
It:
7 7
automatic
factory fill type
Trichloroethane Trichloroethylene Trichlorotrifluoroethane Trichlorylbenzene Tricresyl Phosphate Triethanolamine Triphenyl Phosphate Turpentine Vinyl Acetate Vinyl Chloride Water Xylene Zinc Chloride Zinc Sulfate
•
<10
8 8 8 8 8
<10
-,
,
"
2
>40 13
8
<10
~)
4'
.••:
::
100
A-3
4.9
79
80
A-3
4.8
89
92
A-3
'F~~~~~kiiig~r cra,zlng A/ '";.:. ,. .". "~:'
20-40
····2
>40
2
>40
2
>40
'.' ~"".
<10 <10 20-40
2
>40 <10 20-40 <10 <10
(TFP copoL) 3M Atlas (TFP copol.) (TFP copoL) 3M Alles (TFP copol.) 3M Fluorelll FX 11900 (TFP lerpoL); Shore A70
,"
"'::«:." ""
;'>.;
..•, ;:;j(~en~~I'p;~i4rly~rel';il\io~
"
po~( prop ret6~li()fl. >/'Ol:;sw,en >40,'" -',::'
good prop. reieiilio.n, moder. vol, swell <10
4
8 8
~~CeUentpr~~r!y,reI8nlio.n
92
<10
4
~~~Pff.f';r~,~enlio~~,vol. sw~n ~40'"
4.4
8
7 ,.8
~ ..>
150
7
6 ·, •. 8
,
<10 ,11.::,
6 8 8 8
saturated solution
~xcelieAt'p;~p';rt;'ret~nlion"
<10
7
3M Alias (TFP copol.)
<10
,.:
pure, methyl chloroform
excel,~~l prop~rty rel~~lion
<10
9
Material Note
Resistance Note
, lair-goodp/oiI, releillio'n.~oL swell <.40
20-40
8
7
7
S~;;;~~hIE,~n~allon IHq.~~~~~~1
<10
8
fuming, 20% oleum
Volume d
5,
~:.:.:'
20
Transmission Fluids
I
0/0 Retained
.··~~E~t!.l!9ii~ny':f'\~m\~n
""';.<"':':"'<:"';"':~""
.........•........., ..
"
fair·good prop. relenlion, vol. swell <40 opor prop. r~iention; _01. swell >40% good..xc. prcipi.!ele~(jo.n. some vol. swell ': , extellen! prop'erty rel~nlion lajr-goodprOp?;el~ntion.voi.s"'91l <40 , .'~*~:=~;!;~;~~e~;';~.'~~ti~A'
3M Alias (TFP capo I.)
©
% Chang~
"'0
P
Reagent Note
~
Time
r;'
m
?5' m
:;..~.
Acetaldehyde
I POL
(days) •....... : .....Ratl'ng :...,':.,. . . . "?:",:
2
0.4
78 <900
7
t-'
/
,
23"" ',i 0.0035 23 .0.0208
8 6
0·10
0.0208 .0.0417 0.167
8 8 8
0-10 0-10 0·10
".)
It::
Acetamide Acetic Acid
hot. high pressure glacial
·23
0.0208
23 ~:
5 30 50 50 50 50 50
.'
0.1
12
Pioneer L·118; glovelilm
'.
unsatisiactJty lor use 110
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
,~~
etcellenf: ven' litlle d~greding elled: v~ry well i " . $~i!ed lor Use , . ,. minor to moder. effect
9
6 0.0035 0.0208 ': 0.0417 0.167
Acetic Anhydride Acetone
8 8 8 8
31
0.02
,
18
0·10
Pioneer L-lt8; glove film
excellent degradation rating
0-10
0-10 0-10
6 7
5
0.05
30
/6 4
23
.23
/'?3
. 0.0035 ,.il 0.0208
8'
10
<900
4
<9
0-10
0-10 0-10 0·10
Acetonitrile
Pioneer L-tt8; glove film 'minor to·mOder. eflect lair perm.' rate; to·l00 eyewopper size '. d(~PSlhr. '. ~xcellent degredailon.rat.ing •very l~ti, degradingeffeel: s~~able under '" ,'." careful use' '. 8xcallentd~~(adailon rsling
51
.' very good ~i~(),;]l:;;~: . verY I~!!e
e~edro~'7r
Z
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·lt 8; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·118; glove film
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
' , . , -, .
fot
Acetophenone Acetyl Chloride Acetylacetone Acetylene Acrylic Acid
::D
size.
~~~r~din~pk'ec': suit~ble und8~
'"., ",;. 9.are.fu1liS8/.
Acrylonitrile Aerolube Aerosafe 2300 Aerosafe 2300W
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove fjlm Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm Pioneer L·tt8: glove lilm
mino; to moder. effect
6 23 23 ,23 23
excell~~t degr~dati~n raling
6'
'~;,
','
excellent degradation rall~g very lillIe degrading .ilec!; suitable under /~car'lul.use ....,."
21
6
~
lair perl1t;a;i/~li~}iQo,~~edr~pper size
unsatislactory for use
2 5 6 6 2
glacial
Pioneer L·tI8; glove lilm
. ·,\.~!ep~r.\
;:l
..,0: ~ ..,
Material Note
moder. t(N~vere effect
4 4'.'"
16'
Res[~tance Note.
.:.;.;;:;:;:~:::::;::;
4 ../
.<
.Perme·~t1on
weight
80
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm
Aero Lubriplate
N
Chemical Resistance - Natural Latex Rubber
CD 01
Chemical Resistance - Natural Latex Rubber
Z :::IJ
:Reagent
.....
... ..
_
,.
Reagent Note
C?~c. T~.~i' ~i~~ R~g~9
Air Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride Aluminum Fluoride Aluminum Nitrate Aluminum Phosphate Aluminum Salts Aluminum Sulfate Amines Amino Acids Ammonia
Ammonium Nitrate Ammonium Nitrite Ammonium Persulfate
2' 2.
denatured
Ammonium Phosphate
~ ~
:~~~~:~~ ~~:~:te
~ en to·
Ammonium Sulfide Amyl Acetate
;:s t-'
.,c;: .,
i=l
u::
..' ". recommenQed lor.·use unsatislactory lor:us.e·. recommended for use
8 8
•
8
•
6
minor tomoder. effect recommended lor use
8
l"
8
\ .
;'~'
;
;
8 , 8
'I
mixed lactams
cold. hot I. liquid I,
,
8
recommended loruse unSallsl&e1oly toruse •
2
2
•
, 2
..
iecommiirided lor USe .. .:excellenOverylQJJMle/iiadirig·efl6Ci;.very well .•. suited lor ~se
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm
no perm. detected during a 6.hr.• ~est
•
23
0.0208
9
40
23
0.25
9
23 . 23
0.0208
29 29 29
23 23
,. 0.0035 '0.0208.:
29 29
'23 ?3
0.0417 0.167
0
2 6
unsatislactory lor use 90
0,10 0-10
excellent; very 1i111~ deg·rading.elfect; very well suiteQ'for use ,. " ' . , excellent degradation ratiri'g ' '. ... ..,,'
0-'0 0-10
.. ' •
9
5 8
8 8
8
58'
4
108
,
8 solution
.' '. ." ..
Pioneer l·118; glove film .. .. .. •
., .. "
"
8
It
8
•
6
: ' .
minor: to modef. elf~91, "
'}recoirimendiid'lofiis8'/
> 'i (..
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove Ii1m ..
moder.to severe ellect recommended for use
'
8 8 8
f~;'
",
8 40
..
,
minor to moder. ellect unsalisfaC10ry for use
8
dibasic mono-basic
• .
6 2
2
concentrated ..
...
unsatisfactory lor use
i.
','
Material Note
Resistance Note
.
'•.•',
n'en
(:i;'l l(~~~) Ih.lQ!:A~i~'n;l
2
tribasic
i=l
Weight
8
10
@
Permeation
8
,
Ammonium Carbonate Ammonium Chloride Ammonium Fluoride Ammonium Hydroxide
<167 ';167
0/0 Change
N
ex>
en
'0.0208
.
8
•
2 1
unsatisfactory for use not recommended
,
!..
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
@
k+',"" ¥",,"
'"./('\,>:,.1"\\\"" \\'}''i' "\\>\"'/U." ","".,.",}] .",.""""",., }'lfiW·
'1:l
po ~
O· CIl
tl
ro
CIl
tEo
di2S:
I
'""",t),,:,}\
25
<9
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
0
Pioneer L-118; glove film
<9
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
;:l
t"'
0: ... p
... <.t::
IAmYI Borate Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline
di-ester
dyes oils >480 0.00 8
25 0-10
Pioneer L·118; glove lilm Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·118; glove film
0-10 0·10 0·10
Aniline Hydrochloride Animal Fats
Animal Oils Ansul's Ether Antifreeze Aqua Regia
lard lard oil Prestone Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Argon Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Askarel Asphalt ASTM Oil No.1 ASTM Oil No.2 ASTM Oil No.3 ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C bis(2·Hydroxyethyl) Amine
>480
1.1
0
Pioneer L·118; glove film
0·10 0-10
Z :::IJ
Chemical Resistance - Natural Latex Rubber
1\:1 CO
-...
Chemical Resistance - Natural Latex Rubber
Z ::D
'Reagent
Reagent Note
I
Cone. Terti p• I' Time
, (%}', ("C}(d~~~)
bis(2-Hydroxyethyl) Amine
IRating POL
23' 0.0417 ,i' 23 0,167
Barium Chloride Barium Hydroxide Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde
.:~.
,~:.:.:
8 8,
%~~~ri.gel
Per.meation
0-10 0·10
)
Benzene Benzenesulfonic Acid Benzochloride Benzoic Acid Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax Bordeaux Boric Acid Bromine Bromine Pentafluoride Bromine Trifluoride Bromobenzene
23
,0.0208'
u.
.
r solutions )'"
mixture
)
~. ~.
'uns~tistactory;!oi u~e
10
<9
23
23
P
'2~
~
.• 23
2-Ethyl
0.0208
23 23
Butter
0.0035 . '0,0208 0,0417 .0.167
'-.~;
23'·' 23:"
t-'
.,0:p .,
nOI;;~Qnuri~~ded
'2
.'uiisiiilsiaf~o;yjoi use'
.
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
..~.
I minor to ;;'od~r_ effect
recommend~d fof-use, .unsati~fllCtory !o~ use
,, >
.. Ans. Edm, Canners and Handlers 392; unsupported 0.48 mm glove film
190 excellent; very little degrading effect; very well . suiled. for us~ iiiisiiiislaCt,oiy for use
9
2
'1:l
;:l
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
un's'a1is1aCtory fo.r use
1
2' 2 2 7
mono bromobenzene
23
tEl'
5
very good p.erm, illte; 1 to 5 eyedropper size . d.rOP~b,·" : "'" minor degrading effect: suitable ~ndercaretul . .. .. ,.v.se. ....
2 2
@
~
"
.
",
2 2 2 2 2 6 6 8
Butadiene Butane Butanone (2-)
Vl
~.,
2
23
Butene Butoxyethanol (2-)
Pioneer L,tt8; glove film
2
Bromopropionic Acid
n'Vl
excell.ent degradati6" ratIng' . . ..v M"',:.,> recomm&ndedior USe
2 benzol
Material Note
8
;.~
; 23) 0,0208 '
Resistance Note .
8 8 8 8 8 8 2 6
, . 23
'"
co co
0.0035 0,0208 0.0417 0,167
2 4 8
8 6 6 2,. 4 8 8 8 8 2
.,',.~.
522
6
Pioneer L·tt8; glove film
, ,
0-10 0·10 11-20 11·20
J
excellent degradation rating , ~\,
......
.
good degradaJiOn'raling ....~. unsalisfactorf1prUS!. 12
1
162
Pioneer L·118; glove film excellent degradalion rating"
0·10 0-10 0·10
.~
:'::: U
O-tO
•
unsatisfactory for
u~e
@
'"
Ei ~
n'
'tC1l"l
'" lEi'
;:s t""'
0: ...
Reagent' ,,'
Re$istance Note
Material Note
-,
Butyl Acetate 23
Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol
...
j
unsatlsfaclory for use, nOI recommended
0.0208
Ans. Edm. Canners and Handlers 392; unsupported 0,48 mm glove film
2 "2 8
,~.,
butanol
>:l
8
It:
Butyl Butyl Butyl Butyl Butyl Butyl
23
7,.
23
6
very liltle degrading ellect; suitable under careful use
6
2
minor ..o moder. eflec t unsatisfaclory for use
2
«
Alcohol (tert-) Benzoate Butyrate Carbitol Catechol (tert-) Cellosolve
,:";:.
very good perm. rate; 1 to 5 eyfdropper site. , dropslhr. . '
Ans, Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
'2 12
4
2,3
2 6
23 23
0.0035 . "" :,8 .' 0.0208 9
23 '23
0.0208 '
23
0.167
0.0417
Pioneer L·118; glove film ,
45
<90
0-10 0-10
8
0-10
unsatiSlactory for use goo~p9ffTi. rate; ~:50 eyedropper siz,e . drops/hr." ' , , excellent 'degrada'ion,r~tin,g ,excellent: very littl~ degrading',ffeei; very well sUlled for us•. , ( " " ':' excell~ill ~9g;~d~tion ';;ting: "
0-10
8' :.-::: 8"
.~
162
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·118; glove film
2'" 2 «
~,'"
2 2 ,2)
"2 6,
'23 23
Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Cyanide Calcium Hydroxide Calcium Hypochloride Calcium Hypochlorite Calcium Nitrate Calcium Phosphate Calcium Salts Calcium Silicate Calcium Sulfide Calcium Sulfite Calcium Thiosulfate
<9
2
;;:;;::::<
Butyl Ether Butyl Mercaptan (tert-) Butyl Oleate Butyl Stearate Butylamine Butylene Butyraldehyde Butyrolactone (y-)
200
0.0208
9
60
<90
goodpemi:,i1ie;,6-50 ey~ioWMslze dropslhr••:: . excellent: v,ery little.~~jj(Mi~g effeel; very well' suit.Uofuse ' lor use
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
,., ,ecommended
'unsatisfactory for use reco,mmended lor use
unsatisfactory fotuse recommended lor use
« ;;.
:::::~.::.; ~
I\)
Z
:D
Chemical Resistance - Natural Latex Rubber
00 CO
Chemical Resistance - Natural Latex Rubber
Z
::D
I\)
co
Cl r~c
% Change
l~eagent
Reagent Note
Caliche Liquors Cane Sugar Liquors Caproic Aldehyde Carbamate Carbitol Carbolic Acid
conc'ITemp'l Time ('M('CP~
(days)
IRating PDL
"\/r;l~.::,:~.: .. _. :~.
2 8 8 8 6
dry wet
. :;..
23
0.0208
~.
0.0035 0.0208
6
23 '23 23
0,0208 0.0417 0.167
8 8 8
8
23 23
tl (1)
<E' t""
..,
P
0.0208
0.0208 23 23 '0.0417 • '23 ' 0.167 ,
;:l
0: ..,
:: • 0.0035.
Chlorine
~
13 10
','
8 6
0·10
8 6 6
0-10 11·20 11·20
~ hexadecane
2
2
Z
dry wet
2
dry wet
2. 2
not reco'mmended
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm
Pioneer L·118; glove film
12 <9
0·10 0·10 0-10
2 5
i!
0.03
0-10
'5
2
~n~~ii$r~\oi{fo(uS. ,', ..
recommended for uS,e
25
23
Ans. Edm, Canners and Handlers 392; unsupported 0.48 mm glove lilm
minor to, moder. alfect
•
6
solvent
,.;!3
1I>
~nsaHsiacioiYloiuse;'
"nol reqommended
10
,••.•2~
Pioneer L·118; glove film
minorto moder. effact
5 2
solvent
Pioneer L·118; glove tllm
good degradation 18ting
6 2 1
Cellosolve Acetate
1I>
0·10 0·10 0·10 11-20
8 8
~3
ri'
unsatislaclory lor ~se' e~cellenl degradation rating
,.1
:~
@
no steady slate perm. rate delected
0
:ii:/. {
Carbonic Acid Castor Oil Cellosolve
>480 0.06
2
: : :, ":
:~r
Carbon Monoxide Carbon Tetrachloride
~
unsalislac.wy for use.
minorto~Od~L~lfect •.
6 6
:?
Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents
minor to mode'r. elfect
9
~::
?"
Material Note
recommended lor use
6'
"h, 23',? ' 0.0208
'1:l
Resistance Note
2
Carbon Disu !tide
S'
1 e~;meation I!Imm+ BTT I ;;6L I Rete J~~m) (llglcm2/mln.)
8 8 6
23 ' 0.0035 23 ' 0.0208 0.0417 23 23 0.167
Carbon Dioxide
Weight
<90
unsatistaclory lor use very good perm. !lite; t 10 5 eyedropper size dropslhr," excenent degradation rating very lillie degrading effect; suit~blll under carelul use exceUent degradallon rating
unsatisfactory tor use good perm. rate; 6·50' eyedropper size dropslhr. excellent'degradation raiing very lillie degrading effect; suitable under caretul use excellent degrada,tion rating good degradation rating
"
ul1sailsf~5'0ry.'oruse ;.-
..,
U
:~.
Ans, Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm Pioneer L·118; glove film
Ans. Edm, Canners and Handlers 392; unsupported 0.48 mm glove tilm Pioneer L·118; glove tilm Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm Pioneer L·118; glove tilm
".<.-
@
"1:l
P ~
r;'
'"tl (1)
tE· '" ;:l
t
...0->:l ...
~
IF\e~g~nt
~h;:rine Dioxide Chlorine Trifluoride Chloroacetic Acid Chloroacetone Chlorobenzene
MaferlalNote
Reagent Note 8% Cl as NaCI02 in solution
mono mono chlorobenzene
L
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Chloronaphthalene Chloronaphthalene (oo) Chloronitroethane Chlorophenol (oo) Chlorosulfonic Acid Chlorothene VG Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid
1-chloro l-nitro ethane
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
aqueous solution Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Citric Acid Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Clorox Cobalt Chloride Coconut Oil Cod Liver Oil Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride Copper Cyanide Copper Salts Copper Sulfate
2N
Monsanto
Corn Oil Cottonseed Oil
Z ::D
I\:)
Chemical Resistance - Natural Latex Rubber
CO .....
I\)
Chemical Resistance - Natural Latex Rubber
Z :0
<0
I\)
Permeation
0/0 Change Reagent
R~agent
Note
Cone; ITe.mp·1 Time (%)' ('C)·
Creosols Creosote
(days)
I·· POL I .. w~rgh\' R~.tiOg
Material Note
.
coal tar wood
Creosylic Acid Cresol (3-)
m-Cresol
150
5
12
150
5
12
Pioneer L-118; glove film
0-10 0-10 0-10 11-20
Cresol (m-)
3-Cresol
0-10 0-10 0-10 11-20
Crude Oils Cumene Cutting Fluids Cyclohexane Cyclohexanol Cyclohexanone Cyclohexyl Alcohol
cutting oil
23'
Cymene (p-) Decalin Decane Detergents Developing Fluids Dextron Diacetone Diacetone Alcohol
0.0208
10
<90
15
<9
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
1)
•• 2
·"'·2 ·'·2 solutions photo
6 8
•• 2 .2
2
'6
:.~eryg?Od:e,:s;;r~~;~~~~~:Y~~r~~per.~;~; .• :
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove liIm
.ery little degrading effect; s41table uflde(\ . • careful use .••. ... .....
Diamine
© ~
S"
~ ;:;. til
~ til to· ;:J
t
.,0., ~
u::
218
0.7
12
Pioneer L-118; glove film
0-10 0-10 0-10 0-10
Diazinon Dibenzyl Ether Dibenzyl Sebacate Dibromoethylbenzene Dlbutyl Ether Dibutyl Phthalate
:;!,
200
:(.
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
@
% Change
'I:l
P ~
0'
'~"
'" tEl· ;:l
t"'
0: ..,
..,p
\t:
Re:ag¢~l .
Reagent t.4ote
;./(;:;;:':."
:;~::::;::~:";""
Material Note
,Weight
.1':
"
.
Dibutyl Sebacate Dibutylamlne Dichlorobenzene (0-) Dichlorobenzene (p-) Dichlorobutane Dichloroisopropyl Ether Dicyclohexylamine Diesel Fuels Diethanolamine
diesel oil >480
1.1
o
Pioneer L·llS; glove film
0-10 0-10 0-10 0-10
Diethyl Benzene Diethyl Ether Diethyl Sebacate Diethylamine Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film
Diethylene Glycol Difluorodibromomethane Diisobutyl Ketone Diisobutylene Diisooctyl Sebacate Diisopropyl Benzene Diisopropyl Ketone Dimethyl Phthalate Dimethyl Sulfoxide
DISK
.'
2~:,>.
0,0208
};A~l~~~~~o~"fO?~;~'
DMSO
240
0.00 4
180
o <0.9
0-10
0-10 0-10 0-10 DMAC
..
<90
21-30 21-30 21-30
DMF
67
DMF
25 0·10
Z
:0
~~~~r1J~I:~~::~~~~~~:r;'~::iifze
.;
Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film Pioneer L·llS; glove film Ans. Edm. Canners and Handlers 392; unsupported O.4S mm glove film Pioneer L·llS; glove film
1 15
0-10
Dimethylaniline Dimethylformamide
Pioneer L·llS; glove film
,.excellent: verytiiile ~¥?ra~ingeffecl;· very well " suited' for'Use " ." excelle~i d~~rad~tj~n taling
...
Dimethylacetamide
Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film
',>
0.1
246 <9
:iIJ:~~l '~~i~i~;':;;;~"J~ .'. e~oetl811(!:!eOi~daljonr~ling'
Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film Pioneer L·llS; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film Pioneer L-llS; glove film
Pioneer L·llS; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.4S mm glove film Pioneer L·llS; glove film I\:)
Chemical Resistance - Natural Latex Rubber
<0
W
N
Chemical Resistance - Natural Latex Rubber
Z ::D
I~e~.gent Dimethylformamide
Reagent Note
1% Change
.!
Iconc.\Tem p Time'l PDL I (%} ('C} (days) . Rating
DMF
23
0.0208
6
23 23 23
0.0208 0.0417 0.167
8
Permeation
I
J
0-10 0-10 0-10
23
8 2
0.0208
.~~
.~linsalis~actory for use ;~:'
poor; prono~~ded
2
;~:.
Dioctyl Sebacate Dioxane 23
,;"
.
degrad~g effecl; avoid use
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
.
2. 2 3
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm Pioneer L·1 t8; glove lilm
excellenl'degradatlon raling
'2 DOP
Material Note
j:Resjstance Note
BTT LDL \.,. Ral. (min.) (ppm} Je~(~~!m!M!"
very lillie degrading affact; suilable under. • .'. . i:~telul use'
8
Dinitrotoluene Dioctyl Phthalate
weighl
(0 ~
"., :~
5
<900
fair.perm; rata; SIlo 100 eyedropper siza
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove Ii1m
d'ops!lt'. 23
•• 0.0208
~;~
Dioxolane Dipentene Diphenyl Diphenyl Oxide Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Corning 4 Dow Corning 5 DoW-Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm A Dry Cleaning Fluids Electroless Copper
t.
oil
MacDermid 9048
23
Electroless Nickel
MacDermid J60/61
23 23
23
S en
mono elhanolamine
~ en
Ethanolamine
monoelhanolamine
to· ;:l
s:.,
0-
.,
P
\C
Ethers
.~
unsalislaC10ry lor use . ';-: ': - --. ,;":."
0.0208' 0.25
9
0.0208 ;
0.0208
~.:".
9 ~.
2 3
r
6
o
... i1RI1~(m,Il~!~~'~~IlWI9J~ 6 hr.lesl excellent'very liUlailegr.dlng effect: very well .• • suited for use
o
no perm. detected,during a 6 hr. test
5
<900
2, 6 6 -8--:
23 0.0208·
;<.
9
2
'.
:e~celfenkv~~i~~tt~~~~~d~~W~k:~eryWeli.l
9
0.25
,
.....
8
23
',\'
2 2 9
-
Ethane Ethanol Ethanolamine
~
r;'
i
2
23
'i:l
\;~ecom~nded for use
"
Epichlorohydrin @
I
8 8 8 8
;
23
:\. ~,~ ;:~.
8 8 8 8 8
~'.
..
.'. .)#?~!ti~l~f~~IMllSe
2 2 2 2 8
of:,
su,tBble under
Je1r;·.modera ..,
5
unsatislacloiy lor use fair perm•. ,ale; Sf 10 100 eyedropper size , . dropslhr. very.titlledegrilding effecl; suitable under ., "":" "" cer~lu.l,"se unsatisfllctoryJor Use, rec.ofum&'uIJld for use >
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
, mi~.or.16 l1)ild.~r,; e~~ct . .:::y
50
<0.9
~
".
low·peflll,Jate;O·1I2 eyedropper size " .drops/h~.· .excetren~ nry lillie de:g,edillg effecl; very well', , '. suitad lor use ";jjn~ijWMW~!9.tjlse
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
@
"tl
S" ~
Reagent
tl C1l en
Ethoxyethanol (2·)
n'en
conc·ITem p. (%)
Resi.stance !'4ote 10
0.03
Pioneer L-118; glove film
12
excel.ienl degragallon~a~ing
0-10
~.
0-10
;::l
0-10
~
0-10
.,0$:l .,
Material Note
eC}
Ethoxyethyl Acetate (2·)
13 0-10
It::
0-10
,~~
11-20 11-20
Ethyl Acetate
Ethyl Ethyl Ethyl Ethyl
organic esler <900
15
<9
Acetoacetate Acrylate Acrylic Acid Alcohol 23 23
0.0208
6
23
0.0035
. 8
0-10
23
0.0208
Ii
0-10
23
0.0417
8
0-10
23
0.167
8
0-10
ethanol
Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl Ethyl
5
>480 0.02
9
Benzene Benzoate Bromide Cellosolve Cellulose Chloride Chlorocarbonate Chloroformate Ether
o
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mOl glove film
recommended for use. '. very good perm.~ale; 1 tr5ey;dr~Jp~r size ;, '.< ' . ' . dro~slhr. . " .i' very little
2 '2
"6 I>
."
2 2
unsatislaeloryfor use. ",.
Z :0
:;. ~::::::
2' not recommended
2' "6
23 23
Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrin
Pioneer L-118; glove film
lInsaJlslacl~ry lor use
2 2
1
Ethyl Formate Ethyl Glycol Ether
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mOl glove film
0.0208 :
6
ul1satisfactor{ior u~~ 25
<9
verygcoa·peini:· r~::klJ:: .5~yediofper,Size very 1~lIe degrading eflecl; suhable und'e} ..~!!!!ul.~.se.. . iecommendedfoi'"use"" . tlnsali~l~ctory for~se
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mOl glove film .; Ans. Edm. Canners and Handlers 392; unsupported 0.48 mOl glove film
"
mInor \0 moder_ efleet lIhsailsiilciory':io{use'.
Chemical Resistance - Natural Latex Rubber
N CO 01
Z ::IJ
Chemical Resistance - Natural Latex Rubber
'"co
0>
@
~ ~
~
ri' VJ
tJ
(1)
VJ
tEo ;:J
s:.,
0-
., ~
<.t::
Freon 1381 Freon 14 Freon 1428 Freon 152A Freon 21 Freon 218 Freon 22 Freon 31 Freon 32 Freon 502 Freon 8F Freon C316 Freon C318 Freon MF Freon TA Freon TC Freon TF Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Freon TMC Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Freon TP35 Freon TWD602 Fuel Oils
Fumaric Acid Furan Furfural
#6 acidic
furturan
15
Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline
<9
Esso Golden super Shell white
Gear Oils Gelatin Glaubers Salt Glucose Glues Glycerin
Z :::0
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Texaco 3450
glycerol
I\J
Chemical Resistance - Natural Latex Rubber
(0
-...I
Chemical Resistance - Natural Latex Rubber
Z :0
N CO
00
I~eage(lt ~
....
Resistance Noie
. ;.'
Glycols Greases
Keystone #87HX .;::::~;
light grease Shell Alvania #2 Sunoco; all purpose
Green Sulfate Liquor Halothane Halowax Oil Helium Heptane Hexaldehyde Hexamethyldisilazane
".
to mOder.' eii8ci·· , u~~~ils~~~o~ 10! u~ . minor:
>' N-Heptane N-Hexaldehyde 15
<900
· • ?iaii~ili~~.~l~;~~:.~:~:.eye~~Oiip~:siza .'.
>
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm
. lair; mod.erate dagrading ,effact; su~able unde., ... .. ·carel~l use . , . , .
Hexane
unsalisla~ory lor usa:·
N-Hexane·l
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Hexyl Alcohol HEF 2 Hydraulic Fluids
high energy luel Sunsale; lire resistant Univis 40
Hydraulic Oils
petroleum base PRL-high temperature
Hydrazlne
218
:·t"
0.7
12
0-10 0-10
Pioneer L-118; glove film ?'
Pioneer L-118; glove lilm
0-10 0-10
65
150
<9
very good
dropslhr.'.
~iceilentiverYliitlad~gradi~.lIeileCI:very~all
65
..
Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
p~rm·: rata; Ho' 5 eyadroppar size·
... ,
petroleum base
..
•...
suited. for us~.c.
unsatisfactOrY tor IIs11
...
40
@
'"
p
Hydrocarbons Hydrochloric Acid
unsatisf.~ct~ry
saturated 3 molar
~~satisfa~t6~ to;'hs~' ..-.:.'.:-.'...;::.,.,;:.: ,.;-:>: :-:
concentrated 290
;~c~~le~I;r~ryh~~~4h;~d~~e;r~F;; ve~;~~I(
n'V> 10 10
;:l
cold
37
t'"'
hot
37
...c:
...
~
u::
tor use
modei'_ jo·'sever.e effect
~
~ V> tEo
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
0.25
37.5
n:tm~I~~~~~~~~ri.n;f~Mr'lesl)'
0
• ii"salislaC!ory 211
37.5 0.0035
0-10
4
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
1308
::/ {c.
for
. :';.' '. ~:::_~~::
;>~~~a'l~~ld~g;ad~lion !a;,~g
Pioneer L-118; glove Ii1m
@
'il
S" ~
n'V> tl
(l)
V>
to· ;:l
~
.., P ..,
0-
Hydrocyanic Acid Hydrofluoric Acid
48 48
<.t:
>480 190
48 48
1
0
Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove film Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove lilm Pioneer L-118; glove film
0-10
0.0035 0.0208
0·10 0-10 0·10 cold hot cold hot
Hydrofluosilicic Acid Hydrogen Hydrogen Fluoride Hydrogen Peroxide
gas, cold gas. hot anhydrous Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove film ..•... ;~;;
~::::~;:. ~".;~:/:::.,
90
Hydrogen Sulfide
.?t:.._:~
?(::~;:~
0 ..
dry. cold dry, hot wet, cold wet, hot
Hydroquinone saturated
••···.23-.:.••• ·' 0.0208 ...... •.... 8.-.:......• <~¥¥:g4i:
Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Pentafluoride Isobutyl Alcohol
:,:~:.-:?~
0
:j/Y
<0.9
;~ttj;·~0~~%~C!l~~;le~~ir~~~~;~t~!t;i!!~~fu
Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove film
••••• yerr·:g~:~!;~2;(~~J~,~;~r;~~[il!'ii.[@~~.··.
Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove film
:•., ,'VllD' lillle .4~gfadirig'llftecl;,~uila~~1 under •
"
Swan Finch
15
';1,~r;):, Isobutyl n-Butyrate Isododecane Isooctane
0.0208
;:)';~;[;;J.~
<9
V;<·:·;dWM~~!lt~f.~!;~~e:;;.';i%'Xiii
,·,·.·.·.·,,·x'·.·-<·,-,-··
\i
·.w.·.,.,..',··.··
Ans. Edm. Canners and Handlers 392; unsuppor1ed 0.48 mm glove film
Isophorone Isopropyl Acetate
kelone
J\.)
Z :D
Chemical Resistance - Natural Latex Rubber
<0 <0
w o o
Chemical Resistance - Natural Latex Rubber
Z
::D
.,~e~g~nfNete v Isopropyl Alcohol
isopropanol; IPA
Pioneer L-118; glove film ..:.::~:~"
200
isopropanol; IPA
2;3/ 0.0035 2~ 0,0208 '23 0.0208·
isopropanol; IPA
23
23
<9
0-10 0-10
.......,'<.. .".
. ' ) \ ~!ops/h.r, ex£elleilldegradalion.ratirg" ... careful use·' , '. ;;e~c~llenl degr~dalicin rating
Isopropyl Chloride Isopropyl Ether Kerosine Lacquer Thinners Lacquers Lactic Acid
©
'"
p
~
n'
'~" '" to' ;:l
t-< [;
... >l
... u::
Lye Magnesium Magnesium Magnesium Magnesium
Chloride Hydroxide Salts Sulfate
Ans. Edm. Canners and Handlers 392; unsuppo~ed 0.48 mm glove film Pioneer L-118; glove film
Ans. Edm. Canners and Handlers 392; unsuppo~ed 0.48 mm glove film
unsatisfactorY 10" use> cold hot
with ethylene oxide
Lavender Oil Lead Acetate Lead Nitrate Lead Sulfamate Light Oil Ligroin Lime Bleach Lime Sulfur Lindol Linoleic Acid Linseed Oil Liquid Petroleum Gas Liquimoly Lubricating Oils
undef ..
not r~com";ended
85
Lauric Acid
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film
u·
verylitUedegtadi~il'8.ffeCI; sult~~18
0-10 0-10
0.0417 0.167
"veryg~d perm. rate;jio 5 eyedroppe(~l~~
.23
0.0208
:,..,~
85 36
o
36
o
·recommended·lorUse lJ~sati;!!letory for u;~. .recommended (or usa ... excell~~t:.:ery' Idlle \i~gr~ding ~jlect;very W:~11 : .•• '''$uiled fotun .. . ' no JM.d,J~C;eddu;i~g~tihdes1 ..
.e~7~~:(;'; Yerili~~~~,~d~~. ,f~~E~;:ve~~'well: ...... ~qpe(m.deta~leddo;inga;; ;';\e~ '. 'unsatisfaetorY 10r'Use'L , .re~6mm~rilleCi 'Iol'u;e:
..
DlE petroleum ether of benzene
,. :.:~:':;.
"'u":':::::'
hyd. fluid; phosphate ester type
LPG
di-ester petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50 solutions
:{
~":":
...:inino,'\o'inodeRe'fffc!} ~ recomme~d8d!gr ;'Se 'minor to modaN~Jfect
ie~omll\endedlij(llse ~ minor !~moder;~ffecl
Ans. Edm. Canners and Handlers 392; unsuppo~ed 0.48 mm glove film
%cil~~i~'
@
'p"o
~ ;:;.
'~"
tEo '" ;:l
Reagent
,.
saturated
..,
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
0.0208
t"'
p
o
23 Maleic Anhydride Malic Acid Mercuric Chloride Mercury Mesityl Oxide Methane Methyl Acetate Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol
vapors ketone
methanol
i3
methanol
23 23
,-
methanol
23 2~
Methyl Methyl Methyl Methyl Methyl
}::':'''::'~'
';;~:::i:;'~~;c~~:I~:~t
Magnesium Sulfite Malathion Maleic Acid
0: .., u::
~~sistance Note
Weight
Benzoate Bromide Butyl Ketone Carbonate Cellosolve
0.0035 0.0208 0.0208 0.0417 . 0.167
8 8 6
0-10 0-10
ll·
0-10 0·10
8":
>60
o
Pioneer L-118; glove film
200
<9
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film
2 2
'·:;;::.u:;.:.
.~
I
2 2'
23
7
200
<9
6
522
5
<900
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm
23
Methyl Methyl Methyl Methyl Methyl Methyl
Cellulose Chloride Chloroformate Cyclopentane D·Bromide Ether
Methyl Ethyl Ketone
monomethyl ether MEK
0-10
0-10
Z :D
.......:::-:(:<:;:';
f~~:-;.;f~i[~Sl~~~~~::~.~~;?ppelsile
~~li.;i\:ij
Chemical Resistance - Natural Latex Rubber
Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove 111m Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove tilm Pioneer L-118; glove film
w o.......
w o
Chemical Resistance - Natural Latex Rubber
Z
::0
N
"\
~e!gent Methyl Ethyl Ketone
ReagentNote"
ITem~.Tiil1e:"PDL
("'I it'CI MEK
..
(d.avsl Rating
23
I>
0.0417
fl~~is~a~ce No,te
. ·(ml~.) jP~III) (l1g/cm /mln.l
.. ... ' ":':i/:; .:'., ".;
2:i' . 0.167
-, ~.,;. ~: .~', -':
~~~~.de.~ra~atklh r;il~~
11-20 11-20
.".
23
200
~~
23
0.0208
·23.
0.0208 )/:::,:1
23
0.0208
<9
Methyl Oleate Methyl t-Butyl Ether
MTBE
Methyl·2·Pyrrolidone (N-)
NMP
'>}
0.0208 23
75
<9
55
<9
23
.:2" i
0.0208
...
'2.
0.0035·~··:
m·methylphenol
_.
;~
23 .,0.0208 : •. 23 0.0417 """:23
8 ..
. 0.167
~
Milk Mineral Oils
~ Ul
Mineral Spirits
..,
u::
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove lilm
5
12
excellenldegrad~tio~ rat;~~;
0-10 0-10 0-10 11-20
;.;"'U
150
Pioneer L-118; glove film -:"'::": .
5
,'. ,.' ;$" ...;<;.,neiioiijm~ndii~lll(rise;/
'}\1'
i
Univoll '35 .~
Rule 66
Motor Oils
0.0208
,~
Morpholine
0: .., p
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
0-10 0-10 0-10 11-20
'1:l
;:s t""
:.:':
unsatjsfa~ory"oruse
150
3-methylphenol
@
<E'
.~«:?
lor use'" not recommended.
0.020B
.23
n-Ul
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
unsatisfa~tory.
2,3
po
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
. :NeiY:9~~~\:!~"~~~~~~j;er,~d,ro~rr .Si~;.: ~x.ce!lent; ..eryliltle'!legr;lding;ef(ec.I,.very V(ell ".\,;'.,hs~11ed;toruse . . .,:,•.\,''i\" '..?':'. . v&~gOOdpeiii"i~t'i·1toS·~ye~dr" '
Methylene Chloride
Methylphenol (m-)
::~ffi~~~~~~~r;>
,,:~~elle~t:::~••~i~~it~~~~~~~~~fl~~t,:,:;7:'8e!l. un:l~~~::~~O;~~~.:>
0.0208
monomethyl aniline
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
··.L.. .
0.0208
. 23
Methylamine
.
poor;.PI~~~~~~ed ~'~;~dillgi.~eg;;'~~~jd·~!::;
0.0208;\
23 ,"
,.'
~
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
uns,!li$.f~Cloiy 10(ils8<
.'·<2'>;:;'
:'23
:'7:/:.
poor;p(Ono::::~~j~:::r~;}~::t;;~t:~~se . ..
MIBK
Methyl Isopropyl Ketone Methyl Methacrylate
Methylene Dichloride Methylphenol (3-)
Pioneer L-118; glove lilm
+,i
:: very good perm. rale;''1. 10 S'eyedropper 'slze '. ."",' 'diopsJlj';',ii<,""i:'''' very litlle degradi~~eff~c;; .5ullabl8 under . ..";,..~;lrefut u·se":···::' nOt [[email protected] .
-~:'"
Methylaniline Methylene Bromide
.M~!erjal ~Ot~
.:t.: ,.,: .:~:.
"ui\s~\isiacloiYJo(~e
Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Glycol Ether
Methyl Iodide Methyl Isobutyl Ketone
Cone.
C%Ch~~g~I;'permeation . Weight ":;'1 BlT I: LDl"'1 ·Rale 2
Esso
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
,,,
dO
~
~
• •
I
@
I
i
~rieagenr
I;
L ...
.
'.
<\
n' ;
Muriatic Acid
Pioneer L-ll8; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
ell
CIl
Muriatic Acid
./23
~
0.0035
8
0-10
Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-tI8; glove film
;
0-
.,
;!3 ..23··
~
N2Sj't
0.0208 ,!, 0.0417 0{ 8 i») 0.167!"A(,0
0-10 0-10
0-10
Mustard Gas Naphtha VM&P
Naphthalene Naphthenic Acids Natural Gas Neats Foot Oil Neon Neville Acid Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
3 molar concentrated dilute inhibited red fuming; IRFNA red fuming; RFNA red fuming
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film 10
10 50 50 50 50 50 70
Nitrobenzene
Nitroethane Nitrogen
Z :0
~25
233 0.0035 0.0208 0.0417 0.167
0 0.1
Pioneer L-l18; glove film
0-10 0·10 0·10 11-20 Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
;t,;l";! 0'0208;~fi\lj~.;~~~
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
15
<90
lextroxide N204, 1
Chemical Resistance - Natural latex Rubber
c:u o c:u
w
Chemical Resistance - Natural Latex Rubber
Z :::D
C> ~
,« "', Nitromethane 95.5
10
<90
5
<90
30
<9
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
95.5
Nitropropane 95.5 95.5
Nitrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol
with 60% dinitrotoluene
40
N·Octane Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Oleic Acid Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
o Oleum Olive Oil Oronite 8200 Oronite 8515 Orthochloroethylbenzene Orthodichlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid
fuming sulluric acid spirits
OS 45 type III OS 45 type IV
saturaled
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
o Oxygen
@
'p"o
Ozone Paint Thinners Palmitic Acid
cold liquid cold Duco saturated
~
5
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
r;' CIl
~
CIl
~.
;:l
t""
0: ..,
..,p
It::
Peanut Oil Pentachlorophenol Pentane Pentane (N·)
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
@
'~" ~
0' en t:l C1l en
,
~""""
R~~~;llt .":", ;~.;
'
«
I
Perchloric Acid
..,>:l
I!::
o
60
;:l
0: ..,
Ans. Edm. Canners and Handlers 392; unsupported 0,48 mm glove film
60
tEl·
t"'
Material Note
Reagen! Note
";,'
Perchloroethylene
I
Petroleum Oils Phenol
crude
>480 0.06
saturated
o
Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film
90 0-10 0-10
saturated
"
0-10 11-20
saturated
" with 30% H2O with 15% H2O
.tJ·[~}~~eii~j~i~i~fJ~~~M:~~~~··rell;
•
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glovelilm
70 85
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
'r~~pm~~~.i~f~£e ,"'"
'U!@is(a¢9fiJ%~~e
;~r~;~i:~~r~r~s~'k"
3 molar concentrated
;"alr; lnoderat;degr~(lIri~''ij,';~;~Gitilble under,
,,·,'6' 20 45 85 85 85 85 85
Phosphorous Trichloride Pickling Solutions Picric Acid
Pine Oil Pinene Piperidine Plating Solutions Pneumatic Service Potassium Acetate Potassium Chloride Potassium Cuprocyanide Z
:D
. ,',
o
.6
~>
>480 0.04
9
s' '«,s 8'
S
0-10 0-10 0-10 0-10
o
',~Ci!~> " exce,lIimi d';gradatloii~i8ting
• :-;~,.~,
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Pioneer L'118; glove film
"
21'
2 H20 solution molten saturated; with ethylene oxide
6
6 5
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
white
chrome
~
Chemical Resistance - Natural Latex Rubber
C>
01
Z ::::0
Chemical Resistance - Natural Latex Rubber
w o
(j)
@ "1::J
P
Reagent Note
~
r:;' Vl
~
Vl
tEo ;:l
~
.,CT >:l .,
<.c::
Red Oil RJ 1 RP 1 Rubber Solvent Rule 66 Sal Ammoniac Salicylic Acid Salt Brine Santosafe 300 Sewage Silicate Esters Silicon Etch Silicone Grease Silicone Oils Silver Nitrate Skelly Solvent
Skydrol
MIL·H·5606 MIL·F·25558 MIL·R·25576
..,
R~~I~tanceNole . ... ,
Weight
V:k':·:··~::::·:···
.2· 23'··' . 0.0208
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film
.1
solvent
4
chlorinated
8 8 6
9
0.00 2
126
\: (eCOm~ended
lor use
.• minor t~mod~r,
~I!e~l ..
2
iJiisalislac!iiiYJiifiJse'... ;minor iii mOder. eflect ~ns~1isf~'dorY lor ~~e <
1
no! recom';'ended
2 6
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
solvent 8 solvent C solvent E . uns;"I!~1cio!Y lor ~e
2
2 solutions
6 8 8
baking soda
8 8 8
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
"
\nfnoJ tomodei; elfecl reco.i;AAe~~d Ill; 4se
:i;:.:
soda ash
8 NAOH NaOH NAOH
NaOH
Hypochlorite Metaphosphate Nitrate Perborate Peroxide Phosphate
"!aterlal Note
2
hydraulic fluid
Skydrol500 Skydrol7000 Soaps Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide Sodium Hydroxide
Sodium Sodium Sodium Sodium Sodium Sodium
conc;11~~~'I:Time."1 POL (%) '>(~cf, J~~rs) Rating
Permeation
% Change
50 50 50 50 50 50 50
, 23. '•.•23 23 23
.<~~ .23
0.0035 0.0208 0.0208 0.0417 . 0.167 0.25
8 9 8
>480
0.1
0-10
9 8
8 8 ·9
o
no steady slale perm. rate'detected . excellent degradation rating excellent; verY:rotUe'degrlldlng eifect; v.ry well .. ,........ sUit~~ loi us.··· eXCel!entdegra~alionral~ng
0-10 0-10 0-10
"u" ':_?\:~;
o
Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·118; glove film
."
no perrn, det~cted during aJhr. test
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
dibasic mono tribasic
(.,)
Z :::IJ
Chemical Resistance - Natural Latex Rubber
o.......
U)
Chemical Resistance - Natural Latex Rubber
Z :::IJ
........ .. :
~
Ifleag~nr
Sodium Salts Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil SR 10 SR 6 Stannic Chloride
Reage!ltNote
conc'ITemp'I.T.imef.
. .I")
('C).
,:
o(X)
..-.-.;.-,-,.
%Change Material Note
wel~hl
(days).
fuel
50
Stannous Chloride Stauffer 7700 Steam Stearic Acid Stoddard Solvents Styrene
<,./
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
monomer
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Sucrose Sulfite Liquors Sulfur Sulfur Chloride Sulfur Dioxide
solutions liquors molten
. ,-:
dry liquidified; under pressure
20%
oleum
3 motar
concentrated dilute fuming; 20/25% oleum battery acid
@
"tl
E" ~
en tl C1l en
<6'
;:s t""
.,0: ., ~
te::
Sulfurous Acid
'
..;
~~~~~t':;:~::':~::I·····.·"'·':"i>;
v~~~~t~;~~~~~~j~!~;:cl;vefY~~~)
47 47 50 50 50 50 50 95
ri'
.....-,.;
moder. to:severe effecl ., iJrisefisfac10ry for ~e., ·':minor lorn.od~(, ~fle~t . . iJrisidisfacio,yloiuse minor 10, mod~i. el(~ct unsafisf~ctOry· for use m~~er. fo ~~vere effect
wet
Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
:~:
unsatisfactory for,use ,.
o >480 0-10 0-10
0.1
o
perni.;;~ieci~d duri~g e .6 ti;.I~s1
no steady statlperm. ,ale dele.ci~d
excelle;;tdegiiidali~n raUilll , &t"
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer l·118; glove film
.........
0·10 0-10
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
© "ll
po ~
o'CIl
1?
10
16'
65
CIl
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
;:l
.,
l:l
tt::
o
65
t""
.,0:
Tar Tartaric Acid Terpineol Tetrabromomethane Tetrabutyl Titanate Tetrachloroethene Tetrachloroethylene Tetraethyllead
bituminous
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film blend
Tetrahydrofuran THF
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Tetralin Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Thionyl Chloride Titanium Tetrachloride Toluene toluol
Toluene Diisocyanate
23
0.0208
TOI
23 23' 23 23" 23 .23
Toluene Diisocyanide Transformer Oils
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
9
>480 7
5
8;
0.0035 0.0208
."5
0.0208
8
'0.0417 . 0.167
6 4
0.1
0 <90
0-10
0-10 11-20
Pioneer L·118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L-118; glove film Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film Pioneer L·ll8; glove film
21·30
2
Pyranol
27
Mobilgas WA200; Type A
'2
2
Transmission Fluids
type A type A; Esso Texamatic "An
2'" '·'.. Z'
··2"'. 2
Triacetin Triaryl Phosphate Tributoxyethyl Phosphate Tributyl Mercaptan Tributyl Phosphate Trichloroacetic Acid
U)
Z
:0
Chemical Resistance - Natural Latex Rubber
o(0
Chemical Resistance - Natural Latex Rubber
Z :D
UJ
......
o
o/Qcll~~9~1.. <
~~agent.
Re~gen1
Note
cone'I.Tempo/ (~c)
• (%)
::"~:"
T.i~e:.1 Rating" P~L'I rW~19h!>'.
'(days) ,-.,,~.. ".,
Mat~'rial Note
.
Trichloroethane 1,1,1-trichloroethane
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
Trichloroethylene
unsatisla~torylor'~~~
TCE
23
TCP
23
0.0208
Tricresyl Phosphate
Triethanolamine
'unsaiisiaC10rY foruse
2 45
8 0.0208
23
<0.9
>480
5
o
6 ·~3 " 0.0035 2~:," 0.0208
TEA
0.0417
23 '2;3 85
'23'
85
;,.23
'1
0.167 0.0208 .
.8'
0-10
8
0-10
~,
0-10
8
eyedr~;'p~r;ize
.,drop~r-
if .... ;.
.
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
nos~:~We::~:ei~1;JI~;~~~c;~r
Pioneer L-118; glove lilm .
Pioneer L-118; glove film
0-10 Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
.-"
0.25
low perm. r;;e; 0-112
excellent.; very lillie aegrad.ing ejlecl: very well, ·: ....;...••.•..•., .....Su!I"l'Jori>$e.;.{:;;< "
9.
~
TEA
Ans. Edm. Canners and Handlers 39~ unsupported 0.48 mm glove film
not recomni'ndeil.
8
Triethylaluminum Triethylborane Trifluoroethane Trihydroxytriethylamine
>480
o
<0.9
5
o
Pioneer L-118; glove film
0-10 0-10 0-10
0-10
Trinitrotoluene Trioctyl Phosphate Tung Oil Turbine Oil
china wood oil 1115; MIL-L-7808A 1135
Turpentine Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
@
'1:l
S ~
r;'
CIl
~
to' ;:l
t"-
o:., .,p
It::
Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon LB1145 Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65
lubricant oil; acrylonitrile glycol deriv. lubricant
oil lubricant
@
'i:I
p-
en 0;" en
Reagent
Reagent Note
f?en
15" ;:l
t'""
0: .... p ....
It:
Cone: (%)
~
Unsymmetrical Dimethylhydrazine Varnish Vegetable Oils Versilube Vinegar Vinyl Acetylene Vinyl Chloride Water Whiskey White Oil Wolmar Salt Wood Oil Xenon Xylene
,POL Rating
Material Note
unsymmetrical (UDMH)
monovinyl acetylene drinking salt water
&wines
xylol
Xylidine Zeolites Zinc Acetate Zinc Chloride Zinc Salts Zinc Sulfate
Resis.anc~Note
Ans. Edm. Canners and Handlers 392; unsupported 0.48 mm glove film
mixed aromatic amines
W
Z ::D
~
Chemical Resistance - Natural Latex Rubber
~
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:0
CAl ......
N '-'r
Permeation
". Change Reagent
Reagent Note
co~c'l Temp.
Time ..' ~~~r~)
(~C)
('k)
Acetaldehyde 23.
3
23
3 2
23
23 23
23 23
0.0035 0.0208
B
0.0208 0.0208 0.0417 0.167
6
23 .
0.0208
9
23
0.0208
9 B 8 8 , 8 " 9
"23
23
.
~.
""
fluid has severe effect • excellent; very'littl8 degrading eflect; '•.. very well s~ited for US8 recommended lor use
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove IiIm DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film DuPont Neoprene
Qui(! has liUI~ to no etleci ,,\ recommended 10;' use .);(lllfdhas Utlle;IO"o elfeCI
>480
0.1
o
,~~$;::'Z'
.'. Pioneer Stanzoil N·44; glove film
DuPont Neoprene
"'8
e
'6 23
'·4 3
12 5
210 <900
23
4
10
<900
5 0.0035 0.0208
;b~
.,
DuPont Neoprene
unsatisfactory for use
0-10 0-'0 0·10 0-'0
0.0035 0.0208 0.0417 0.167
;:;-
i=l tt:
0-'0 0-10
23'
":23"
t'"'
8 8
>360
SO
0: .,
0-10
2
23
e
0-10
5
0.0208 0.0208 0.0417 0.167
e
e·',
e
f::;"
size q,opS/hr.{ J
.~flui~l!as minor 10 .mOdera'te ellect ,,?'~;ci.I!eilt'degradation rallng . ~ordegmdill9 eflecl; suitable under .X
c.r~I!1 use
.. ;".'Xe.rient
0-'0 0·10 0-10
:~M<·~Y~·;·;·'·:>:
degrJd~:~n raMg " ..,: :'~
Pioneer Stanloil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove lilm Ans. Edm. NeoK; lined glove film DuPont Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film Pioneer Stanloil N-44; glove film
¥.:;~
23
6
40 30
23·
e
90
6
tlaii'p~~m. r~tej"~11().fOO ey~arOPper
'~. )~,;
.~
Aceton Itrile
minor te> moder. eneel
<9000
".
8
8
;23
CIl
excellent degradation rating
DuPonl Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film DuPont Neoprene Pioneer Sianzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupporled 0.38 mm glove film Ans. Edm. Neo.; lined glove film Pioneer Stanzoil N-44; glove IiIm
poor perm. rale; 501 \0 5000 eyedropper sile dropslhr.
6
23
t
~
moder.to severe eflect
fluid ha$ $&vere eflect excellent degradation rating very lilUe. degrading eflecl; suitable • under caretul use
'23
Acetone
;:l
'08 <9000
0-10
420
Acetic Anhydride
~
0.1
17
8
50 50 50 50 50
tEo
21 10
2
5 20 30 30
'tl
Material Note
6 2 2
glacial hot. high pressure glacial
@
Resistance Note
BTT (min.)
4 4
23 23
Acetamide Acetic Acid
Weight
42 <9
<0.9
r
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film
@
'i:l
~ ~
f!eage nt
~ en
Acetonitrile
n'en
conc'.1 Temp; ,(%)
to· ;:l
t: I::l .,
.,0\l::
I
Tirn~
{(~er ,,' (day~) 23 23,
0.0035 0.0208
23, 23 23, 23,'
0.0208 0.0208 0.0417 0.167
0-10
Pioneer Stanzoil N-44; glove tilm Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove tilm Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
9'. }
0-10 0-10 0-10
Acetophenone Acetyl Chloride Acetylacetone Acetylene
DuPont Neoprene
Acetylene Tetrabromide Acrylic Acid
70
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
Ans. Edm. Neox; lined glove film
o Acrylonitrile Aerolube Aerosafe 2300 Aerosafe 2300W Air Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride
<0.9 DuPont Neoprene
Aero Lubriplate
denatured
solution
Aluminum Aluminum Aluminum Aluminum Aluminum
Fluoride Nitrate Phosphate Salts Sulfate solution
Amlnes Amino Acids Ammonia
mixed lactams cold hot liquid anhydrous
Ammonium Carbonate Ammonium Chloride aqueous solution
()
::D
U)
Chemical Resistance - Polychloroprene (Neoprene) Rubber
.......
U)
w ......
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:0
.J:>.
P~rmeation .
"'.C~ange
Reagent
Wel9h~
Reagent Note·
Ammonium Fluoride
0.0208
40 40 40 40
Ammonium Hydroxide
23:'
eXC~I~e:~Je,.~I:i~~~t~~~~{~#~ff~cii
l' 9
. ".;.':"- "\'
0.0208 0.25
o
0.25
o
,.
concenlrated >360
·23."
>360 0.0208 0.0208 solution 29 29 29 29 29
Ammonium Nitrate Ammonium Nitrite Ammonium Persulfate
. , ..
o
>480
2¥i
?:f ~~.
:13
0.0035 0.0208 0.0417 0.167
0-10 0-10 0-10
:;~~i:t;~:
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; Hned glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; Hned glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Pioneer Stanzoil N·44; glove film
.; ~~~~!'~F~~~~a~;;l~ri\~~in~.;.
0·10 DuPont Neoprene
solution 10
Ammonium Phosphate
dibasic mono·basic tribasic
Ammonium Salts Ammonium Sulfate solution
Ammonium Sulfide Amyl Acetate 0.0208 23
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
0.0208
Amyl Alcohol >360
<0.9
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
0.0208
@
0.0208 0.25
"1:l
S'
~
nV>
~
V>
<6' ;:l
~
go
..,
p
u::
Ans. Edm. Neox; lined glove film
o
<0.9
DuPont Neoprene
Amyl Borate Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829
di-ester
'.;.:---:0:
@
%~hange
~
po V> ~
n'V> ~ V>
Reagent
Reagent Note
le.onc'l Temp. (%)
Aniline
dyes oils
('C)
Time
(dIYs)
;
;:l
",
~
t"'
• 23
.,
23 23 23 23
0: ., >:l
II:
POL
'Welght
>480 0.005 35 180
7
o <9
minor to moder. eUect unsatisfactory for 'USe
DuPont Neoprene
ii&~eadystafe:peiiii.rate detecled .. ' iery good perm. rate; I 10 5 eyedropper size dropslhr•
<9
'2
.8 8
Material Note
w' .,
'''9 7
0.0035 0.0208
Resistance Note '.~';-
R~tigg 6 2 2
;:.
to·
Load
Uuid has severe effect ..•. ~xcellenl degradation rating 'good; minor de~rading eUecl; vary well sUited f9r us.·
0-10
0.0208 23 0.0208 23 0.0417 23 ••.. 23 .. 0.167 }:~:::::/.:.:
lard
Animal Oils Ansul's Ether Antifreeze Aqua Regia
lard oil
6
Prestone
2 8 2
6
23
Argon Aroclor 1248 Aroclor 1254
23
0.0208
5
23
0.0208
8
23
0.25
8
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film minor degrading effect; suitable under' caraful.use . good; minor d.~rading ellecl; very well su,ted lor use no perm. deteC1ed during a 6 hr. lest .
Ans. Edm. Neox; lined glove film
unsatisfactory for use
DuPont Neoprene
2
rio·stea::s:\~.:~::~~!~il~~\e,~S!~~:"::':
Pioneer Stanzoil N·44; glove film DuPont Neoprene
8
r&commended lor use
o
2
9'
50% TC8
>480
o
8 8 2 4
23
ASTM Oil No.1
23
5 8 8·
6
ASTM Oil No.2 ASTM Oil No.3
2
70
ASTM Oil No.4 ASTM Reference Fuel A 23
ASTM Reference Fuel B 23
ASTM Reference Fuel C 50% isooctane, 50% toluene
::D
45
2
Aroclor 1260 Arsenic Acid Arsenic Trichloride Askarel Asphalt
()
unsetisfactory for usa recommended lor USe unsatislactory tor use
.5 2 6 8 2 2' 2
2
unsatisfactory lor USe moder, to severe effect .fluid lia.s minor to moderate ellect lluid has liU)e to no effect
r,coi!\~~M~~!.9!:.H~ .•8.; minor to mod~M~!f~cl ; unsalisfactor)ifO(uS& !!ui~h~! minor.to.fjioderate effect !!linor to moder. eUect
,)Iuill ~~~}i~le to !!,9;i8!1~C1
<-;.:
'iinsaHifaclorylo'use I!uid bas seve,e effect unsatisfactory for use .fluid has severe.effect
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
-'-
01
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:D
'"...... (j)
Reagent
I
Re~g~ntNot~
I!~slstant~ Note'
·ICilllc·1 Temp, I,TimeJLo~d'ltP~C .• ". '.' .... ..' (days) .' Rating
, rMilterlal '
Note...",
:::;:"
if
bis(2·Hydroxyethyl) Amine 23···· '23 ,.' 23 23
0.0035 0.020a 0.0417
0-10 0-10
8
0-10
0.167
a'"
0-10
Barium Chloride Barium Hydroxide solution
~::
0.0208
. ,",
2.3
..
0.020a
2 "'1
2:3; . benzol
h
solutions
mixture solution
~ en to· ;:l
Brines Bromine
t"'
~
.,I:l
It::
automotive Delco Girling Mopar non-petroleum Wagner 218 anhydrous anhydrous liquid
Bromine Pentafluorlde
J
16
79a
.L~lu~tr(~~~:;:~:~i:
•. ,.•
DuPont Neoprene Pioneer Stanzoil N·44; glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
solution
~
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove Ii1m Ans. Edm. Neox; lined glove lilm
J,I,',:.~.,
1
2 0.0208 0.020a
o'en
;rol.,rec::~eQ~ed
2' ·4'\·
I:l
. .,~ij~~!~'~~~~:~~!.!i; ;
.,2 23 23
Benzene
:E
Pioneer Stanzoil N-44; glove film
.1I~~M~liIU~·lo ~o elle~I"" MAA@@~M~ fO:'use;
.<•• 8
.:.
Brake Fluids
no sleady ~tiil~ pe-rni. rate detehled . ~x~eilenid~gradatio~jaling
DuPont Neoprene
a 8
Beet Sugar Liquors Benzaldehyde
@
o
.••·'·"8 . '.: 8": 'i8 '23 .•..
Bordeaux Boric Acid
1.1
8. 8 •• 8
Barium Salts Barium Sulfate Barium Sulfide Beer
Benzenesulfonic Acid Benzochloride Benzoic Acid Benzoyl Chloride Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax
>4ao
a a
@
!~~Tl;~~;;",
"ll
po ~ ;:;. CIl
i? CIl
to· ;:l
t'"'
~eag~nt
Bromine Trifluoride Bromobenzene
DuPont Neoprene mono bromobenzene
Bromopropionic Acid
180
0: ...
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
240
...
I:l
0.0208
\t::
Butadiene Butane
DuPont Neoprene
Butanone (2-)
22
930
Pioneer Stanzoil N·44; glove film
147
30
Pioneer Stanzoil N·44; glove film
0-10 11-20 11-20 11-20
Butene Butoxyethanol (2-)
2·Ethyl
DuPont Neoprene
. . 23); 2$< .'
<2~i ?~
0.0035 0.0208 0.0417 0.167
0-10 0-10 0-10 0-10
~::"
Butter Butyl Acetate
DuPont Neoprene
52 '23. 23'
318
Pioneer Stanzoil N-44; glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
0.0208 0.0208
Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol
DuPont Neoprene butanol
240
<9
>480
<0.9
:Y:~j;~~~::~ii~~~il.~::
Ijj~f:;~l~it~~~~~~ff~i:~~~j~[fi~~
excellen,! verY liltle:ileg(ading effect: .' ;(veo/~~!I~~~eill~l:f~e';
0.0208 0.0208
Butyl Alcohol (tert-) Butyl Benzoate Butyl Butyrate Butyl Carbitol Butyl Catechol (tert-) Butyl Cellosolve
:u
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
0.0035
(')
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
147
30
90
<9
0-10
Pioneer Stanzoil N·44; glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Pioneer Stanzoil N-44; glove lilm
Ul
Chemical Resistance - Polychloroprene (Neoprene) Rubber
...... ......
w ......
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:c
00
Butyl Cellosolve
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
0-10 0-10 0-10
o
<0.9
Butyl Ether Butyl Mercaptan (tert-) Butyl Oleate Butyl Stearate Butylamine Butylene Butyraldehyde
Ans. Edm. Neox; lined glove film DuPont Neoprene
Butyric Acid Butyrolactone (y-)
10
<9
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
Ans. Edm. Neox; lined glove film
Calcium Acetate Calcium Bisulfite
DuPont Neoprene solution
Calcium Carbonate Calcium Chloride solution
Calcium Cyanide Calcium Hydroxide solution
Calcium Hypochloride Calcium Hypochlorite 5 20
@
::la $:l
~
n-
C/)
?? C/)
15;:l
t'"
~
...
$:l
u::
Calcium Nitrate Calcium Phosphate Calcium Salts Calcium Silicate Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Liquors Carbamate Carbltol Carbolic Acid >480 0-10
0.2
o
Pioneer Stanzoil N-44; glove film
@
'1:l
is" ~
Reagent
Reagent Note
;::;. en
~ en to· ;:J
t'""
conc·1 Temp. ("')
Carbolic Acid Carbon Bichloride
.,c;:p .,
Carbon Bisulfide
It::
Carbon Dichloride
('C)
I I I Time
(days)
0/0 Change
POL l'W~I~ht . Rating
23
0.0208
8
0-10
23
0.0417
8
0-10
23
0.167
8
0-10
carbon dichloride
."
I
0.000 2
dry
6
wet
6
28
0.000
23
0.0208
23
0.0208
!!@!m~~lmJfto no etfect ... "{UrisaliSfaci~ry for use
1
nol recommended
jili;;;';;{(;:!~~:~~!:l: ~; ~~:ct\'" 31
1512
'<2 " ,
&
0.0208
('
0.0208
1 4 ;i: 1 :~
0.0208 0.0417 0.167
DuPont Neoprene
+?;;;>illI$iifi$faclOiy !~[ US&
2.
0.0035
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neal; lined glove film
",8 ',,8f
23
DuPont Neoprene
'minor \0 moder. eflect
4
Pioneer Stanzoil N-44; glove lilm
::<~\i};:
DuPont Neoprene
::}
\ \·20
Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neal; lined glove film
2\·30
Pioneer Slanzoil N·44; glove film
>30 >30
:1
8,.
Carbonic Acid Castor 011
DuPont Neoprene
8
".l! .", . 2'"
Cellosolve
<,.~
352
l!
solvent
~~:;
solvent
. ~3i
8 0.0035 0.0208
'i 8
:9
18 <0.9
240
<0.9
0·10
~t~;~jfm·~1:~~~?:;.~~~~~;dro~~~r,;\~~ ,./
0.0208 0.0208
0·10
'23
0.0417
0-10
0.167
0·10
7
0.0208
Ans. Edm. Neal; lined glove film Pioneer Stanzoil N·44; glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm
...-.'.-.
,"::
8 5
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm
Ans. Edm. Neal; lined glove film
:";':':"'.':'.
'ij:Wsa!l$laCiSiy for use
0.0035
•
',i'eeilent; ve;Ylittle degrading effect; . ,. 'l-el)' well suited for use .
I .~eellent de1~tliori 'tating
0.07
Pioneer Stanzoil N·44; glove film
excellent degradalion tating
.,.. . >i.:
23 ,,23
23
0.06
45
76
::D
Pioneer Stanzoil N·44; glove film
8
Carbon Tetrachloride
()
DuPont Neoprene
453
2
Carbon Monoxide
I_
Pioneer Stanzoil N·44; glove film
2
23
\,el1050lve Acetate
excellent degradation rating
". unsatisfactory for use .,., fluid has severe effect
4
Carbon Disulfide
IA_t1
Material Note
453
2
carbon bichloride
Resistance Note
BTl (min.)
28
23 .
Carbon Dioxide
Load
Pioneer Stanza II N·44; glove film
DuPont Neoprene
252
Pioneer Stanzoil N·44; glove film
25
<90
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
75
<9
Ans. Edm. Neal; lined glove lilm
0-10
Chemical Resistance - Polychloroprene (Neoprene) Rubber
Pioneer Stanzoil N·44; glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
c.u .-.. CO
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:::IJ
Reagent'
. . Reagent Note
Load
conc'l Temp. (%),
IPDLW~lghi~ tlating
. ('C)
I
·23····
2~< 23
23 Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents
.~.~Od;. :~:fi.~~dror:~~~~i~~ry
0.0208 0.0208 0.0417 0.167
Material Note
.
~:;
Cellosolve Acetate
'" '"o
•...90&1 d~llradatignr~;inij'
11-20 11-20 11-20
•
Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove film
DuPont Neoprene
hexadecane
dry dry
wet
Chlorine
wet dry gas moist gas
Chlorine Dioxide
8% CI as NACI02 In solution
Chlorine Trifluoride Chloroacetic Acid Chloroacetone Chlorobenzene
mono mono chlorobenzene
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform
DuPont Neoprene
12 21-30
©
>30 >30 >30
::2 p ~
n' (J)
1i(J)? to ;:l
t"-
o:., .,
p
u::
Chloronaphthalene Chloronaphthalene (o-) Chloronitroethane Chlorophenol (0-) Chlorosulfonic Acid
0.2
1368
Pioneer Stanzoil N-44; glove film DuPont Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene l-chloro I-nitro ethane
@
';/
"0
po ~
Reagent'
Reagent Note
r;' til
f?
c;,., T~.(,J ~if,~9 ~~::9! ,:::, P"m!.('OO
Chlorothene ':~;"
tEl· ;:l
tc:r ....p ....
0.0035
23.
til
g.
~~ .. '" 0.0208 23 ••••.. 0.0417
··.··23···
Chlorothene VG
Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid
0.167
23'"
0.0208
23
0.0208
27
3 4 1 1
1182
21·30 >30 >30 >30
1. 1
.?"':" ,not recommended w
50
0.0208
2 1
50
0.0208
1
10 10
23 23
10
23
0.0208 ;, 0.0208 0.25
9 9
o
9
o
0.25
2N
--
"
moder. to severe elleel minor 10 moder. effect r~commended for use ,i"nsa!istacti>ry for use 'cec'ommended for use minor 10 moder, effect recommended lor use f1uidha.sUttle to no~lf.8!rt recoiiiine/;d(\d1or
8
itf~~i
8
'8 solution
2.3, 10 50
Corn Oil CoUonseed Oil
\' 23
creosote oil
;~ 1;::::-:/
'!Ui~ h~~)ittle 10 no effect "recommended for use
"4
mode.'. ,to seyere 'effect
4 8
f1~jd;ha~ I(Uh! \0 no effeel un~atlsfactory for use
~
")lljiloqo moiler. ,etlect
'6 4
23
.~
...
use
8 8 8
'2 coal tar wood
DuPont Neoprene
8
'4
'8
Copper Cyanide Copper Salts Copper Sulfate
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film
recommended for use
'8 23
: no ~'erm," detected during a. 6 hr. test
unsatisfactory lor use
6 8 2 8 8 6
Monsanto
DuPont Neoprene
no eileci , excellent;' very little degra.dlng effect; , "veryw~1I suiled for use
'2 '8
solution
Creosylic Acid
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film
'f1u~llailitU~:;~
.j
Creosols Creosote
. .
:imlnliilliiriilder, elfect
8 9
10
Coconut Oil Cod Liver Oil Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride
DuPont Neoprene
. ,fluid /les severe effect not recO:mmended
'6 solution
Clorox Cobalt Chloride
unsatisfactory lor'use
'2
Citric Acid
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
1 2 2
0.88
Pioneer Stanzoil N·44; glove Iilm
':i~ir degradation rating
.POQ( degradation rating
'2 aqueous solution
Material Note
Resistance Note
"
...,.
model. 10 ~jWie effect •.... 'IUIII/lMiiiii. eftec!
lifj~~I#t@@¥W\lM' U)
()
:0
Chemical Resistance - Polychloroprene (Neoprene) Rubber
N ......
w I\.)
Chemical Resistance - Polychloroprene (Neoprene) Rubber
(")
::D
I\.)
% Change Reagent
Reagent Note·
conc'l Tem . (%)
Cresol (3·)
Cresol (m o)
p'I' Time
. ('~)
(days)
m-Cresol
Load
I.. PDL •Rating
Weight
3-Cresol
0.0035 0.0208 0.0417 0.167
8
0.0035 0.0208 0.0417
23
0.167
"8
8. 8
".
23 23.
cutting oil
0-10
e
0-'0 0-10 0-10
8
e
23
Cyclohexanol Cyclohexanone Cyclohexyl Alcohol
o
0.4
6 4 1
e
0.03
0-10 0-10 0-10 0·10
8 '·8 8
7
23
0.0208
23.
0.0208
.,
150
<9
180
<0.9
.... ~:
.f:':
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
~~
. ;;~~~~~:i~tlt:~'i:
.{
d
::;:::.;
tEo
<0.9
,9
0.0208 0.25
g" "1
23
2~>
0.0035 0.0208
"
g' ..•:
8> '8
··~~'~.~;~":t;~~jf;nf~~~p;~~~j~~···· c;J Vtry we!1 S,U~lld tor use
>480
".:.
';~~;~~~l:~r~i!:':;~;'j
~'~c~iie~i; v~;y Illtle de~r~d,ng ~lfeet;
0.0208
o
<0.9
0.7
o
;:l
u:
Pioneer Stanzoil N-44; glove film DuPont Neoprene Pioneer Stanzoil N-44; glove film
.~satlsja~~G~
solutions photo
C/)
..,0" ..,P
DuPont Neoprene
miiiortiliiiOder. effect unsatisfactory for us~ very good ·perm. rate;·J.to 5 eyedropper size dropslhr. low perm. rale; 0.·112 eyedropper size: "\. . 'dropslhr, . . . :.~ excellent; very Jltlle degrading elleet;.' . veir well suited hi! u s e ' :,:>: ';:~'~::" ;
2
-;.
Diamine
Pioneer Stanzoii N-44; glove film
G'
2:·.. . 23
DuPonf Neoprene
42
6
?( t
"
n.o steady siate pe'lI1' rate detected excellent degradation rating
lIuid has severe. ellect ",cellent degradation rating
300
C/)
Pioneer Stanzoil N-44; glove film
eKcelient degradation rating good degradation rating fair degradation rating e~pM~9rM~llon rating. ;iiiiiioii~fu~iler. effect uiisaiisiaCloi): 10' use 159
~
r:;'
M steady state perm. rate detected
216
0-10 11-20 21-30 >30
23
P
Material Note
excell~nl degradation rating
41
e
_. " 2
23
::.:
unsatislactort for use
6
"tl
0
6
0.0035 0.0208 0.0417 0.167
.
:'
Resistance Note
Rate'
2· 23 23 23.
@
5
>480
8"
".5
0.0035 0.0208 0.0417 0.167
23 23
Cymene (po) Decalln Decane Detergents Developing Fluids Dextron Diacetone Diacetone Alcohol
LDL
.2 2
Crude Oils Cumene
Cutting Fluids Cyclohexane
I I
0-'0 0-10 0-10 0-10
9
23 23 . 23
pern\e~tion
. \mln)!~!lml \l.\~I~m~!mf~,1 >480
9.
23.. 23 23 23 ", ..; '
I I BIT
i.: •.
0-10 0-10
...{;\: ::::::.
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
.
10W'P~;~. iat~;O.li2 8y~diqpper ~lze
Ans. Edm. Neox; lined glove film
> .•. .,. .
'" . •• >·.·;.~r6pslhr .... ,;c.... ... ; , nosleady sl~t~ perm.raie~etected >·· . ·.·····exc'~I'e,l\illegdl\:ai\~n·.fan~g· .
fi
Pioneer Stanzoil N-44; glove film
@
'S"Ul
~
Cone.
Reagent
Ul
~ Ul
~.
;:l
t
..,0..,P
u:
~~l~},,:
/. I.,,(%}'
r;'
Diamine
hlg/~m~{m!m!: 2,~+ 2~)"
0.0417 0.167
,,·8.
0-10
"
0-10
Reslstan'ce ~ote excellent degradation rati.ngi'
:·'r·,·· .
Diazinon Dibenzyl Ether Dibenzyl Sebacate Dibromoethylbenzene Dibutyl Ether Dibutyl Phthalate
..,aterial.Note Pioneer Stanzoil N-44; glove film DuPont Neoprene
ii,,_ :~~:
2 2
.2'"
,;8
120
<0.9
8
300
<9
fl~id
2
eti~~t)+
bas severe fail; moderate d.eg·rading elleel: . use suitable .under,',car.eful - ,',. _.' ...
5
0.0208
low perm. rate; O,112':el'edrOpper'$ize' . drops(hr, '" ~ery good perm. rated to 5 eyedropper size drops/llr,
~.
;;~~.:~)
0.0208
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Dibutyl Sebacate Dibutylamine Dichlorobenzene (0-) Dichlorobenzene (p-)
DuPont Neoprene
,..2:
:t"
Dichlorobutane Dichloroethane (1,2-)
":"4 0.0035 0.0208 0.0417 0.167
0-10
"',1
>30
1
>30
1434
DuPont Neoprene Pioneer Stanzoil N·44; glove film
11-20
0.0208
21-30
" 0.0417
21-30
0.167
Pioneer Stanzoil N·44; glove film
!ffi@l1MMI§Wfor us.,) 6
":.
6
1482
:*
""3:"/ 0.0035
0.09
>30
;,.'1'...."
.2
Dichloroisopropyl Ether Dichloromethane
Dicyclohexylamine Diesel Fuels Diethanolamine
,
33
. ,.: 8 :i·/
21-30 DuPont Neoprene
diesel oil >480
1.1
0
Pioneer Stanzoil N·44; glove film
0-10 0-10 0-10 0-10
Diethyl Benzene Diethyl Ether
DuPont Neoprene 18 0-10
0.1
486
excellenrd!gr~dai~~rati~g'
Pioneer Stanzoil N-44; glove film
0-10 0-10 0-10
Diethyl Sebacate
()
:II
DuPont Neoprene
Chemical Resistance - Polychloroprene (Neoprene) Rubber
W N W
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:::Il
(,)
N
.$:>.
Reagent
Reagent Note
con~'ITemp'l Time (%) .
Load
PDU"
('C)
(days)
L~ating
.23
0.0208
2
23
0.0208
2
Diethylamine
~:::ge
Permeation
I I
Resistance Note
Material Note
moder. 10 severe elleel poor; pronounced degrading eltee!; .. avoid use
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
eTT LOL Rale (min.) (ppm) (~g/em2/~1!,.)
4
. >~
Diethylene Dioxide (1,4-) Diethylene Glycol Difluorodibromomethane Diisobutyl Ketone Diisobutylene Diisooctyl Sebacate Diisopropyl Benzene Diisopropyl Ketone Dimethyl Phthalate Dimethyl Sulfoxide
DIBK
23
0.0208
"2
23
0.0208
2
'"
23
23 .23
;:::~.
DMAC
23
"5
o
6
>180
8 8 9
8 ,1
0.0208 0.020B 0.0417 0.167 :~w ::~
DMF
"
i:/:~ ~3'
0.0035 0.0208
23
0.0208
po
0.0208 0.0417 0.167
n'
't"l C\)
l:l "1
"
Dinitrotoiuene Dioctyl Phthalate
:\~.
DOP
nosleady stat. perm. rale de18cled periit, rale; 6.50 eyedropper • size dropslhr. exce~ent degradalion rating excellent; .e·ry little degrading elleel~ very well su~ed for use
good
excelienl.degradalion laling
tow·perm:"raie:0.1i2 eyedropper size ./ . • dropS/hr.
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
&l.eellenl.d~gredation,ating ,.', nOlieeoj11mended.. ·
Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film Pioneer Stanzoil N·44; glove film
."
o
<0.9
0·10
,. ':':;;i}' >;
~
10
<90
6
60
<90
0.1
246
e,. 2 2 9·
'~4 ~:atlsia~;~~'lor use
'~'
.
DuPonl Neoprene ,,"
~6p~rn\~ rate; 6:SQ eyedrop;;r ,; ... sl~&·d/opslhr.
'
" e~ellenl'~eg;~d~~n ,ali~9 '~~.':'.
:-,:.:
0·10
mi
f'~OOd: ~inord';r.d~g efiec1~·very.
8
8
.•
.·r/t····;; unsalJsllietory. for us:.' 110
8
. \)~~~:
;~:.
.2 5 :1
8 5
Pioneer Stanzo~ N·44; glovo film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glovo film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glovo film Pioneer Stanzoil N-44; glove film
0·10 0·10 0·10
. '••.. :.,
?;:
~
0·10
..,-;,.
~
0: "1
0 <90
11-20 11·20 >30
DMF
"
0.004
9
8
0.0035 0.0208
(23·
t"'
Ans. Edrn. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
uos.i1Ii$factory for use
9
0.0208 0.0208 0.0417 0.167 0.25
23
;:l
Pioneer Stanzoil N·44; glove film DuPont Neoprene
2
8 ~.
0.0035 0.0208
23;-
'" tEl·
.wM~,!~iM!.~iv (or use ··POor.'piijijouiieedilegrading elleel; .......... avold"use
2 OMSO
'·>23
I
reeoinmended for use
)~
'23
@
.~.
372
"2 ••.•••
"~':
Dimethylanillne Dimethylformamlde
28
8 2
. <'23
Dimethylacetamide
1&
4'
:~
0-10 0·10 0·10
, ..
:::);'"
~>:~r~ >360
<0.9
120
<0.9
;\.
:-~'
~\:.'
Pioneer Stanzoil N·44; glove film
.j
.~~"",
"
well son8O.lol use
it~eelfeMiiegnld~liO~tali~g
Pioneer Sianzoil N·44; gfove film DuPonl Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film Pioneer Stanzoil N·44; glovo film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm giove film Ans. Edm. Neox; lined glove film
unsatisfactory fqr use"
DuPonl Neoprene
low perm. rate; 0-1/2 eyidfopp,r sin ;._:,;; •• drops"'I.,' .'
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. NOOI; lined glove film
'-~,,;'
@
~
I:l
~
::;. en
tJ
:R~:~~tG~
i~~'~:
.
)"
P~,rmll,,~ion
'::
i¥ime::. . Load
('CL Udiy~r
an
.~:
:"Materlal Note
(m'·n:)
Dioctyl Phthalate
Cl>
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
DOP
en
16' ;:l
~
.,c::r I:l .,
Dioctyl Sebacate Dioxane
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film An •. Edm. Neox; lined glove film
I
Dioxane (1,4-) Dioxolane Dipentene Diphenyl Diphenyl Oxide Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Corning 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm 209 Dowtherm A Dry Cleaning Fluids Electroless Copper
.•:-;. ....:"':'.".".- .,:.:,.....;'.: :.~
oil solution
~
,
'
.:..:<4-
28
372
50
MacDermid 9048
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
o
o Electroless Nickel
Pioneer Stanzoil N-44; glove film DuPont Neoprene
MacDermid J60/61
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
o o
90
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
Epichlorohydrin 10
<900
DuPont Neoprene Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Epoxy Ethane Ethanol Ethanolamine
()
::D
resins
DuPont Neoprene
mono ethanolamine
W
Chemical Resistance - Polychloroprene (Neoprene) Rubber
I\J 01
o
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
:::D
'"
0)
L"jYi~'t
Reagept Not~f Ethanolamine
monoethanolamine
'23 23 23
Ethers Ethoxyethanol (2-)
Mat~riaJ;Note
J~belle~!~it~;:I~~~tii~,~1;J~~e1i~ct; o
<0.9
o
<0.9
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove liIm Ans. Edm. Neox; lined glove film
352
0.06
18
Pioneer Stanzoil N-44; glove liIm
76
0.07
252
u·;·,~
0.0208 ~ 0.259 :::':~:,:.?
0.25
,-,
~.
DuPont Neoprene 0-10 0-10 0-10 0-10
Ethoxyethyl Acetate (2-) 0-10 11-20 11-20 11-20
Ethyl Acetate
:::t ....
.;'~ellen;degra411liqh~ting
909d d~gr~dation . ~:-
,"
:'.':; '.~
g-:'
ratiil
,,/,
.:::
organic ester 34 15
0.08
200
<90
0-10
.JI~i~~~~~~~r~:;'~~~J;~1
excellent'degiadalion ;aling
fair; rn9
....
0-10 0-10 0-10
Ethyl Ethyl Ethyl Ethyl
Acetoacetate Acrylate Acrylic Acid Alcohol
@
ethanol
~
0·10 0-10 0-10
V>
~
cEo ;:l
t'"'
0: ..,
..,
p
u::
Ethyl Benzene Ethyl Benzoate Ethyl Bromide Ethyl Cellosolve Ethyl Cellulose
90
<9
180
<9
>480 0.002 0-10
r;'
'Z~::m:;:L::~\;:~~
:','.:.
e.
<•.•. . .••...•
DuPont Neoprene
'1:l
S"
DuPont Neoprene Stanzoil N-44; glove film Alis. Edm. Neoprene 29·840; unsuPported 0.38 mm glove liIm Ans. Edm. Neox; lined glove liIm DuPont Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film Pioneer Stanzoil N-44; glove film Pio~eer
1068 <90
o
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove li1m DuPont Neoprene Pioneer Stanzoil N-44; glove film
@
'\l
P ~
n' VI ~
VI
<E' ;:l
t
..,c:r
i::ge~t tt·
'1<
'..
'
.,.
"'.
/
Reagent Note '"
-
..
J. Cone,' Temp, I'C) .. I"')'
Time (daya)
'"
Load
PPC . RaUng'
23
.•
Weight
..,
5
23 23 ',23 23
0.0035 0.0208
5 2 8 6
0.0208 ' 0.0208 0.0417 0.167
6 1 1 1
",,'
Ethyl Formate Ethyl Glycol Ether
Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrin Ethylene Dlbromide Ethylene Dichloride
18 10
0.1
DuPont Neoprene
486
10
23
··
,
·
>30 >30 >30
"'PClor degradation rating
<0.9
8
240
<0.9
9
23
0.0208
9
·· · ·
,
j
!
,
23 23
0.0035 0.0208
23 23 23 23
0.0208 0.0208 0.0417 0.167
8 1
"""",,i.ll.,,,,,,,,·
23
0.0208
8 9 9
23 23
0.0208 0.25
Ethylene Glycol
23 ,70 ./
0.25
DuPont Neoprene
low perm. rale; 0·1/2 evedropper size drops/hr.
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film
" " "
·
j
recommended lor use
"
" "
" " "
" 33
0.09
1482
Pioneer Stanzoil N·44; glove film
0-10
excellent degradation rating not recommended
" Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove lilm
"
0-10 0-10 11-20
excellent degredation rating
·
" "
good degradation rating fluid has severe effect >480
0
..
9
0
<0.9
9 8
0
<0.9
DuPont Neoprene
recommended for use no SJeady slale perm. rate detected excellent; very lillie degrading effect; very well sufted lor use
9
;"
DuPont Neoprene
moder. to severe elleci unsatisfactory lor use ·minor to moder. affect unsatisfactory for use
1 8 8 6 2
"
minor to moder, affect
recommended for use moder. to severe effect unsalisfactory for use
2 4
Pioneer Stanzoil N·44; glove lilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove Ii1m DuPont Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove film
"
excellent; very lillie de~rading ellect; verv.well suited 0/ use
8 4 2 2 8 4 2 6 2
I
·
fluid has severe ellect axcallent degradation mllng very litlle degrading elleet; suila~le under careful use
45
0.0208
" "
<90
0-10
"
" "
unsallstactory lor usa
good perm. rate; 8·50 eyadropper size drops!hr.
8
23 23
.,
<90
6
:
minor to moder. ellact (Iuid has severa affect
"
2~ 23
Material Note
2
.;23
23 23
Resistance Note
~.;'"
"j :":
2 4
p
I
I:J:.) j~~~ll'llm~~;'m,?:i '.
2
;: .;:.
,.
j.,
,~~rm~.~tlon
6 2
Ethyl Chloride Ethyl Chlorocarbonate Ethyl Chloroformate Ethyl Ether
.,
[~~c~lmg~,
.
·
low perm. rate; 0·112 eyedropper size drops/hr. '-;'
·
fluid has lilll~ to noeflecl
:,:
" Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
w ()
::D
!')
Chemical Resistance - Polychloroprene (Neoprene) Rubber
'-l
w I\:)
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
co
:0
Ii Reagent Note
Reagent
...
Cone. Temp.
Time (days)
('CI
("'I
Ethylene Oxide
Ethylene Trichloride Ethylenediamine Fatty Acids Ferric Chloride
0.0035 0.0208 0.0417 0.167
,
,
t"'
..,0: ..,p
te:
60 .fluid unlikely to be compalible excellent degradation rating
0-10 0-10 0-10 0-10
.. ..
solulion
7
120
<9
0.0208
9
23
0.0208
9
23 23 23 23 23 70
0.0035 0.0208 0.0417 0.167
9 8 8 8 8 8 2
9
....
>480
3
>480
3
90
0.0208
8 8 9
90 90
23 23
0.0208 0.25
9 9
0
90
23
0.25
9
0
54 ..
) 23 54
t
0
0 0
"
recommended for use
0
.
no effect .. moder: to severe eflect low perm_ rate; 0·112 eyedropper size drops/hr•. very good perm_ rate: 1 to 5 eyedropper si;e drops/hr. excellent; .very lillie degrading eflecl: very well suited for use
"
no steady state perm. rate detecled excellent degradation rating
0 0
"
"
" 0 0
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film Pioneer Sianzoil N-44; glove lilm
·..•
" "
fluid has little to no eflect fluid has severe effect
DuPont Neoprene
no steady state perm. rate detected
Pioneer Stanzoil N-44; glove film
recommended lor use fluid h,as Iiltle to no effect excellent; very lillie degrading effec!: very well suited for use
DuPont Neoprene
~~.
23 23
Freon 11
0
0-10 0-10 0-10 0-10
0
ffuid has liule to no effect
lIu~..has.liU.le..to
23 23
0
unsatisfactory for U$8 recommended for use
<0.9
" DuPont Neoprene
.. ..
t20
0
unsatisfactory for use recommended for use
"
'.
DuPont Neoprene Pioneer Stanzoil N-44; glove film DuPont Neoprene Pioneer Stanzoil N-44; giove film
" mi~9t!9mM~r. effect
8
C/)
;:l
3
Material Note "
unsatisfactory lor use 31
23
r;' C/)
6 3 8 8 8 8
4
37 37 37 37 37 40 40
Freon 112 Freon 113
Resistance Note
Rate
8 8
Formaldehyde
~ tEo
.J LDL t,11
8 8 8 2 8
~
70
~
BTT
(mln.l(pp~h h19/C,!!~!~!,!,J
6 8
23
Ferric Nitrate Ferric Su Ifate Fluoboric Acid Fluorobenzene Fluorolube Fluosilicic Acid
El
Weight
2 8 6
, solution
© "1:l
Permeation
".Change
POL Rating, 2
23 23 23 23 23
Formalin Formic Acid
Load
.
no perm. detected during a 6 hr. test
·
0 0
0
0
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove tilm Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm
2 6 5
unsatisfactory for use .lIuld has liltle 10 moderate effect 'fluid has 'l'inotto moderate effect
DuPont Neoprene
6
minor to moder. effect
0
8 8 8
........ recommended for use lIuid has Iiltle to no ellect
"
" 0
" 0 0
@
'.
% Change
'tl
is' VI ~
(%)
r;' VI
f1? VI
Reagent Note
Reagent
Conc. Temp.
t"'
& .., p
..,
(days)
c"C)
~
23 54,
Freon 11482 Freon 115 Freon 12
::,:
,
u::
23 23 23 23 23 54
Freon Freon Freon Freon Freon Freon Freon Freon
13 1381 14 1428 152A 21 218 22
Freon 31 Freon 32 Freon 502 Freon 8F Freon C316 Freon C318 Freon MF Freon TA Freon TC Freon TF
; 0.0035 ; 0.0208 0.0417 0.167 <
an
I
I,
LDL Rale (ppm) (~g/cm2/mln.)
Resistance Note
Material Note
recommended lor use lIuid has little to no ellecl fluid is likely to be compalible
" " " "
.".
recommended lor use
·
\
".
8 9 8 8 8
>480
0.03
0
0-10 0-10 0-10 0-10
8 8 8 8
"
no steady slale perm. rale delecled fluid has lillie 10 no ellecI excellenl degradation raling
Pioneer Stanzoil N·44; glove film DuPont Neoprene Pioneer Stanzoil N·44; glove film
"
~
o.
,
.54
.;
,
8 8 8
i
8 8 6
, .~
DuPont Neoprene
recommended lor use
I
"
" "
"
·
......
,
" "
··
,
minor to moder. ellecl recommended lor usa
7
120
• 0.0035
8
0.0208
9
23 23 23 23'
0.0208 0.0208 0.0417 0.167
8 8 8
23
0.0208
23
0.0208
unsatlslaclory lor un recommended for use
0-10
0.03
0 <0.9 <9
·
'IHh~leady.state.·perm.
rate datected low perm. rete; 0·1/2 eyedropper size dropslhr. very good perm. rate; 1 10 5 eyedropper size dropslhr. excellent degradation rating excellent; very little de~reding eflect; very well suited or use
·
9 0-10 0-10 0-10
excellent degradation rating
" .;
• ;H••~·• ;.·H 1
8 ..
~.
" " " " "
"
>480 240
,
,
·
reco!Jlmended for use minor to moder. ellect
Pioneer Stanzoil N-44; glove 111m Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove film
" "
" irilnoilomoder. ellect riot recommended
••. 6
" " " " " "
"
,
9 8
23 23
.
"
lIuid has little to no ellect
8 8 8
b,.,.·},.,.",.·.,.,·,.·.·.
"
" " " "
recommended lor un
8 2 ;
· ·
,
minor to moder. ellect recommended lor un
8
,
"
fluid has little to no ellecl
8 •
"
I
8 23
"
·"
8 6
;
,}
"
"
8 8
,,,
Freon TMC
::D
Permeation (min.)
f!!ting
8
23
()
J:lPL
. Weight
a
23
Freon TP35 Freon TWD602
Load
8 8 7 8
Freon 114
to· ;:l
Time
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
,
DuPont Neoprene ;
" c..:>
Chemical Resistance - Polychloroprene (Neoprene) Rubber
N <0
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
w
<:)
::Il
Reagent Fuel
Oi~
I
~eagent Note
.
#6
acidic
MaterilllNote
I
I"'}.
le. l. '"
~
J
IU','!.
I
.;'!
~.
( "':c""" ".. ,
".:.....
DuPont Neoprene ,{,;
Fumaric Acid Furan Furfural
6 .. furturan,. 2
2
6"
200
<90
6'
120
<90
f, Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline
good; mino~:d~radmg' W.ec); verv.t welr~iii.\~d for ~se\
""A
:~;::-
DuPont Neoprene
Esso Golden super Shell 0.2
96
0-10
0-10 0-10 0-10
@
~
Glycols Greases
>l ~
r;en
15' en
<6' ::l
t"'"
.,0: >l ., \t:
Green Sulfate Liquor Halothane Halowax Oil Helium Heptane
',","
m~or :egrtfif:l~f;~~ilabfe~;:~(
white
Glycerin
_.\F?:'::~:,:..·· <~
•
8'
96
Gear Oils Gelatin Glaubers Salt Glucose Glues
._.
. . t1~id ha~J11iilOr}otiioderate e,n~CI
5 5
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Texaco 3450
Pioneer Stanzoil N-44; glove film DuPont Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
DuPont Neoprene
glycerol
Keystone .87HX light grease Shell Alvania .2 Sunoco; all purpose
N-Heptane 124
0.02
12
Pioneer Stanzoil N-44; glove film
@
"tJ
po ~
n'en tl en
Reagent.
Reagent Note
cone., Temp. (%)
23'
Heptane
23 23 23
(1)
to;:l
t-
o:., l:l .,
('C)
Hexaldehyde Hexamethyldisilazane
-
N-Hexaldehyde
I
1% Change Time (days)
Load
POL I Rating
0.0035 0.0208 0.0417 0.167
<.c::
Permeation
an
(min.)
I I
LDL Rate (ppm) (~g/cm2/mln.)
0-10 0-10 0-10 0-10
8
8 8
8
23,
Weight
"8 6"
50
. 6
60
Resistance Note
Material Note
excellent degradation raUng
Pioneer Stanzoil N-44; giove film
I
use
DuPont Neoprene
23 23
0.0208
9
23
0.0208
9
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
"6
DuPont Neoprene
~:.-
'·.exceli~nt; very .lIItle. degrading eftect; very ",~lIsulted lor use
Hexane
N-Hexane-'
6 6 ., n-Hexane
39
8 5 A
\~. 8'
0.08
36
45
<900
90
<90
Pioneer Stanzoil N-44; glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm
0-10
Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
0-10 0-10 0-10
Pioneer Stanzoil N-44; glove film
6 9 :;~ ~~
.__
"exy. Alcohol HEF 2 Houghto Safe 271 Houghto Safe 620 Hydraulic Fluids Hydraulic Oils
_.. _.
._
DuPonl Neoprene high energy fuel weter &glycol base Sunsafe; fire resistant Univis 40 petroleum base PRL-high temperature
6·'
:6 tl
Hydrazine
"ttl"
',:9
~;;,
65 65 65 65
Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
petroleum base
()
:0
23,>.
·,·23
:i2~
]~
·~;':8
>
8 .'
~
~'8
8
~
>480
0.7
0-10 0-10 0-10 0-10
o
:,', ". ""'"",'_ :~~~~: ::::V ,.~~::.:
".~.'
" no $f.lidY.$\at. perm..rate deiected ';, .j~~~lenl ~g;8dallon ......
;~
...
rati~g
fJf.t~~~., ..,,;
?'
0.0208 0.25
0
0.25
0
Pioneer Stanzoil N-44; glove film
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm giove film Ans. Edm. Neox; lined glove film DuPont Neoprene
;,
40
Hydrocarbons
:.,
0.0035 0.0208 0.0417 0.167 0.0208
..
saturated
/:'" .:~
(,,) (,,)
Chemical Resistance - Polychloroprene (Neoprene) Rubber
......
c..:> c..:>
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
N
:D ==
Reagent Hydrochloric Acid
Hydrochloric Acid
Reagent Note
I
conc'l Temp, (%)
('C)
cold hot
'S~"" 0' en
I?en
to·
;:s t-'
0: .,
.,!=l
\t:
POL I Rating
Weight
BTl (min.)
I I
moder. to severe efleet unsatisfactory lor use excellent; very lillie degrading efteet; , ", .very well suited tor use
0.0208
9
23 23
0.0208 0.25
9
o
23 23
0.25 0.0208
9
o
10 10 10
23 23'
0.0208 0.25
9 9
o
10 20
23
0.25
9
o
23" .'
37 37 37 37 37.5 37.5 37.5 37.5 37.5
48 <65 <65 >65 >65 75
excellent; very mile degrading effect; velY well suited lor use
0.0035 0.0208 0.0417 0.167
-
8 '8 8 8
>480
4
o
0-10 0-10 0-10 0-10
minor to moder. efleel unsatisfactory for use fluid 'has Iiltle to no efleet , "}i~id bas severe efteel rio. sleadY. stale pe(1)l. rate detecled \;xcellenl degradatlon'ialing
6
'-ininor 1o mailer. efleC1
8
lIuid has lillie t~' no elleet
23
5 9 6
>480 60
23
6
75
23 23
8
fluid has lillfe to no elfect
0.0208
6
~ery Inlle degrading'eflecl; s~ltable
0.0208
6 8
23
:-~
23
Material Note DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPonl Neoprene
Pionear Stanzoil N'44; glove film
'
.:~.
DuPont Neoprene
;f1uid, has minor to moderate effect
o
,;~ 4i~~dY Slate perm. rale detected
,':.
u~der caretul use
recommended for use \0 severe eflecl unsatisfactory,t0r use
Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
m~d~r.
4
2 2 ,:. 23
5 6 8
::: .~
Ruld bas minor \0 moderate effect
.>.
-
,:3
5
·4 6
7
0.0208 0.0208
\ ..;6
30
;:
30 30
;, 2
2-3
5
.
• } . , fMd~as'linle to no
8 8
(,-
minor 10 moder. eff~
:'<.'/ee,~mlnended for ~se' . \~"':'~' ;:-;:",::.'
8'
30 90 90
a6 hr. lest "
23
23
Hydrogen Peroxide
nc; perm. deteeted during
lIuid has lillie to no efleel
9
:t
no perm, deleeled during a ~ hr. tesl
9
23 93
,
gas, cold gas, hot
."
9
8 6 2 8 2
23 23 23 23
Resistance Note
LDL Rate (ppm) (~gtem2/mln.)
23
anhydrous
cold hot cold hot
Load
4
48 48 48
@
(days)
Permeation
2
48 48
Hydrofluosilicic Acid Hydrogen
Time
3 molar concentrated
Hydrocyanic Acid Hydrofluoric Acid
I
% Change
e~ect:
[~~~r~~''''r, hif;Y'I!tl18 ffi~r;~:· d.g!ac,;;;g ef(,cl;sullable
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
@
"1:l
po ~
Time
Reagen,t
(day~)
ri' m
~
Hydrogen Sulfide
m
<E' ;:l
s.:0., .,P
II~ad
Material Note .. ,~:.;
.Jecommend~klorusS"'" . mino/to mOdei~"ffect' . racomm~nde(f for use
dry. cold dry, hot wet, cold
';"~
DuPont Neoprene
mino'tofij~d!~;:.~ti~ct·
wet. hot
lIuid has tiUle lei'rio ellec!
Hydroquinone
u::
,.)\ (miitislactilry)o(usa
.2,.. saturated
0.0208
exc~lIe~t; very liUled,g';ading elleet;
"9"
very well suited for use' .....
u·
Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Iodine Pentafluoride Isoamyl Acetate
o
<0.9
o
<0.9
f!l~~erm. rale; 0·1/2 ~Yed;~pper size'· d,ops!hr.,.,
,
'minor to moder. effacl unsatlsfaCf~~ I(;,:osa . minor ton;ode;:;ii;ct
Swan Finch
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
>'iuHs~tis.fa~\~(Yd?;;use 30
312
10
<0.9
\~::::::'
Pioneer Stanzoil N-44; glove film
0-10 0-10 0-10 0-10
Isobutyl Alcohol
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
Ans. Edm. Neox; lined glove film
o
<0.9 DuPont Neoprene
Isobutyl n-Butyrate Isododecane Isooctane 60
<90
360
<0.9
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm gtove film Ans. Edm. Neox; lined glove film
Isophorone Isopropyl Acetate Isopropyl Alcohol
ketone
DuPont Neoprene >60
isopropanol; IPA
0.000 6
o
Pioneer Stanzoit N-44; glove film DuPont Neoprene
isopropanot; IPA
0-10 0-10
Pioneer Stanzoil N-44; glove 'ilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
()
:D
Chemical Resistance - Polychloroprene (Neoprene) Rubber
U) U) U)
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
(")
W
::JJ
-t>-
"'T fOC~~n,ge
, Reagent
Reagent Note
conti Temp. (%1
Isopropyl Alcohol
isopropanol; IPA
('CI
Time ILoad '. (days), .
Bitting,
i8
0.0417 0.167 0.25
23
0.25
9 <5
23 23 23 23
0.0035 0.0208 0.0417 0.167
8
---i
WeI9~!
.:.:.:.:-:,::.',,""
23 23 23"
Isopropyl Benzene
Isopropyl Chloride Isopropyl Ether
PDl 8
p~U!~~~ni~l an 'I'L~~1 ~ale
("il~:l J!111'l11 Jf\9!~rt,2/mln.1
0-10 0-10
9·,
'6,.
4
1
41
o
<0.9
o
<0.9
0.4
216
0-10 11-20 21-30 >30
JP 4 JP 5 JP 6
Kerosine
>480
23 23 23 23' 23
0.0208 0.0208 0.0417 0.167 0.25
8 8 8 9
lacquer solvents
po r;'
'f?" tEo '" ;:l
t'"'
0: .,
.,
l=l
Lavender Oil Lead Acetate Lead Nitrate
with ethylene oxide
:~~:
low perm.'rale; 0-1/2 eyedropper siz~:~ dropslhr.· .. .~ fluid has severe e/fect excellenl degradatio~ laling , excellent; very Iittle.degrading ~ffect; very welt·suiled. for use"
0-10
.:
0-10 0-10 0-10
~~
excellent degradation 'rating
o
<0.9
Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film DuPont Neoprene Pioneer Stanzoil N-44; gtove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm Pioneer Stanzoil N-44; glove film
. low perm. rate; 0-1/2 eyedropper size drops!~r. ,
Ans. Edm. Neox; lined glove film
~M~\!§~~@x for use
DuPont Neoprene ..
20,' 2
23
DuPont Neoprene
liiildeiAil's&vere effeC1 ,.' no steady slale perm. rate detected
9.,
,~
fluid has severe eifect.
8'
85
23 23
0.0208
2 8 8 9
85 85
23 23
0.0208 0.25
9 9
o
<0.9
85
.23
0.25
9
o
<0.9
36
23
0.0208
'9
36 36
0.0208 0.25
9
9
o
36
0.25
.9· --2.-,-
o
'1:l
Lauric Acid
o <0.9
-
cold hot
@
~
5.0e05
2'
Lacquer Thinners Lacquers Lactic Acid
.
>360
2 8 9
;~tlng
u.
9
0.0035 0.0208
Pioneer Stanzoil N·44; glove film
~
9
23 23 23
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
.iM~h~~ie~~re e/feci
4
23
lOW perm. rate; 0·112 eyedropper slie drops/hr. " .
.·····@M\@M@xlqrlJse.. ...." rijiiWtloseVeieeliec( .
.·2,<>. 2 2
--
Pioneer Stanzoil N·44; glove film
fair d~g;adation
4
23 23 ·23
'excellent degradal,ion raling
P~~f~~~!M~\\9r!"li.ng.
23
Jet Aircraft Fuels
Material Note
exc,ellenl degradation rating good degradation.rating .
.2
---.:
Resistance Note
recommended lor use 'unsatisfactory for use recommended for use f1ui.d has,!iltle to no, effect . /. excellent; very lillie degrading effect; very well'suiled lor use' low perm. raie; 0,112 eyedropper size' drops/hr.· '.'
... excellent;veiY.l!ltl~ degralliiiiiell~cif
.ve.'1 w~1I surted for use ....
no perm. detected during a 6 hr.·tesL
unsatislactory for use
W\r~ii~';p~~~.' . efleci (M§mm~M~~ for use
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
@ ~
sCI>
~
n' CI>
~ CI>
fl' ;:l
t-<
0: ..,
..,~
It:
Lead Sulfamate .. Light Oil Ligroin Lime Bleach Lime Sulfur Lindol Linoleic Acid Linseed Oil Liquid Petroleum Gas Liquimoly Lubricants
(~~t~~~~d;~\~;:~sl'
DuPont Neoprene
mjric1ric1'~od~':~ii8~t .;
':~;
DIE petroleum ether of benzene
·2,
hyd. fluid; phosphate ester type
2
LPG H2; high viscosily U4; high viscosity
Lubricating Oils
di-ester petroleum base SAE 10 SAE 20 SAE30 SAE 40 SAE 50
Lye Magnesium Chloride
solutions solution
Magnesium Hydroxide solution
.70
saturated
'23 ....:./.
0.0208
;;<~~
0~0~~8
Magnesium Salts Magnesium Sulfate Magnesium Sulfite Maleic Acid
.) uns~tisl~lory'f~rus~,{"
23·
!~I~~~!~!
o
9.
o
0.25
Maleic Anhydride Malic Acid Mercuric Chloride
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
solution
Mercury
vapors
Mesityl Oxide Methane Methane Dichloride
ketone
;flu~_~asli\lI;191l~&~~{ .
.·.··\T;;;!j~~~~Z;~~~;lj,;~ 6 0.0035
()
::D
1434
Pioneer Stanzoil N-44; glove film
11-20
0.0208
21-30
0.0417
21-30
0.167
21-30
Chemical Resistance - Polychloroprene (Neoprene) Rubber
U) U)
01
(")
t3
Chemical Resistance - Polychloroprene (Neoprene) Rubber
m
~ .. ;","
.~.{« •~ . •. •. '.•.g.'.!itti Methyl Methyl Methyl Methyl Methyl
Acetate Acetoacetate Acrylate Acrylic Acid Alcohol
1.. '>.'
~eagen!Note
ICO!lC' I.T.emp'.1 Time. '.I,.L.Jadl·'~~L. (.?'oj. ('Ch , (days)···... . Rating '. .;
6 2
.•j'..
minor 10 mOder.elteet unsatislactory for US8~
Materialti0te , ." DuPont Neoprene
minor to fuodllr. el~eci
6
6 methanol
8: ·8
>60
.il 23 23 23, ·,'23
methanol
,23
methanol
Methyl Methyl Methyl Methyl Methyl
Resi~tance Note
'.
Benzoate Bromide Butyl Ketone Carbonate Cellosolve
. 23
7 ,. ,8 ., '.8
0.0208
9
0.0208
6
recommende!! for use no sleady.stalil··perm. rale d~.tectei. tecomineM~d lor use'
low perm. raI8;0.1/2 eY~dropp~r slle •••;dropsll1r. 15 <0.9 ".... 0-10 ex.celle!lnje9i~detionratlog .. (. 0 - 1 0 " ; ..
8
0.0035 0.0208
0
60
<0.9
i.,
~~~ellenl; ~erYllt~l;degr~dlngeff~~t
0.0417
8
0-1 0
0.167
8. .8
0-10
Pioneer Stanloil N·44; glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanloil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove fiim Ans. Edm. Neox; lined glove film
very .,.ell Su\led fot·use'···· very IltU~ degradJ~g ellect; suiteble . under carelul use . excellerit~eg;~dati~n ra'ting
Pioneer Stanloil N'44; glove film
~/:::\., .t,uid has liU.I~, 10 no etfecL;
" DuPont Neoprene
2' 2 2
i
2 .6 5
25
<90
"7
70
<9
0.0208
6
0.0208
9
mlnQrto mOAAr. elleet ...•• gpod·perni. ral~;'$:$O e~edropp'er'> · •. slz.il:drops!1lr'.:ir,. very g60d!ieim.rale:i'10 5 eyedrOPPer size dropslhr. very nille dilg;~lfnigefieet;·suilable under earelul use ",.
el<eeIl8nl;very·ilii"'degtadlng.ell~CI;
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
very well' s~ite,d fo.t use .
f
Methyl Cellulose Methyl Chloride Methyl Chloroform
e.
"{23"
unsalistadory for' use
0.167
27
1182
"...
.>
'1
0.0035 0.0208 0.0417
po ~
0.167
,,6 8 8
Pioneer Stanloil N-44; glove film
>30 40 ';
42
~
monomethyl ether
~
Methyl Ethyl Ketone
MEK
DuPont Neoprene Pioneer Stanloil N-44; glove film
ex.celle,~1 degnid~lion rating
0-10 0-10 0-10 0-10
".
unsali$fa~to(y
Methyl Cyclopentane Methyl D·Bromide Methyl Ether
DuPont Neoprene
21-30 >30 >30
". 2';~M~!~jMt\j\ttO(US8.
@ '"
tl
m!~?r to·mOder,.elfect ...."";. •••••
2
, 3 ' 23 0.0035.4 23 0.0208 1 .23 0.0417 1-
Methyl Chloroformate Methyl Cyanide
~.
6
for use
DuPont Neoprene
tE·
0: $3 ....
tr:
"
22
:;.;-->.
9 3 0 . > ; /••. f1uld:has sevet. elfeet' .
Pioneer Stanloil N-44; glove film DuPont Neoprene
@
'i:l
po
.:~
Reagent .'
~
ri' (I)
~
Methyl Ethyl Ketone
Reagent Note
MEK
,;~:)c·:ht.~fI~i:; ·,23· 23
(I)
.::.23 ,2\3 23 23
;:l
t""
u::
% ~h~!,ge Welghl
.• ~ating
0.0035 0.0208
2
8
0.0208 0.0208 0.0417 0.167
2 6, 6 6
Permeation
'> BTT
I LDL 'I,' ".
Rate':
(~I~.)(ppmJ !f\~({~~m[Wlt
---
Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Glycol Ether
goOlf dagradallon!atlng
5"
25
<90
23
7
70
<9
6
.23
0.0208
.•·9
23
0.0208
3' ····:'1
23 --.-.
0.0208
23
0.0208
·23' .
0.0208
-'-
Methyl Iodide
Methyl Isobutyl Ketone
C23
MIBK
12
good perm, ral.e; 6·50 eyedropper size dropslhr. very good perm. rale; 1 IQ 5 eyedropper- size dropslhr. very mile da~radlng ellecl; ~uila6le : under careful use ....•. alcelleni; v~;"; lillie d;grading~lI~cl; .••...'..·.very ":.1' s~ile~f.or use .•• '
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film
23'
0.020B
unsatisfactory for use not recommended
1
.23.
0.0208
ruse
1
MTBE
Methyl-2-Pyrrolidone (N-)
NMP
0.0208
'.
DuPont Neoprene
unsatisfactory for usa
i23·.
0.0208
23
0.0208
23?
0.0208
Methylamine
·····p~or;·pion6uii.~MijMiadlirg::en~j;
2
i!86111u$e
.,
not 'recommendad u
1
23
"7
270
<90
23"
'9
360
<0.9
23
0.0208
!l
23
0.0208
23'
0.0208
~;
8 2 1
0.0208
monomethyl aniline
'::::"
23.
2$
"3 0.0035 0.0208
'6 1
good perm, 181a; 6·50 eyeqroppe, . ·size9ro~sfhr. low perm. rale; O·1I2·eyedropper size. , dropslhr, ••• good; minor d'agradlng effect;' very w.ell suna.d for use • use
'2>
Methylene Chloride
.
2
.-;t"
6
11·20
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film
2 23
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film
not recommended
1
2'
Methyl Oleate Methyl Salicylate Methyl t-Butyl Ether
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film Pioneer Stanzoil N·44; glove liim Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film
1
2" 2"
Methyl Isopropyl Ketone Methyl Methacrylate
Methylaniline Methylene Bromide
DuPont Neoprene
nol recommended
1
Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neol; lined glove film Pioneer Stanzoil N·44; glove lilm
~nsalisfaclory10r usa minor to mOiler. ellect
3702
"2
M~t~rial Note
.".1:•••.
tl-20 11-20 11-20
6
0.0208
~(
axe.llenl deg(ll~aliOn raling;' poor; pronounced degrading effect; avoid usa ....
2"
23
Resistance Note
0-10
:,~.
16' & .... I:l ....
LoadIC~DL
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined gleve film Ans. Edm. Neeprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neel; lined glove Iilm Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neol; lined glove film DuPont Neoprene
·noiiecommended
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm giove fiim Ans. Edm. Neol; lined glove film
unsal($iaCtoryfo, use
DuPent Neoprene Pieneer Stanzoil N·44; glove film
1434 ,gooq degradation rating.
n.oirecolllm~nded·{:
0.0208
u·
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm gleve film Ans. Edm. Neol; lined glove film
w
(')
:n
Chemical Resistance - Polychloroprene (Neoprene) Rubber
W --.J
c.u c.u (X)
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
::D ;:.;,.;'..... : •..,;:
ileag;~t :~:,
I
Reagent Note
Conc; Temp. (%)
:/::.::
I
"% C;hange
Methylene Chloride
('C)
Time
Methylphenol (m-)
23'
0.0208
'4 ...,
21-30
23
0.0417
21-30
23
0.167
4 4 2;·
monomethyl hydrazine
6
m·melhylphenol
'·is''23
0.0208
a
0-10
0.0417
a
0-10
23
0.167
8
0-10
·s 8
0-10
23 ,.,., 0.0208 23 ' 0.0417
8 8 8
0·10 0-10
Rule 66
Rule 66
Morpholine
'tl
Ei ~
.,
SO
8
0.002
12
<s
0-10
Pioneer Sianzoil N-44; glove film
v~ry good perm. rate; 1 to 5 eyedr~pper
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
size drops/hr.
Pioneer Stanzoil N·44; glove film
excellenl degradation rating good; minoide.Qrading alle~l; yery well suiled'ior use'
23
0.0208
8
23
0.0208
a
23 23
0.0208
8
0-10
0.0417
0-10
23
0.167
23
0.25
a a a
23
0.0208
2
23
0.0208
2
T excellenl
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
degr~dalion raling
Pioneer Slanzoi! N-44; giove lilm
0-10
o
low perm. rata; 0·1/2 eyedropper site . . . ,: .. }frops/hr. . .
Ans. Edm. Neox; lined glove lilm
. poor; pronounced'degrading elletl)' 'avold use
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
«
Ans. Edm. Neox; lined glove film
moder: to severe effect
DuPont Neoprene
liuid fluid >480
23 23 '
0,0035
a
0.0208
9
23,.
0.0208
8
0-10
23
0.0417
a
0-10
4
o
0-10
a
0.25
o
10
j~)
0.0208
'9 ,'S
10
23.
0.25
9
o
'i':
h~S seyere effect
Is IIkefy 10 .be~~rn~l\li~le,,-
no steady<sl~le:perll(filiiiliMeelea:
excelienCd~gra:d~lion raling excellenl;~eiy 'Iiltle'~~gr~di,ng,eUe~!; .,. very w~\1 suned lor use ~xctllenl :deg'radation rating'
0.167
Ul
I=l
7. 0.0035
DuPont Neoprene
"JIRidb~~,ti!JIMo no effecI 126
23" '23.'"
n-Ul
u::
recommended lor use 'minor 10 moder: elleC1
"9'
@
Mustard Gas Naphtha
0-10
23 - 23
Shell turbine oil 307
t'"'
nos(eadyslilliipeiin. rale detected
Pioneer Slanzoil N·44; glove film
excellent;~egradallon ratlng .
6
23
Muriatic Acid
0: .,
o
Esso SAE 10
;:l
5
. riiilit~~dli$~il(iiplirin. rale datected' . 'exc~lIe';l degradatIon rating'
8 ,.-
23
DuPont Neoprene
o
8 6 6
Rufe 66
to·
>480
0.0035
Univoll #35
Pioneer Stanzoil N-44; glove film
minorIo moder, effect
23
Mineral Spirits
C1l
. fair degradation rating
>480 0-10
0.167
Material Note
unsatis.factory lor use
8
3·methylphenol
Resistance Note
fluid has severe effect
0.0035
23
tl
I
21-30
23
23
Motor Oils
Permeation .,: BlT" LDL Rate (min.) (ppm) r~g/Cm2imln,1
2
23
Milk Mineral Oils
Load '.1'(P.'. DL • Hating
(days)"
38
Methylene Dichloride Methylhydrazine Methylphenol (3-)
'1
Weight.
Pioneer Stanzoil N-44; glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoi! N·44; glove film
0-10 no perm;
dete~ted dJring a 6 h~. test'
excefle~t;ve/y lillie degrading'etfect; 'very ·wall suiled lor use
no perm. detecied during a 6 hr.
ti .>
rec.om"lel)de,d ..lor. use.
\L'~;f:
.• unsat.~f8ctOrY for Ose 126
0.002
12
.-.
. .'....
..
.".: -
':::~:.
:'~:::.'
: ,.
~eSI'
Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film DuPont Neoprene
"
Pioneer Stanzoil N·44; glove film
@
"1:l
i:i ~ ",.
'"
~
Reagent
Reagent Note
Cone. Temp. ("')
Naphtha
I
1"0 Change
VM&P
Time (days)
('C)
'"
23 .
unsatisfactory for use lIuid has severe effect
DuPont Neoprene
2
unsatisfactory for use' recommended for· use unsatisfactory I.or use reco.mmended lor use
23
0.020a
5
(1l\'~ij{JlPm) (~g/cm'2/mln.) <900
0-10
a
0-10 )
o
<0.9
2
8
3 molar concentrated dilute inhibited red fuming; IRFNA red fuming; RFNA red fuming
.~::
23
2 6 6 6 8 8 2 2 8 2 2
• ,,~n~~ti,st~ct~1)' for use .' mlnoij~ii\M~r, ellecl
2
. lIuid has sellere ellect riot recommended
~
recommended tor use unsalislactory for use
1
0.0208
1
10 10
23 23 23
0.020a
5 9
10 10
23 23
0.020a 0.25
9 9
o
0.25
9
o
70 70
•fluid i.as minor to moderafe el!ecl excellent; very little degrading effect; "try ~ell suiled for use
>480 0.000 3
8 8
8
a'
0-10 0-'0 0-10 0-10
:7
'~-: .~-
. -.
1
2
0.020a
5
w:
d!!dng a I; h~,Jesl' ,,~, ",
\::
o
X lIui~ has severe ;llec\ 2R~~~YSlalepeifll~r~!~'d81~S!8~;
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; tined glove film DuPonl Neoprene Pioneer Sianzoil N·44; glove film
excellent ~!g,adalionr~tJng .••••
~
'IIuid has'i'evere ellect
f2 23/;, .23·/····
~~' ibl~!!itd~lepled
2' "9
0.0035 0.020a 0.0417 0.167
~f~~I~tt:;:;:;::
unsatiSlactory for use
0.0208
···~:;;t
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
recommend.ed·for use'
'23
50
Pioneer Sfanzoil N·44; glove film
0-'0 0-10
8
50 50 50 50 60 70
::D
2 2
8 a 8
10 30
(")
Ans. Edm. Neox; lined glove film
VM&P
0.020a 0.0417 0.167 0.25
80
Nitric Acid
low perm. rate; 0- i/2 eyedropper size dropsl!ll. minor degrading ellect; suilable under caleful use
Weight
15
2 8
23· 23 23 23
Naphthalene Naphthenic Acids Natural Gas Neats Foot Oil Neon Neville Aeid Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film OuPont Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neox; lined glove film
8
70
Rate
fair perm. rale; 51 10 100 eyedropper· size dropslhl. lIuld hes severe effect 'excellent degradation rating good; min~r degred(ng effect; very well suited lor use excellent degradation raling
VM&P
It::
(LaL
Material Note
0.0035 0.020a
..,0: >:l ..,
Permeation Resistance Note
u9,
23 23
;:l
t-<
R~~k\l. 4
23
lfi'
Load
en
j
140 fluid hes severe eJlect . .. minor degrading e~ecl; su~a.ble .mder: :( "!!I~l~rl!~,,,
Chemical Resistance - Polychloroprene (Neoprene) Rubber
DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film (U (U
<0
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
:n
~
o
Load
Reagent
~
70
Ans. Edm. Neox; lined glove film
o
70
Nitrobenzene 60
120
f1uiq I>~~
exc~Il~~t
0-10
sev.~;~ effect
degiactaij(;ri raling '. riC;(,e¢omm;i1ded' '
0·10 0-10
DuPont Neoprene Pioneer Stanzoil N·44; glove film DuPont Neoprene Pioneer Stanzoil N'44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove film
0·10
Nitroethane Nitrogen
'11o der. 10)ie'~~iW~i!gl textroxide N204. 1
Nitromethane 95.5
60
<9
95.5
90
<0.9
95.5 95.5 --
Nitropropane
95.5
2.\: 3 .•.•
95.5
6
,~!~\~:;~~1~~~:; <; ··'ro~~[:.io,~~#:!f~~li~fl\j
ve,y 900d·pe(!!,\!~I,~,',;,I. to 5., '. eyedroppef s£~elif01!~r:. iow perm. '81.;0:112 eyedioppef Si.ze /\:dIOP,f.Ih ',} excenenl; v.ery.lJIlle deg,ading"ejtecl; •• veri:~~~~s~~~JoriJ:~M;'
',.g
un,salislaclO,rf lor..use... ...
5
<900
60
<90
,.;~;~~~~/ ·O)inocdegrading.ef(ect: ~u~able .\l1lder . . .·;i·i··" carefuH'se.··,·. •.••,.
95.5 95.5
Nitrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol
40
N·Octane
<0.9
>420
<0.9
~
60
<9
r;,
150
<0.9
0.0208
'1:l
S"
0.0208
Oleic Acid
4
::;.
~ r;, lEi' ;:l
t""
0: ...
...i=l It::
0.0035 0.0208 0.0208 0.0208
8
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPonf Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
good;min9(d~i~dmgelfeC1;verY' uns~tis!act?'rY'·!~r·.~se:.:
DuPont Neoprene
wen sunet\!9r:~~lt .........,. .
y;
.,~~i:~:~:~:'~;f;!i~~~:.;:t;;:,
~;:::
420
©
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
. with 60% dinitrotoluene
DuPont Neoprene
0·10
0-10
: ". ", ~in%W-tO,o~~r,~U~~t,ii •low perm. rahi;O>1ft:\lyedropper .$ize' · , ' fdrops/lii/': .•: "';'}" ••••••••/,: •. ...;~:-<:.::::.:. '" :::::,:-.. . ,....
;;~ie;;e:;~;i~~~!}~I~~~~~J~~~ff~~~., mod,r· ta~~~~iii~!ie~t' verY. goo~ pelm:',ale; 1)0.5•.. : ..
iii
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
@
1'l\:C::~~!UI~I;:
'U
po ~
n'VI ~ VI
~.
Reagent
Reagent Note
,(%) •.' " ('C) :'>~3
Oleic Acid
,
Oleum
;:l
u::
23
Load
(dIYI)
Rating
0.0417 0.167
8
8
.~,
.
20-25 .,. 23
Olive Oil Oron ite 8200 Oronite 8515 Orthochloroethylbenzene Orthodichlorobenzene OS 45 OS 45-1 OS 70 Oxalic Acid
as 45 type Ifl as 45 type IV
~.
0·10 0-10
:"/ ~s~\Slac\ory tor use
4 2
<;: .IIiMei,to sever~ effect . . ~·ti9j~!\~~@~@t~ effect
'6
'@i\Miil'lMWti ellecl
8 8
. i;.~ommended for use
2 2
unse\jslactory for use
8 8
"" recommended for use
Pioneer Stanzoil N-44; glove film DuPont Neoprene
';';;:'\iiijMilamild,'f' etfect
;;e~~!~~~~t~~;!i~!:!~~~d~~~
23 23
0.0208 0.25
9 9
o
23'
0.25
9
o
40 7
recommended lor use '. un~atisfactory lor use ... ~,
20%
3 0
'\l.g;acks·llfter 6hrs.. ·consid. cracks '.\.5,'" aller·1 day . ' bloke aftei,72,hour exposure
DuPont Neoprene; bl.pig.; 1.9 mm slab; weath.res.
20%
DuPont Neoprene
2
"unsatisfactory for use
6'
mino'r 10 moder. ellect excel'eOl;Ye(¥I!!llecleoradlng effect: .:. rerYWjjU~~~$ij for use
0.0208
9
0.0208 0.25
9 9
0.25
9 5
'9
o
no pgrm. 'detected during a 6 hr. lest ~;?
o >480
o
'7
6
<0.9
.7
6
<0.9
.23 . 23
0.0208
6
23
0.0208
6
6'
38 30
18 <900
23
7"
45
<9
6
':23
0.0208
9
.. drops/hr.
:::::::v,IYlitll$··degrading··:$.tfect; suitable .::::::.... . undercllreliil use ::iJ<: /" >.. .".: :.: >'.:"
4
0.0208
"ioii!permiiille; li~j)2'eyiii:iroPiiel$iili; .'
.23
'23
AMd~Mm.I~Mwm~derate effect r\o·Sie~dysiaiepiirrii. rale detected
.•!!1i~or!o moder. effect
6
Pentane
DuPont Neoprene
:.:}.;·iriodefto·~iiviiie ellect
23 >23
23»,
d'-iing a 6 hr. test
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm
'4
23
-
ellecl;
~
no p~rm. deteet~cj
2 2
-
polychlorinated biphenyls; 50% TeB
Material Note
"excellent degradation rallng
9
-40
Duco
~ ..
R~sls.tance Note
0.0208
23 70
:::IJ
"."
":.,:
23
93-149
saturated
()
Permeation
BTT (min.)
'8
cold liquid cold 20 ppm; tested per ASTM 01149
PCBs Peanut Oil Pentachlorophenol
I
8
Ozone
Paint Thinners Palmitic Acid
Weight
6' satureted
Oxygen
I PDL
2 ';'
fuming sulfuric acid spirits
t'"'
..,0: ..,~
Time
c.onc'l Temp.
, f~ir perm. rate; 51 to' ;yedrppper '/:'/ .••:size drapslhr. .':,jer'y good per";. rale; 1 10 5 .eyedropper size droiislhr• .verY Iitti; d'egrading ellect; suitable .••; . ."nder careM use •
100
,:,·excellent;· very·:I!III$::ll.ligradlng· elfect; •••.• very w~!@9M~ 101 use
Chemical Resistance - Polychloroprene (Neoprene) Rubber
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove Ii1m Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove Ii1m DuPont Neoprene Pioneer Stanzo!1 N-44; glove lilm DuPonl Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
w .j::>.
.......
c.v
Chemical Resistance - Polychloroprene (Neoprene) Rubber
o
::D
1,% Change 'Rea~ent
Rea~e"t Note
C. on~_1 Temp-i . Time
('C), (days)
10(%)
Load!; POL Rating I
Weight
60
23
0.0208
6 9
60 60
23 23
0.0208 0.25
.9 9
60
23
0.25
·9 2
Perchloroethylene
"
23 ,23
0.0208
23
0.0208
'23 23 23 23
0.0035 0.0208 0.0417 0.167
Petroleum Ether
o
crude
po
~
0'
28
0.0208 0.0417 0.167
126
a
0.002
iuisatiSlaciiiiy for use
DuPont Neoprene Pioneer Stanzoil N-44; glove film
!luid has seYere ellect not recommende!!
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove f!JP"
453
12
e~cellenl iitigra
0-10 0-10 0-10 0·10
8
ti
minor 10 mod~r: effect .:',
a
DuPont Neoprene
"
!'n~~w~~w(): for use
>480
0.2
o
180
<90
390
<0.9
"iiiisiiiadysiiite'ii'eiiiiNlIte~iitecfW
unsatiSfactory for use goodp~~. raiJ; 6-50 eyedropper "0 size drops/hr. low.perm_rate; 0-112 eyedropper size .. dropsJllr. > fluid has severe effect
!l~i;lIe'lt degf~datlon
0-10 0·10 .
rating
"
I·· e~celle~(
9 9 8
Pioneer Stanzoil N-44; glovefilm rating
, ";f:.
,~:/
verylil~! «18g.rading'effect; very ",ell slirted lOr use·.
\'i"
.. ,
,
eX:~11~~tdeg;ad!'ti9n rating
0-10 0-10
Pioneer Stanzoil N-44; glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N·44; glove IiIm
. ":::~
2
un.sati.sfactory for use
2
DuPont Neoprene
~ ..:
2 2 2
3 molar concentrated
mode.. to severe effect . unsatlsfectory t~; use exctillen!; veryliltle degrading ellect; .~~!Y'·well suite!! for use
4
2
2a,
0.0208
9
23 •
0.0208 0.25
9 9
23
o
".:."
no p!~. d~te~led.during a 6 hr. tesl ..
~::::
;:l
.,
0.000 2
2
0.0035 0.0208 0.0208
j
~
tt:
no perm. detected during a 6 h.. lest
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
2
C/)
~
8'
9
70 85
tEi· t""'
il
23
'23 23 23
C/)
0: .,
a
23
;13
saturated
1:l
DuPont Neoprene
2 1
2 9 2 6
23 ...23"'"
@
.(ecoinmende!!. lor use
6
.23 saturated
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
Material Note
6
saturated
with 30% H20 with 15% H20
Res!stance N~te
o
6
<121 >121
Phenol
I I
BTl LDL Rale (min.) (ppm) llig/c",,2!niln.)
.. •• minor to moder. effecl excellenl; very little degrading effect: .very ",ell suMd lor use .
4
Petroleum Oils
Permeation
a
Pentane (N-) Perchloric Acid
~ I\,)
23 20 20
0.25
9 6
23.
8
o ., minor io moder. effect
ii~id haslinle to no ~ff~~l
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neo.; lined glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
'~~~~ngEi
@
'"
p
~
Re~gent
Reageil~ Note
;::;. V>
~
conc.I'Tem.p;"'-Time
("} 45 60 70 85 85 85 85 85 85
Phosphoric Acid
V>
cEo ;:l
t
.,0P .,
u::
r~l
(days)
Picric Acid
~~'~ht .
air' :,'lDl .' 'Rala (iri(ri.) (ppm) (llg/cm2
/"1Wi
8
23 23 23·· 23 23 23
Reslstan.ceN'ote ,.•.
Material Note
minor 10. mOd~r. a.llaql fluid has little Jono ·effacl.
DuPont Neoprene
8
11 8 0.0035 0.0208 0.0417 0.167
2.3 23
8·,:
8 8 8
>480
0.04
0
no'steady Slale per""
rat~ dele9t;!
fluid ~aslilll~IOno effeSI excellenl·l!eg'rildaliQtI raling.• .--...._._..,- .... ":';.' .:"
0-10 0-10 0-10 0-10
~
Pioneer Stanzoil N·44; glove film DuPont Neoprene Pioneer Stanzoil N·44; glove film
;::::~.
fJ "~
u.::~ .
"2 "2
unsati$lecf9ry f~r u~e
...2
lIuid has severe effect
DuPont Neoprene
. 2""
--6
H20 solution molten saturated; with ethylene oxide
saturated; with ethylene oxide
7 8
23 23
0.0208
'9
23
0.0208
9
."
white
~:"
6 7
23 23'"
Pine Oil
POL Ral!1l9 6
23
Phosphorous Trichloride Pickling Solutions 17% nitric acid, 4% HF 20% nitric acid, 4% HF
Load
. ~:
~e'me'!tlon
150
<9
180
<9
very good ·perm.. rat.e; 1 10:5. eyedropper size dropslhr. fluid has liltle /0 no'eflecl excellent; v;;y liUla degradin~~;fecl; very' well suiled fOr use ....;:.; :: ... }\:. .-. :";" ..
..
unsat~lac.tory
2
.~;.,.;
for>use
'. ;';
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove tilm Ans. Edm. Neox; lined glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; tined glove film DuPont Neoprene
2'
Pinene Piperidine Plating Solutions Pneumatic Service Polychlorinated Biphenyls Polyvinyl Acetate Potassium Acetate Potassium Chloride Potassium Cuprocyanide Potassium Cyanide Potassium Dichromate
PCBs; 50% TCB
:"4:. 2 2 8 9
emulsion
6
chrome
recommende? lor use no steady state perm. rale delected
Pioneer Stanzoil N-44; glove film
minor to·moder. ellect.
DuPont Neoprene
recommended for use
8 8
dilute solution KOH
:::D
o
>480
8
solution
()
unsat~I~6i';;;; f.;t4~e
6
23
23 23..:
0.0035 0.020B
'8
50 50 50 50 50
23 23 :: 2,3
0.0208 0.0208 0.0417 0.167 0.25
::9
50
23;
2,~ 23
, fluid hes Iilli. to no eflecf
6 .8 ,9
70 50 50 50
-'~:.
8 8
Potassium Hydroxide
Potassium Nitrate Potassium Salts
moder.loseYere effect
0.25
>480
0.3
0-10
9
"8
8 8
o
, 'n.j~~f!~,moder.ef!eci flUid h~s'lillle'lo no 'effect nostead/~tai~~~;ir;,J~ie delected· excelle;;' degradllti
0-10 0-10 0-10
excellent degradation rating ,~;;
9;
0
9
0
no perm: detected:durinq a 6 hr, fest ~
'.,. .,.8:
:":':-\:
Ii
"
". .:.~y.::
.iecommended for use
Chemical Resistance - Polychloroprene (Neoprene) Rubber
'. u:."::;"
'
Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; iined glove film DuPont Neoprene
"" "" ~
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
W .J>. .J>.
::D
.M~te;ial Note
Reagent , Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Propionitrile Propyl Acetate
DuPont Neoprene
.m;;~~;~ moder; elfect 't .... ·unsetis!ectorY!oJ use,:.'
poor(pr';~otnci~d~\ii~d(ng eIJ~;
0.0208
aVOid' L'~'
0.0208
·WM!W1MI§lY!*@~a
Propyl Acetate (No) Propyl Alcohol
...
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film DuPont Neoprene
. : : . iecommeiidildlohise/ :./.
2~ 2~
··';-23' 23
150
<0.9
0.0208 0.25
~~w pe.'m:r~t~i~~~%~rQdihp~erSi~~
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
Ans. Edm. Neox; lined glove film
o
<0.9
0.0208 23
.
• ·,e~~7~'~:Y~~~!li~t~~~6~d~,~~ . ~~!Cb .
0.0208
Propyl Nitrate Propylene Propylene Oxide
Pydraul10E Pydraul 115E Pydraul 230E Pydraul 29ELT Pydraul30E Pydraul312C Pydraul 312E Pydraul50E Pydraul 540C Pydraul65E Pydraul90E Pyranol Pyridine
".;",
~.
low perm. r~le; o,I/2eY~d.'opper,size , ·:·,~r~R~!!'(. ,,~s~ti$ia~toiylor use.
DuPont Neoprene
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
0.0208
DuPont Neoprene
23
oil
26
702
@
Pioneer Stenzoil N-44; glove film DuPont Neoprene Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
~
E" ~
n' (I)
~
(I)
<E' ;:l
t"'
0: .,
.,
!=l tr::
Pyroligneous Acid Pyrrole Rapeseed Oil Red Oil RJ 1 RP 1 Rubber Solvent
DuPont Neoprene
MIL-H-5606 MIL-F-25558 MIL-R-25576
30
<90
60
<90
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
@
"1:l
P ~
Reagent
Vl
I
Rubber Solvent
Vl
15' ;:l
~
Rule 66
idays)
POL Rating
23
0.0208
:;
23
0.0208
("C)
solvent
0"
23 23'
23 23
Sal Ammoniac Salt Brine Santosafe 300 Sea Water Sewage Silicate Esters Silicon Etch
--
chlorinated
0.0035 0.0208 0.0417 0.167
~:
23
ILoLI"flit;.
8
8 8 8 8 8 2
332
0.03
0
0-10 0-10 0-10 0-10
Resistance Note
Material Note
minor degrading eHacl; suitable under <'"to c~\eful un' ." good; minor de~radfng effect; very ", w.ell sUlled for usa
Ans. Edm, Neoprene 29·840; unsupported 0.38 mm glove IiIm Ans. Edm, Neox; lined glove film
no sle~dy.slata parm. rate deteClad axcallenl degredet\on ~ting
Pioneer Stanzoll N-44; glove film
recomme-ndedfor use unsatisfaclory for usa
DuPont Neoprene
,
8
fluid has linla to no affact minotlo moder. alfacl "r~comm~ry~e,~.for usa
6 0.0208
8
'23 23
0.0208 0.25
8 8
o
23
0.25
8
o
,~gWdi··~~t~~~~t~I~'~~~!ivefj""':j , no per\", detacta~ duril1gil6 hr. t!st •
'8
• recomme-nded (O! usa
8
!lu~'l)i!~JjWe'~I'0alfect
'8
,. unsallsfactory,'or use
2 2
hydreulic fluid
". 23
0.0208
~
0.0208
----
noi recommendad
1
., . "uns,alisf~clory '.or use \ (1';'Ij'~~S seva,e ellect ~nsatis(actory for use· , recommended lor use ,;' f1tiid~a~ I,itlle to noeffecl r&Cqijiine-ndadfo(Cuse , rriinorto ~odar: affecl , ;e~li,rriended for use
2
2' 8 8 8
70
~~
r
baking soda
1
'2
Y'23
solutions
6
8 8 8 8
~
soda ash
,~ <.~::~.
8 solution
5
20
6"
NaOH
20 46.5 46.5 50
'" Uuiii'has]ittle'to 1\0 elml
;:" i~t; :"
8 8
,
9
v.',.
"ii, .··.mTri$fiomod~(:i~I.~1
if ::;.;;:;
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm, Neox; lined glove film DuPont Neoprene
';~~;~$!it\l~to nii ~f,a~l \!~~i~1J'~!:!fJ1:~~~~~~:'efl~ct
8
'8
Sodium Cyanide Sodium Dichromate Sodium Hydroxide
DuPont Neoprene
~
'2
solvent 8 solvent C solvent E
Ans, Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
recommeiidedfor use
8
Monsanto; hydraulic fluid
Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride
aTl
!~ln.) !!wml!!!~!fm2/m'n.)
23
-
Skydrol500 Skydrol 7000 Soaps
Walght
2
.:.
23
Skydrol
I
8 "
Silicone Grease Silicone Oils Silver Nitrate Skelly Solvent
Load
g-
., P .,
Permeation
1% Change
Time
Cone. Temp. ("')
I.
r;'
tl (1)
Reagent Note
>480
0.1
o
y"
i·~o.$.~~i~late;~;irn...~IM~'~I~
Pioneer Stanzoil N-44; glove film
w ()
:c
Chemical Resistance - Polychloroprene (Neoprene) Rubber
~
01
o
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
:::D
RllJrnll~f!~ri
,.. C\l8!lge
Reagent
Reagent Note
Sodium Hydroxide NaOH
Iconc.\Tem p.' Tim.e (%)
. ('C)
(days)
50 50 50
23 ·23 23
0.0035 0.0208
50 50 50 50 50
23 23 23 23 23
0.0208 0.0208 0.0417 0.167 0.25
50 73
23 23
0.25
I
Load·.• I}.·.·. .'fPl< fhlting
Sodium Sodium Sodium Sodium
23 .••
a il
a 8 9
23·.
i ;. • ,
,
~
fluid has Iinle to no effect
6
minor to moder. effect lIuid has Iinle to no effect
~
:;<::::~"
recommended for use
moder, to severe eflect fluid has Iinle to no eflect unsa.tisfactory lor use
.
2 2
'2
"
fluid has minor to moderate effect unSatislactory for use recommended for use fluid has linle 10 no effect
5
2
• •: a
f
70
8
unsatisfactory for use
2 23 <177 >177
8
lIu[d has lillie 10 no effect unsatisfactory for use
<
2 2
minor to moder, effect "fluid has minor 10 moderate effecl
6 5
~
0
7
23
0.0208
9
t
23
0.0208
9
;:l
lillie to no eflect ... miiioi!olrioder. effect recomm~Mil.d tor use lIIinor lJfu~~er. effect
f1uid~as
6 8 8 8
16'
., $:I .,
milloi'to·mcidi[eiiect
6 8 6
(I)
c:r
. !tui~ .h~S mi~orlo. !Jl9~.!ill.~!!~.ck
4 8
70
Stoddard Solvents
8
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove lilm DuPont Neoprene
a
Stearic Acid
(I)
no perm. detected during a 6 hr. lest
8
15
;:;'
degradation raling
o
!
23
dibasic mono tribasic
~
~
o
_1_ l." 6 8
Stannous Chloride
'1:l
.~cellent
0-10 0-10 0-10
9
23
S"
DuPonl Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N'44; glove film
9
8
23
@
fluid has lillie to no efieci degradation raling excelleill; very lillie degrading::e!fect·:;· very well suiled for use ':e~cellenl
0-10
i :
Sodium Salts Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil
Stauffer 7700 Steam
Material Note
6
solution
SR 10 SR 6 Stannic Chloride
Resistance Note
8 i': 5
Metaphosphate Nitrate Perborate Peroxide
Sodium Phosphate
IlDl I
BTl Rate (min.) (ppm) (~glcm2/mln.1
8
Sodium Hypochlorite 5 20
. ·welg~;
~ (j)
180
<9
very good perm. rate; I to 5 eyedropper size dropslhr. ~xcellent; very little deQrading effecl; .' very well suited lor use
..
Ans. Edm. Neoprene 29,840; unsupported 0.38 mm glove tilm
Ans. Edm. Neox; lined glove film
@
~
l=l
IJ> ~
Reagent
Reagent Note
IJ>
~
co,nc.1 Temp. ('C)
(%)
r;'
Stoddard Solvents
<E' ;:s
Styrene
I
Time
.(d.!!~L
0.25
23
IJ>
t~~£h.@q9!'
----
monomer
t
Load
1~~i~11 Weight
..
Permeation
I(:~) G~~~lJ!.~w~~i"J!~~i· o
9
Resistance Note
<0.9' low ~erm·. rate: (}-tl2 eyedropper size:
·,..~w~r&r.
4
mOde[,)!llnY~re effect
2
uii~~l!~!W@y lor'use
2
23 23
0.0208
23
0.0208
t
ftuld has severe e/fecl not recommended
6
minor to moder, effect
tt:
Sucrose Sulfite Liquors Sulfur
solutions liquors molten
6
.«
4,
moder, to severe effect recommended for use
,·8
a
23
dry Iiquidified; under pressure wet gas liquid
2 ";'
i
;t,j.
minor to moder. effect lIuill has little to no ellecl
6
'.
8 8 2 2
recommended lor use . ,.•.• unsatisfactory for use •... " •• fl~i4~~~~~~reeffect" lIfI~~ti$1aiiioiY for use moJ;f, 10 severe effecl uni~tls!ectoryfor USB minor to moder. elfect unsali~aclory for use riuid hes severo'effeci fluid has fillie 10 no effect
2 4
2 6 2.
2 8
>5 47
23 23 70 23 23
.
0.0208
9
47 47
23 .23
0.0208 0.25
9 9
47 50 50 50 50 50
23
0.25
9 9
23 ,23 :~;
23
23 60 ."., 23 50-80 2,3 90 23 95 23 95 95
:D
.:~.'
a
23 23
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum fuming. 20% oleum
battery acid
(')
DuPont Neoprene
2
23
Sulfuric Acid
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove film
ffUid'~e~Ji!!IM~ no effect u~~~\#!M!ll9' for U$e
2
Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
DuPont Neoprene
6
molten
Sulfur Chloride Sulfur Dioxide
Ans. Edm. Neox; lined glove film
':::::::J::;:::::
2
., .,l=l
0-
Material Note
;:::'~~" 23
;~
8
8
0.0035 0.0208 0.0417 0.167
8 8
8 8
excellenl; v.e.I):Jill.~ • degreding effecI; very"we""$ulted lor use .
o o >480 0-10 0-10 0-10 0-10
0.04
o
no steady state perm. rale detected excellent degrada~n rating
..
5
, •fluid has liiinikjcfiiioderate effect , 'iiuld h~s moderate to severe effect
4'
2 7
no pe.".\. detected during a 6 hr. lesl
." 180
DuPont Neoprene
ffuid has severe effecl
~. ~;.
t·; 8
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove liIm Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film Pioneer Stanzoil N'44; glove film
>360 'ffui~M~U~~!~ eff,ct
Chemical Resistance - Polychloroprene (Neoprene) Rubber
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove liIm Ans. Edm. Neox; lined glove film DuPont Neoprene
(J.) ~
-.J
w
Chemical Resistance - Polychloroprene (Neoprene) Rubber
()
~
00
:0
"
. . •. Material
Reagent Note, :.falr}mollera!e:degradl~!fellect. ;'
Sulfuric Acid
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
sudabl~ under .carafu!:!Jse·/
95
\I.:x::\'
.
0.0208
"'mlrioitoiilo~r,;<\ll~e)
Sulfurous Acid
Not~
DuPonl Neoprene
lluid~as seveiaefiecl.
Tannic Acid
.min'drto,modo(;-elf8CI'
r~C?~"1~ndei lor u~~: . lIuid has little to no elfect ,
10 10
65 65
0.0208 :~:~
65
Tar Tartaric Acid
:excaiient; veiYllitl;deg;Jcllng.atie~i;· :.:." yery "ell sliited lo(..use;"·
0.0208
65
i
23.
.
9
o
<0.9
0.25
o
<0.9
28
Tetraethyllead
blend
Tetrahydrofuran
THF
'" 1? ';:s" 16' t":
t:r
.... ....
P
0.000 2
453
23 ',::. 0.0035
>:";- 8 CX· 1 ';.....
11
0.08
ji'; i{
. .uns~tisfactoiy Jar use ~.'. .mOder. to say'ere elJll(1
4026
not recommended ., . l
::~
poor dag'radali09 railng
"
:):' 2
DuPont Neoprene
,.
DuPont Neoprene Pioneer Stanzoil N·44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
. " >30
DuPont Neoprene Pioneer Stanzoil N-44; glove film
Pioneer Stanzoil N·44; glove film unsatisfactory Jor use fluid has $;~ere eti~cl excelienl d.g;~da!lon rating
.;
:1....
,... .....
.
0·10
0 . 0 2 0 8 . ·..--,..\•• i';; 0.0208 .\::
.,'
~
.,.
(.<"3
'.0;.
~: r 0~01:~
n'
Pioneer Stanzoil N-44; glove fiim
1398
'''::'.2
23 , 23
~
Ans. Edm. Neox; lined glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove fiim
0.0208
'tl
i~.
; low;perm. ,ata: 0·112 eyed(opper size. . '" . drops!l>r, \i, .
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
DuPont Neoprene
18
THF
is"
~~
bituminous
Tetrachloroethylene Tetrachloroethylene (1,1,2,2-)
@
.:<
¥. ..
0.25
Terpineol Tetrabromomethane Tetrabutyl Titanate Tetrachloroethane (1,1,2,2-) Tetrachloroethene
Tetralin Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Thionyl Chloride Titanium Tetrachloride Toluene
.
Ans. Edm. Neox; lined glove film Pioneer Stanzoil N-44; glove film
z.
··.:unsatisfactory for use •.. ,: _:moder:'effacL. :;;::.:.~
.
DuPont Neoprene "
".
:.~ --
".
:'2: .
/i'.< ;~~>{!<
toluol
toluol
0.0208 ~3
..
0.0208
14
2256
..: ,
uri~~tisladl(
,'"
,tlJ~iatisl~~~:.yfor lli~, recornmended.
':"
':;:'r
...."
.....
<.;
PioneerDs~::~~i~~~:;~:~ove
fiim
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
@
::2 ~
VJ
,Reagent
N-
r;' VJ
~ VJ
15' ;:l
~
.., ..,~
Toluene Diisocyanate Toluene Diisocyanide Transformer Oils
I
.R~a~~ilt~:!~? TDI
IC""lt"",1 ILo.' (1')
(~C)
ri,m. (days)
23:'
0.0208
23",
0.0208
.···~'9n,!!!g~ 8:i~j :r.W;;9ht
Re~;~t~nceNoie
';",
'g'-"
Material Note
...',
...~: ~ot recommended
1
.
Pyranol
2 6
minor to moder. effect
Mobilgas WA200; Type A
"'6
type A
6 6
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
. '.'
Ans. Edm. Neox; lined glove film DuPont Neoprene
unsatisJaclOry for use ,~
6
0-
Transmission Fluids
u::
6
...,.
6
23
0.0035
23
0.0208
2 2 2 '·2 2 3 2 4 1
---' ~
1,1.1 -trichloroethane 1.1,1 -trichloroethane
Trichloroethylene
unsatisfactory (or use
·2
23
Trichloroacetic Acid Trichloroethane
u'"
6
type A; Esso
Texamatic "Air
Triacetin Triaryl Phosphate Tributoxyethyl Phosphate Tributyl Mercaptan Tributyl Phosphate
minor to mode,; ef(eel
*@WMM!§Wfor use 27
1
0.0208
i
>30
?3
0.0417
1
>30
.23
0.167
1
>30
0.0208 0.0208
2
..unsatisfactory (or us.e fluid has severe elleet
DuPont Neoprene
not re.commended
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film
>480
0.0035
8
0·10
23
0.0208
8
0·10
23.
0.0417
8
0-10
-23
0.167
8
0·10
0.2
o
no steady state perm. rate datected
Pioneer Stanzo;1 N-44; glove film
excenenl degradation rating
2
unsatisfactory lor use
2
flUid. Ms severe effect
0.0208
5
fair; moderale degrading effect; suitable under careful use.
23
0.0208
23
0.25
5 7
23 ":;.
2~
g:
'9 '8' '•••..:
>480
o
<0.9
o
<0.9
5
o
fow perm. rate;
•.
recommended for
8
0-10
.@.
8'i
0-10
8.
23 "'23
0.0208 0.0417
Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
'iiioSi~adysia(&jfuiiiii'rate detecled "?tcen'rit
0.0035
0, 1/2 eyedropper size
drop~lhr.
0-10
. .?3
DuPont Neoprene
Ans. Edm. Neox; lined glove film
7
0.25
TEA TEA
Pioneer Stanzoil N-44; glove film
'.
3966
2 1
23
23
Triethanolamine
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
'poor degradaUooratlng '.
11
9
TCP
.
Ans. Edm. Neox; lined glove film
Trichlorotrifluoroethane
Tricresyl Phosphate
DuPont Neoprene Pioneer Stanzoil N-44; glove tilm
rating
Ans. Edm. Neox; lined glove film
3
23 .
hiir~;gradatlon
noh,commended
0.0208
23
Pioneer Stanzoil N-44; glove film
21-30
23
23
1182 unsatisfactory for use.
:13
TCE
TCE
JM~Jl~ss~~~re effect
"
u~ti
deg(~~alicln rat!ng
..
.
Pioneer Stanzoil N-44; giove film DuPont Neoprene Pioneer Stanzoil N-44; glove film
;~;~:;. ,'u
UJ ()
:::D
Chemical Resistance - Polychloroprene (Neoprene) Rubber
to """
Chemical Resistance - Polychloroprene (Neoprene) Rubber
(")
:c
C..:I 01
C>
:}; {.:
,'.':
. Material Note
Reagent ~:~
.:;.:.~:
..".
:'.:>;'
,~::rX~!~~fr~,;iaAt?~:::~~
TEA
85
··23
. e~celle~;:t'~iYiit;l~de9ra.dl~~~it:i;? ., ":.very w~1I suiied.for us.·.(··
0.0208
.'
85 85
Trifluoroethane Trifluoroethanol Trihydroxytriethylamine
g3
·'c·
"::.::
'23'
•.•
::~:
Ans. Edm. Neox; lined glove film
0
<0.9
Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
0.25
0
<0.9
Ans. Earn. Neox; lined glove film
0
Pioneer Stanzoil N-44; glove film
DuPont Neoprene ";';
. /8."",."
......;'.'
>60
~+<.~j:-:: 0.0208 0.0417 0.167
~
>480
5
0
0-10 0·10 0-10 0-10
(l11i~or~?l11ed~r. "tllicI( .·'unsatisfaciory [(I' uSe,:.
DuPont Neoprene
lIujdha.~"ilt!e 10 noetiegl
solution
'i;Ti~op()t",~~~!,effect
china wood oil
'.• f!~i~~~~Ji~le
Turbine Oil
.:'
DuPont Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove film
0.25
0.0035
Trinitrotoluene Trioctyl Phosphate Trisodium Phosphate Tung Oil
,.
0.0208
85
Pioneer Stanzoil N-44; glove film
/S}
19 ?o .effect
.
#~~ai!~!a~ioryf()(us~""" ... ;
#15; MIL·L·7808A
"'; ""j;~~:::i~~@4r~9i~~~";;;':;;···',:
#35
Turpentine >480 0.0035
0-10
0.0208
0.02
o
,;~~;~t~~~Jt~~~:~:t~;::;~~;;:~i:~; ~f~I~~ji~~7~~~a:~ti~9.
Pioneer Stanzoil N-44; glove film DuPont Neoprene Pioneer Stanzoil N-44; glove film Ans. Edm. Neoprene 29-840; unsupported 0.38 mm glove film Ans. Edm. Neox; lined glove film
0-10
Pioneer Stanzoil N-44; glove film
0-10 0-10
@
~
l=l
~
o· (I)
~ tE· (I)
;:l
t-
o:., .,
l=l
te:
Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon Hydrolube J4 Ucon LB1145 Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 Unsymmetrical Dimethylhydrazine Varnish Vegetable Oils
lubricant oil; acrylonitrile glycol deriv. lubricant
lubricant
oil lubricant unsymmetrical (UDMH)
DuPont Neoprene
~
en ..... r;' en
?5' en
lEi' ;:l
I
I' Reagent Note
Reagent
J~
~<:.,\.
t'~Qb~6g@1
I (',C)
Resist~nce Note
"".8,..,'
';6 30 . 23
t'"'
23 23 23.
p -,
Vinyl Acetylene Vinyl Chloride Water
":,'
(days)
Versilube Vinegar Vinyl Acetate
c;: -, \t::
.Fi
Iconc,\ Temp'l Time LoadJII~~g ';~~~!I(~gl::~Z~I~tl (1(j),
'"
.~erm~atlon'
0.0035 0.0208 0.0417 0.167
monovinyl acetylene
,AI 6 :: .E!"
\."
0.03
198
0·10 0·10 11·20 11-20
.
I
.~
drinking salt water
DuPont Neoprene
~f~'ii~~~~eg~a1a~ion rating
Pioneer Stanzoil N-44; glove film
good degrada,ion rating' •
'.
,,;/
DuPont Neoprene
min~rtoin9der. elf~ct recommended lor u~e
6'
I
recommended for use minor to '\loder.. effect
minor.toflioder. elfe~ '. urisall~aaory far
~.
Material Note
"'S ,,~.
'70
Whiskey White Oil Wolmar Salt Wood Oil Xenon Xylene
& wines
8 '4
xylol
0.0208
23
0.0208
798
::'1
2
•unsatistac\ory for use
8 "6
23
recommend.ed for use 23
unsatislactory lor :use ... il~id~a$fevere effeci not recommended
2
'23
mixed aromatic amines
solution
()
:):
6
23 .
:D
:;t~coin,riierid8dlor.,~se, minor to'~oi:ler. elfect·,·
,'8
6
xylol
Zinc Salts Zinc Sulfate
':".
\6
2
Xylidine Zeolites Zinc Acetate Zinc Chloride
:iitld has. lillie ':.~.10 nii elfact
8.
8
; 100
8' '8
.Il
r~co;nmeryd.e~ for u~~ minor 10 moder. elfect recommended for. use tjIUi
Ls
Chemical Resistance - Polychloroprene (Neoprene) Rubber
Pioneer Stanzoil N-44; glove film DuPonl Neoprene Ans. Edm. Neoprene 29·840; unsupported 0.38 mm glove lilm Ans. Edm. Neox; lined glove Iilm DuPont Neoprene
no
.. :.::~~\~:::._.v;'."
>.:......
U:l 01
.....
z
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
(]'I
N
::D
Reagent
.!
Reagent Note Iconc·ITem p ('to)
('C)
Permeation Time I\PDL
Ra~ing
(days)
Acetaldehyde
I Weight
Rate
Jflglcm2Jml~:)
Re~i~fance
Material Note
Note
2
1
23 23
0.0208
2
Ans. Edm. Sol-Yex 37-145; unsupported 0.28 mm glove film
8 23
Acetic Acid
<10
8
glacial
4
118
0.1
1326
Pionaer Stansolv A-14; glove film
8 "4 hot. high pressure
2
glacial
23
8
23
4
270
\:::;:""""""::: Ans. Edm. Sol-Yex 37-165; unsupported 0.54 mm glove film
:.'":'.:
23 glacial
23
6
5
6
50
23
0.0035
50
23
0.0208
50
23
0.0417 '
50
23
0.167
23
Acetonitrile
1
23
0.0208
1
>30
23
0.0417
1
>30
23
0.167
<6'
~ >:l
..,
tt:
5'
ia'ipei'ii:,atenilI&.fOOeyel!ioppetsae··'",,:; Ans. Edm. Sol-Yex 37-165; unsupported 0.54 mm glove film dropslhr>:';<', ""'') . :.:.,
de~':~ru~'~~:,Clr~~,~a,~te u,?~:r
unsatlsfa<;joty for use
unsatlsra§!§ty for use, minor 10 Iii/i(lef: elfacF - --.::::}:
·!ml~{~9;:~!I~EM~¥~;,~::~~~f\im~),:~~!!AAPM~~~ ••·
<10
iiiisalisiaCl~;Y forii$e;( .....
120
.? '1
23
.8 8·
Ans. Edm. Sol·Yex 37-145; unsupported 0.28 mm glove film
not sUi~bj~!dl SelVice .
8 Aero Lubriplate
<900
unsatlsfa@1ryfoiiise"
23
Acid
Pioneer Stansolv A·14; glove film
not suitabMfor sarvice
2"
Acrylonitrile
poor degradation rating
1
6 0.0208
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Yex 37-145; unsupported 0.28 mm glove film
2
8
23
rati~g:.
not r"commended
.lair; moderate
2 23
Aerolube
30
6 23
I
>30
'2
Acetylene Tetrabromide Acrylic Acid
AUIPIC
, good degradatiori
1
Acetylacetone Acetylene
;:l
t""'
, 11-20
2 23
(J)
> ::~:
4
Acetyl Chloride
Pioneer Stansolv A·14; glove film
d69{~~~I!ori{~ilrg ;,Y;
not sUilable'ior·~ervica.
0.0208
23
1?
excellent
···~·m9g!!{~~!;Z~!!!~;E~~:~;,,· .
23
0.0208
no steady slale peil1l.• raf.e detected r:'.;
0-10
1· 6
Acetophenone
(J)
o
.,
0-10
0.0035 .
23
.:'
>::::"~.::, (" ·;.·::>~:~:~j(?~W~t.
.
0-10
23
23
n'
0.02
'2 23
~
>480 0-10
4··
Acetone
P
8 8 8 8
"2
Acetic Anhydride
"1:l
minor to mod."'., eftect
.6 :'·:9
50
Vis~Je swe~;~~~ of prop,e:
good;mmor degrading eftact; verY;"e" suiled' Ans. Edm. Sol-Yax 37-145; unsupported 0.28 mm glove film fOI US.8" . . ,"':...., ."
>'.'
30
@
may cause 51.
"8
0.0208
<10
@
'tI
~ ~
n'Cr>
1? Cr>
15'
!I~~$Jerit Aerosafe 2300 Aerosafe 2300W Air
;:l
t-'
0: ...
... u:: ~
Aircraft Turbine Oils Alcohols
denatured
Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride <10
Aluminum Fluoride <10
Aluminum Nitrate <10
Aluminum Phosphate <10
Aluminum Salts Aluminum Sulfate <10
Amines Amino Acids Ammonia
mixed lactams cold hot liquid :~:
:~
..
anhydrous gas. cold gas. hot
<10
Ammonium Carbonate Ammonium Chloride <10
sal ammoniac
Ammonium Fluoride
40
Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film
o
40
Ammonium Hydroxide
Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film
concentrated Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film 0 29
>480
29
0.0035
29
0.0208
0-10
29
0.0417
0-10
29
0.167
1
0
0-10
8
0-10
(J.)
Z
tIl
:D
Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film Pioneer Stansolv A·14; glove film
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
01 (J.)
z
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
W 01 ~
~ -.-~
% Change
Reagent
Reagent Note Iconc'ITemp'l Time (%)
POL Weight (~Y~) . Rating.
('C)
Ammonium Nitrate
Volume
Permeation
BIT (min.)
IlDl I
,~:
recommanded'lor use
)\ 8
23 solution
f.m~ir~~«~:4i;;~i'~~~~;fu#*;:;~~~~~:~~';
<10
":~S]~::~~f;~1);r~:e"
2 1 10
Ammonium Phosphate
dibasic tribasic 23
unsatisfaCtory
8 8 8
recommend~ lor U$~ . ~: .••M ,~;
./:>
u
<10 recommendlid Jar use
8
~!1!elnoe!leCk$eYefa;~jj:~a.r~~M£h~?!!~
8 23
.,
<10
8
Ammonium Sulfide Amyl Acetate
"reCOmrMndell!oruse;' .
,8
23 23
<\
""2·.' 6'
23
60
<90
iinsalisf~(lry 'oruse' good perm. latei~:5(ye;~di~pp~;'~iza;..
d(lijls/hr:<. ..••. not sUitabi~' 101 ~;'(ce
1
0.0208
for use
2
8
Ammonium Salts Ammonium Sulfate
9
excelleR!; very
6 7
23 23 23
0.0208
Amyl Borate
30
6 9
/
Ans. Edm. Sol· Vex 37·165; unsupported 0.54 mm glove lilm
..
very well Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove lilm .~ .• ;
minor fO m~er. euecl '.' low perm. rate; 0.1fi eY~d~opp;;;.tiza'" . dIOPS~r,;'/' may e.use s~ visible swelVloss of prop;
Ans. Edm. Sol· Vex 37·165; unsupported 0.54 mm glove lilm
'n
. excellent; very liill~ de.grading effect; vary 1I(ell: Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film . SUIted lor use i' "... Y.,. .". ".) 8reco'mm~MedlO,use:;'L?+
l!
23
<0.9
'
Iitll~ der~d1n!!},ieei; SUII8jl orusa.:
Amyl Alcohol
"'a.teriat Note
.!\1!.ltlMit.~.MM~r'tt~4r~;M~y~~~eCh~ng~···
<10
8", "8
Ammonium Nitrite
Resistance~ote
Rala (ppm)Il'!J/cm 2/mln.)
8 23
Ammonium Persulfate
I I I
<1
Ofjj!1~iQ~~«~~I,§'.Y;'.('.~9~d;m~Vd~;~JMH;~;
Amyl Chloronaphthalene 23
"IIIJI
naphthalene 23
Anderol L744 Anderol L826 Anderol L829 Aniline
di·ester
-.. -.• -.
dyes oils
72
6 @
dyes
'1l
23
not suilab!e \'If.se'''ice .:~
.....
0.0035
6
(i'
23
0.0208
I
CIl
23
0.0208
6
11·20
23
0.0417
1
>30
23
0.167
·1
>30
CIl
;:l
Aniline Hydrochloride
6 2:1 __.
t'"'
0: .,
.,
P
u::
IAnimal Fats
li:IJU
Pioneer Stansolv A·14; glove film
{
23
lEi'
18 unsatisfaclory lor use
Ei CIl tJ
0.001
2 23
(\)
.. iinsatisf.~i~!y!or~$e
2
6 8
8
11·20
y .. ,.
go:~;:j~t~~~~{~
good dei(adat~n-raii';g;' poor degrada.;io~-ialing }
.
Pioneer Stansolv A·14; glove film . Ans. Edm. Sol· Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A·14; glove lilm
@
.
~
s~
(%)
~
Animal Fats
tE'
Animal Oils Ansul's Ether
lard
t-'
0: ..,
..,
p
u::
Antifreeze Aqua Regia
. ~3
8
.
lard oil
..~~... '
I'"
Prestone
"":i
23
.
lor use.: ,:mode'; to~e"ere ,effect ." ... modei jS;yer~~wel(andl~r !osso! plop: . ;.. r~comni~~l1edforUse unsatisfaCtory for use not $~~bief~rlervk~ fair; moderate degradinl{eflect;·suitable under Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film ". careluf Use Ans. Edm. Sol-Yex 37·165; unsupported 0.54 mm glove film no. per,T,d,~!~c.t~~urln9 . ~.6hLtest moder .Ii):s~\ler~ ,e.f1ect,...,
r'.
5
:.0.0208
.,:::
o
....6
0.25
4 "4
ii"
modar.Isevere SW';!I ~ndlor:.'oss of -prop_
4
23
343
6
Pioneer Stansolv A-14; glove film
216
unsatislll,clOIY lor use' not SUita~l~lo(serylp~ . recommended fOI use , ,.. . . . .•. '.' '.' • •
'2 Monsanto
Aroclor 1260
'./i
2~
.8
Monsanto
23
••
8
23 23
Askarel 23
Asphalt
<10
8 8 :6 6
23
<10
_ .
fc.".
•. _..•; .
;r,
6
ASTM Oil No.1 ASTM Oil No.2 ASTM Oil No.3 ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C bis(2-Hydroxyethyl) Amine
.
, ,ec~mmen~~d for use little/no effect-severe cond, may cause change ..reC9~merid!J!JorlISe .little/no. eff~ct'~ever~ c9~~,T~XC.~R~l£~~~9~; miiiCiitoiiiOdkefle"i ... may cause 'iisiblesWel~IQS~otp;~P. .:·.minor 10 moder;ellect may ~US& sl: 'Iisible ~~JVI~ss of prop. . r~ommended lorus.e
.8
Arsenic Trichloride
). 8 "8'
8;
aqueous
in,noi lei m&ler: effect
8 8 6
recommended for lise
>480
23
0.0208
23:
0.0417
8
0-10
8
0-10
23
Barium Chloride
;6
9 ;'8 8
23
~;
0.0035
0.167,
8
0-10
<10
~
<10
aqueous
2~
aqueous
~3
a ...•.. 8 .:,: ~,.
..
.8
.i~lle/~~• •~!!~~t~~t~i~~~:,f~!i:~~!.~M~9~i : :-.::i.a:'"::::w
.
<10
lillie/no ellect·uveie'c9;;d;may cau~e change
<10
~ll!~!~9;'!f~~\~::71"~~r:a11~~~eChang~ :'i" recommended for use '"
z
OJ
:c
Pioneer Stansolv A·14; glove film
•.•. -, ". '(e;COrnni~n~~df~~ use ··mll~!~9 • ~.ff~gh~~Y~f~.·co~~;m!Y.c.~,*! • ~9~~~.~.·.
...;".::
8'
Barium Sulfide
minor 10 moder. ellect no st~ady state perm, rale detected excellenl degredation rating
o
".',; :J~~~Iii[iiiMld.lorlise..
:.;..... ~'"
Barium Salts Barium Sulfate
1.1
0-10
a
Barium Hydroxide
Beer
litlle/n~eflect ...;~eie:~ond ~ay~~us8 change
<10
8
Arsenic Acid
Material Note'
recomm~nded
8
Argon Aroclor 1248 Monsanto 50% Tea
R;~·istan~~>N~te'
<10
2: 23
.~.
/ ..
.R~te
8
·23'·:·,
Aroclor 1254
I
PL .,
I', ,.. .
Plmneation
,.P. w.eight. Volume .,.·.. B",.TT .....,' I.' l.Ol 1 (68ys) Ratin . Ilmm+ .' (ppm) (lIg1cm2/min.) T g ".' ." ."'. '.8 <10 'Iittlelno effect'severe condo may cause 'change
('C)
,2~r
C1>
;:J
'<1:
Reagent Note Icone.ltem)).I· Tin\l~
ri' C1>
',.~
UJ
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
01 01
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Z
c.n
l:D
0>
::D
Reagent
Reagent Note Iconc'ITemp'l im .. e T.
(%)
,('C)
I POL
(days) Rating
Beet Sugar Liquors
8 8
Benzaldehyde
'2
% Change
Permeation
Weight .I.volume
(:J:.) IJ~~~lli!t!!f~~~;II)I~!I"
..;.:.. :':;:'
,
not suitable 'f~; seiVi~~-;>"'''' not reco;;;mend~d'"
1
'4
27
2 8
ligroine
0.03
benzol
unsalis(aetory for use.; linle/no effect-sever, cond_ may.cause change; not suitabte lor seNiti·",; ,'." excellent degrad.aiion r~tin!i . .' Pioneer Stansolv A-14; glove film poor: pronounced d~gradlilgeffe'~~~~QK!.~se" Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film fai'r deg;adation tali;;'~"\;-Y: ;-:; Pioneer Stansolv A-14; glove film
<10 0-10 ,21-30
1
>30
1
>30
Benzene Chloride Benzenesulfonic Acid
2·,
Benzochloride Benzoic Acid
'2 '2
Benzoyl Chloride Benzyl Alcohol
'1
Benzyl Benzoate
'2
poor d~gra~atio~'t~i)l~~';;;,:;;'·::.:,
15
3
.. ~
960
mOder,lsevere
,~~~:~::r:~j~r,~~~;e;~
'1
'2 8
Bordeaux
<10
1
·.IJ~I:~~~··~;;~~~f~~2!4:;~~f:i;i'~~~f,~!
ii
Borax solution, sodium borate
6'
mixture
'6
mlnono mOder. eftecl"" .... may cause sl. Visible'swelVlo~soi~iop::;
"mliiOiio·mOder.jjijec\ may C~~s~sl.vls!!,le~ ..el!!I~~~ol ~rop~ .
6
ii
Boric Acid @
'1:l
8
Brake Fluids
~ ~
n-
Vi
f? Vi
<E-
23
0: '"1
P '"1 <.c:
23
Bromine anhydrous bromine water
23':1
23
8
,2 1, 1"
~ltIe/no eff;:t~:::e:::::.::'::eC~an9~ mOdel. 10 severe ellecl ':t·
,4 4 4 4 4
<
;~m;
."
i'
Brines
;:l
t"'
<10
'4
Delco Girling Mopar non-petroleum Wagner 218
."'.
..... not s~ita~l~)or se";-IC<~b " unsatisfaetory lo(~~,., .. not suitable ~or seri\Ce'. ' ' - '
1
solutions lime bleach solutions
z· """,
unsalisf<¢loiYjofU$~"F-n?:
1
Bleach
sw;;i~ndi~J'Os~\;"prop'
~~s:::~::Ot~j!r~~~f,:
1
'2
?/:::.._?{:X.::..:·>:·
iiOlsu'iiill!e,orseiV«:e';..
2
Blast Furnace Gas
. " X'
,;;;>/
4
'2
-, "..
uns
" -. oot s@~b'e lor s~r;;i"&;; unsatisfactory .fo~ u~ei ,;'
1
Benzyl Chloride
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
582
1
8 2 4
;..;,'
<10
Material Note
effecl:severec~n~;milyc~u~ec,~a~~~ unsatisfactory'lQi uSfl: i i ' : "
1
Benzene
".
recommended lor ,~e:,
fiMle/no
<10
;~)o'r ,.~
Resistance Note ~:
..
m9~!~I~~W!.~~~,i~~~1;,~~~·~;'~t~~!;;;'i:
lim!!~9.!~~~~~;~~:';~i~~~~~~;~~;~~~
@
"1:1
P IJ> ..... C:;.
IJ>
i? IJ>
tEl· ;::l
s::0.,
Bromobenzene
u::
Bromopropionic Acid
mono
bromobenzene
.,
P
1_ .
n
120
fair:rtio;i~;ala d~gi~din;{etiilcLS'uit~blaJ;;~e;
• . ..
lSunKer Fuel C Butadiene
'
•• "
.
.
"
•••••••
<10
fualoil
:
.b1XC~~l\l~rjl~~;i;/%·i/ii
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Butane <10
Butanone (2-) Butene Butoxyethanol (2-)
6
522
Pioneer Stansolv A-14; glove film Pioneer Stansolv A-14; glove film
2-Ethyl
Butter Butyl Acetate
>4S0
0.5
o
101
0.1
144
CO,; ..' ...
23/'" i23
23{ '·,0.0035 23 0.020S
75
"~;>+\iQt·;JJt:ltS~;li~ig~~.'" ,.,•• Xi'.····, ,;j~
. ';x~~iJ~nl dagla~~lio?Jatiri~(\.. Pioneer Slansolv A-14; glove film fair; modeiiile digradl;,g.ejle~l;'suilabla undar'; Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film . carelullise ....•;, . .".-' ;c', . ··.,goii,{~9gradaliol{~;jhg.. Pioneer Stansolv A·14; glove film . lair dag(adation·(ali~g
0-10
11-20 21-30 21-30
:,:
,.
Butyl Acetyl Ricinoleate
.
minor 10 model. effecr' ,. . .••.••..: ..
.'mM~I,!~e~~las~eila,n~or iOs~~!Pl;;~:.· uosaiisfae:toifil1luse; riot ;uitablafor S~It!~~' recolI\mended fili:us~;
Butyl Acrylate Butyl Alcohol
Pioneer Stansolv A-14; glove film
.•. . to.
i~iiperm.'i~f~;5nciiQoe;8dr6~~~~fi~;) . Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
<900
·····1
S··· . 5·
·····'.;"t:.;;.{.•:•.))· .<;,
u.osati~faclory·J9!,U~~:J"··
..'
butanol
'u', :.:: \;:::..::}
butanol
».. ;.: /): /: ;:
<10
o
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
Butyl Alcohol (tert-) Butyl Benzoate Butyl Butyrate
z
OJ :::II
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
(.J1
'-I
z
Reag~nt;
.
), R~agent N~ie'
~.
con~;I¥em~fl Time "Iii; ."'.
.}1
23
.2 1
Butyl Cellosolve
>480
0.5
o
i
0,0208 0,0417 0.167
23 23,
23.
Butyl Ether Butyl Mercaptan (tert-)
90
0·10
~ 8 8
8.
0·10 0·10 0·10
1
23
6 6
23;
4
23
6 6
Butylene Butyraldehyde
?
~
Vl
23
. 0.0208
IJI)MjW~clo'l' lotlise. no(M!ia~ie fOr servi,e . mlnoit8i)iodehMfeci
;:s
~
.,0-
.,>l
It::
Pioneer Stansolv A·14; glove lilm
,,:"
.'.
; mode"'s.ev~;e s"ell~.vor ioss'o, prQP. ,. .minor.'a.,model. ellect,· may caus~~liy\~wJ~~"i~"I!0~~olprop ..'. '. uQsaiisMeloijlloiijS( nol suilabl~ loi service '. unsa'tislactory}or .use "'. Ol,Q}rMommeMed'
1
:;2'3
8'
·"i
<10
Ans. Edm.
minoilomodiii/sifecl
';i;I!~iri9Wi~fj~~X~;~~Rn~m~Yf;~~tc~~nge }P< ··iecoijimendiid.tiiftlss·rL·
.•. <•..• nol.SUi!~blejllf~e~ige \;\ .. /
;23
Calcium Cyanide Calcium Hydroxide
lh
·····.ih;:i~comm~n?ed ,~:
~;.
8
. fRi· ~S~;!)~:j
:u
\:~i~j~;;~~~~i:~~te;~~~rid. .TiicQriimend~a:foflj'sey{
.ll·..,......
<10
.;
i;i~;~l~R~;i;~;~~~t;~r~~:~d.~;Y ca~;~~~a~~~' unsaiishiCio,y !oruse /; .
,;";;,,.2
'.i·~·~~;~:;S~r:\;;~T~'!;6?(R!prop.;.
:::" ':-
23.,.... ~
Phosphate Salts Silicate Sulfide
Pioneer Stansolv A·14; glove film 37·145; unsupported 0.28 mm glove Ii1m
may cause'sL visibl~ swel.Uloss.of.prop.
···6..·•····•.
8}""·'·
Calcium Calcium Calcium Calcium
37·165; unsupported 0.54 mm glove IiIm
h"
<10
cS'
.
Moder. 10 seve.!e effecl'" IJl)satisfaClo'l'!Or'use not suitable fo;serviCe
l.,..
Calcium Carbonate Calcium Chloride
Calcium Nitrate
Sol·Ve~
'2. "23 .,.,
Butyric Acid Butyrolactone (y-) Calcium Acetate
Vl
. ,re~cellent deg[;;da,itirl.raiing excelle~l!velyr';lIedegradrng eileC1;~ery well Ans. Edm. .•.•. ".. ..... suiled for use', .'. . 'e~cellent degradation' raling
size
md\fer;•• iOsevele.elfeci
Butylamine
r:;'
Sol·Ve~
.1.'.
23
Pioneer Stansolv A·14; glove lilm
Ans. Edm.
'"'2"
Butyl Stearate
Calcium Hypochloride Calcium Hypochlorite
~ery gOOd perrri!r~~~k~~.~:~~ea;~pper
2' 23
po Vl ....
<9
4""
Butyl Oleate
Calcium Bisulfite
8
":..;.
lOr use .
no s~eady'slat~ perm".rale de'~cted moder, Ie. seve;e~ffe§;' .••••.•• 'model.!severe swell and/or loss of prop,
4
0,0035 0,0208 .
c:.;.::
Ma~erialNOte
}~rS~ilableloise;vic~
·•.• 9
23 23'"
...•....:•..,
nJ;~~i\a,blelorse(rice," .'.
"unsati~!aclory
.. {
.23 23
\::~:::::.
;~h!st~ti'~!~ot~'; . \ miIZIQmoder.:~fl,e~;:
'.., ,6'
23
Butyl Catechol (tert-)
Union Carbide
.;;-
:
:~ :::.~.
C'C)'lda'ys)
Butyl Carbitol
"1:l
U1
CP
I
@
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ :JJ
<10
';!k;e;Io.~!I~~l~i~i~{~~~~:i'%tt%~useCc~.nJ~;.
<10
·~;,.~ici~.~!i;~i;ii;;;t~:~~~;~;:~~~;~'c~.a~J~
,~
8'"
fa
.'
Sol·Ve~
37·145; unsupported 0.28 mm glove film
@
'"
S' ~
ri' V>
tl (ll V>
15' ;:J
t-o
..,0: ..,~ CJ::
;"
,~
~Jigenf .
....."; ".";;;:
~., ';;
POL .,. ~atlng
.'. ~
Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Cane Sugar Liquors Carbamate
<10
liquors
'Carbitol
~~-:~
..
,
Calgon
Carbolic Acid Carbon Bichloride
phenol carbon dichloride
>480
o
Pioneer Stansolv A·14; glove film
373 0.0002
27
Pioneer Stansolv A·14; glove film
20
516
0·10
. 11·20 11-20 21-30
;~;'
Carbon Bisulfide
carbon disulfide
0.2
mil~er J.evere sw~1I
e'
10.0035
carbon disulfide
Carbon Dioxide
carbon bichloride
::.
carbon bisulfide
~:
'S:
.::-,";:
·4
27
carbon bisulfide
23
carbon bisullide
~-.
20
-'. -;.
23 23 23.
0.0417 0.167
6
6 5 4.
;4
23
8 8 7 4 6
?~.<. . :
4.
.:~r
• • • • )'1;1 ..
Carbon Tetrachloride
~:
0.2
516
';':"
30
4'
0.0035 •0.0208 ,. 0.0208
23
<10
~.
<~ 23
Carbon Monoxide
373 0.0002 0-10 11-20 11-20 21-30
8 6 6 4
dry wet >23
Carbon Disulfide
Pioneer Stansolv A-14; glove film
tairdegr;tl~at~n :;~ii';g
7
23 .,.0.0035 .' 23. 0.0208 23 ,•. 0.0417 0.167 23
andlor)oss 01 prop.
···~xcellenl 'd;9rad'a\io~'ilit;;;gi 9~od.degr~lfatio';Ating -,.
0-10
.6' i 11·20 4 • : .,21-30 4 . 21-30
Carbon Dichloride
m~~e[,. los8~~r~~)I.;~\; ..'..•...
...
'4
<900
0-10 11-20
fail perm:
Pioneer Stansolv A-14; glove film .•. •..
~:e:5J;~~~~,e~~~r~~f::(Si19
excellent de.g~~~ti~n Jll~~g' goOd degr¥dai;Qi)hliiri~ . •.
Pioneer Stansolv A-14; glove film
.
<10 341
48
150
<90
lair
de.,gra~;~~&~t~1f~~\
~\\'~!9~• ~ff~;~;;:~Tf~t:~.1*11:a~e
.
!1)o#er .;~ savi,a-elfoclt;}
good
Pioneer Stansolv A-14; glove film
Change••'
pe.~.rat~;:p~~:X,e~;~~~~r\i~:
moder jse~e'e.;~ell~ndJQil~$$'Qf prop. • .' .' . ......e~ce~le;;(4e~rad;u~n(~!!~?\,
z
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::D
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
infnord~grading eft~~i::t&itJ~i;·.uiidercaieful . Ans. Edm. Sol·Vex 37-145; unsupported 0.28 mm glove film
21-30 21-30
0·10
.'unsatisf~~toiylort~t
Pioneer Stansolv A·14; glove film Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
Pioneer Stansolv A-14; glovelilm
(,.)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
01
co
z
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ :JJ
(J.)
a>
o
Permeation Reagent
I'PDL I Weight (days) Rating
Reagent Note IC. one. "Temp., Time (%1. ..........
(!C)
~.
Carbon Tetrachloride
23
::" ..... ' .......:
: 0.0208 "
Rale
Resistance Note
Material Note
.(II?!Cm,2'!"ln.)
:.;-~
good; millor degrading eftecl: very wen sliited ': Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film '·.lor lise. ex~e.lIe~tde~iadatlon ra;iog . Pioneer Stansolv A·14; glove film good degradatio~ (ating" Wtairdegradalion rallng _"
8 0-10 11-20 21-30
'may cause si)v!Sible S:oi"lIIiossolpiop.
Carbonic Acid Castor Oil
, rii~o~niende~.!oi use .". !llIW~~,~'1~5M~¥~(l99m!im~Y cause change'
<10
Cellosolve
416 solvent
2 6'
23
0.03
210
24 <90
)
Union Carbide solvent
23 23 23 .;-
.1 0.0035 .0.0208
},
0-10
'8
8 0·10 0·10 11-20
Cellosolve Acetate
Pioneer Stansolv A·14; glove 111m u"slltisfaclaryfor use . Ans. Edm. Sol·Vex 37-165; unsupported 0.54 mm glove film good perm
162
0.1
~.
:~::;:<:~::~;'
•
72
Union Carbide
90
<90
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove 111m
:~
:/(23 :{:2~
0.0035 0.0208
~: ~r
0.0208 0.0417 0.167
~.
Cellulube Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents Chlorine @
'1:l
SO ~
Chlorine Dioxide
n'CIl tl C1l
CIl
16' ;:l
t""
0: ..,
..,
$:l
u::
IChlorine Trifluoride IChloroacetlc Acid
Tenneco, phosphete esters
hexadacane dry wet dry wet dry wet 8% CI as NACI02 in solution
23
0-10
,6 "A 1
11-20 . 21-30 >30
Pioneer Stansolv A-14; glove 111m Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
@ ~
S" V>
.....
o· V>
tl
Chloroacetone
tE·
Chlorobenzene
C1l V>
;:l
mono mono chlorobenzene
~
.,
960
15
0-
Pioneer Stansolv A-14; glove film
.,P
tt::
Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Chloronaphthalene Chloronaphthalene (0-) Chloronitroethane Chlorophenol (0-) ChlorODrene Chlorosulfonlc Acid
1·chloro l·nitro ethane
chlorobutadiene
Chlorothene
131
0.05
264
Pioneer Stansolv A·14; glove film
<9000
Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
21·30 >30 >30 >30
Chlorothene VG
90
Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film
Chlorotoluene Chlorotoluene (0-) Chlorotoluene (p-) Chrome Alum Chromic Oxide Chromic Acid
984 888
52
25 aqueous solution
Pioneer Stansolv A-14; glove film
0.88
>175 240
50
50 50
0-10
50 50
0·10
0.1
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film .~~.ellenl d'9f.11~!!On'r~ting}.:· • Pioneer Stansolv A-1"4; glove film ['r~le dellf8.dl~gf«~ti;SU"libl~ under Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
'in.drcareM!\~,';;i'f
z
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Pioneer Stansolv A-14; glove film
(J.)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
0>
.......
z :n
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
Reagent
Time
I
50 50
.23 23
10
23 •. 23
0.0417 •. 0.167
POL I Weight·
Rale (llglcm2/mln.)
8.
8
0·10 0·10
'. 0.0208
9
o
10
Pioneer Slansolv A-14; glove Iilm
• may£~~~e,~I,Yi~!~I~s:wel~!g~sO! IlroP.
Chlorox <10
.•~ijw~~~!!m!~~@I~M~ffim~¥ • ~AA~~#lliM~
<10
'.lilll~lnCi;efjec\:§~"V~re;~on~".'!1~X,~_a_~~!. £ff~~ij~;
<10
·.~I;jno ~~~~!1:f~T:~!::.I::;~:~:;:··c~:~:-:
<10
1m1~!~~;~!!~~Me,'f~r~ C09il. may cause~!¥l~!ll
2N
Cobaltous Chloride Coconut Oil
recommended lor:U5e'
Cod Liver Oil
iiecci",m~nil&djorU$e
Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate
excellent degradation raling
.........•;"Wood"
Clorox Coal Tar Cobalt Chloride
Material Note
. •. recommended lor use· little/no eUecl-seve,e cond, m.ay'cause change excellent; very.llt1ledegrad!ng ejie~; very';"eU Ans. Edm. Sol-Yex 37-145; unsupported 0,28 mm glove film ". '.•uiled lor.use';'; \.l),og~r~;~~t~~l~~~~rirg~~~r}e~t. . Ans, Edm. Sol·Yex 37-165; unsupported 0.54 mm glove lilm m~dei:ejjecl"';."'" .... ·.• i\··
<10
8
Resista{lce Note
~.
'8
Citric Acid
0> N
Permeation
.(days) ~atin9
Chromic Acid
'"
'.' .
'c··
uns.lISiactciij,lciiuse s.ojiable foi ser;ice ';ie'ccimmendedlciiuse
. . ·.nol Monsanto
.' ;
;.. j;'1'i~?r~? m~efj!j~~t ....•.•
.~a)'caU$8
sl;yisible ,5wellM*s of Ilrop,
,." •••.•.•. i -' recommended tor use
Copper Chloride <10
;tj\!!~lr~.;~.~~~k~~Y~fMB9~···~ay.ca<~~.i~~9.~~.;;·
23
<10
.liUle/no'effecl·~evere co-,!~;
23
<10
litUe/no..~Jfect.severe condo may cause change
}r~~mmen~~tcii\ise\
Copper Cyanide
• .' 'may cause cliange' "reco l1l mended tor use
Copper Salts Copper Su Ifate
".' T.",ecOi)1mended lor us'i'
10 50
.
Corn Oil <10
Cottonseed Oil <10 @
Creosols Creosote
"tJ
.~
..
,
coal tar wood
S ~
Fi'
'~" ';:s" 15' t'"'
0: .,
.,I:l
u::
<10
coal tar
Creosylic Acid Cresol Cresol (3·)
methyl phenol m-C,esol
210 0·10 11·20 21·30 21·30
5
126
Pioneer Stansolv A·14; glove film
@
"1:l
po ~ ;:;. (I)
~
210
5
126
271
0.03
48
(I)
~.
;:J
t""'
...!=l0: ... It:
Cresylic Acid Crude Oils Cumene
Pioneer Stansolv A·14; glove film
isopropylbenzene Pioneer Stansolv A-14; glove film
Cymene (po) isopropyltoluene
Decalin Dupont
Decane <10
Detergents
solutions <10
Developing Fluids Developing Solutions Dextron Diacetone
photo <10
Diacetone Alcohol <0.9
240
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Diamine
>480
0.7
o
z
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Pioneer Stansolv A-14; glove film
U) 0) U)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
OJ
W
0> ~
:::IJ :.
,
~.
% Change Reagent Note Conc. Temp. Time
Reagent
(%)
-
Diamine
,l
II
0.0208
8
0-10
~xcellenl degradallon lallng
0.0417
8
0-10
0.167
8
0·10
"
23 23 23
.
Volume
"
ii
4
unsalisf~clory
unsatlslaclory for use not suHable lor service
23
2 1
unsalisiaciory for use
2
.nOI sUitablefor~ervice . unsa.tlsfaetoryiciiuse ........•
23
1
not suilable for service
23
2 1
not suitable for service
23
0.0208
8
23
0.25
8
Dibutyl Sebacate
unsatisfactory for use good; minor degrading eUecl; very well suited' Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film for use ' 0
<0.9
Dibutylamine
•
23 o·dichlorobenzene
not suitable lor service unsalislactory for use
2 1
not suitable lor service
4
37
5
73
23
0.0035
6
11-20
23
0.0208. 0.0417
23
0.167
4 1 1
21-30
23 1,2· dichlorobenzene
174
I
Dichlorobutane Oichloroethane (1,2-)
0'
1140
to· ;:l
t'"'
0: .,
.,
!=l
u:
"
" " " " " "
2
unsatisfactory for use
2
"
0.06
1752
Pioneer Siansolv A-14; giove film poor degradation raling
23
0.0208
>30
"
23
0.0417 " 0.167
1 1 .1
>30
•
>30
~"
" unsiiiislaetory foiuse not sullable for serv~e .."
4
moder. to se'vere effect
4
moder.!.severe swell aOOlorloss ol.prop.
23
0.0035
23
0.0208
8
Diethanolamine
" " " "
2 1
8 8 9 8
,
.
minoi tcimcidei.effeci 16 >30
·23
,.
" not suilable lor· service: ,
1
diesel oil
"
,
"
0.0035
23
Diesel Fuels
"
23
23
C/)
...
unsatisfactory (or use
6
C/)
~
''',
,i
3
23
Dicyclohexylamine
poor degradation rating
>30
1 ..
~
lair degradalion raling
;
37
.
good degradation rating'
Pioneer Stansolv A·14; glove film
.'.
Dichlorobenzene (p-)
Dichloroisopropyl Ether
iti
1140 0.3
>30
4
23
@
,! Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film
",
.'uf1satislacio,yfoi use
2
'1:l
low perm. rate; 0·1/2 eyedropper size . dropsfhl, .
2 1
23
)
not suitable lor service
1
Dibutyl Phthalate
0
}
for use
23
Dibutyl Ether
Dichlorobenzene (1,2-) Dichlorobenzene (1,3-)
" "
,.,
2
Dibromoethylbenzene
Pioneer Stansolv A·14; glove film
moder. to.sev"e eUect
1
23
Material Note I· .....
2
Dibenzyl Sebacate
S'
Resistance Note
lDL BTl Rale (min.) .J~~'l!)}!Hl!I~~2Imln.)
Welghl
(days)
Diazinon Dibenzyl Ether
Dichlorobenzene (0
I
POL Rating
('C)
.
Permeation
...•. >480 0·10 0-10
recommended for use,
.
)!tI!~I~~,effect·severe condo may.cause ~M~lIw
<10 ;
.;~
1.1
0
.
no steadystiiteperm,i~le deiected
Pioneer Siansolv A·I4; glove film
excellenl degradation rating
" "
."
'"
p
~
>':":,
.. ~:
@
·Re~ist~n~.~Note·'
I,Ffeagent
Material Note
nVJ
~ VJ tE-
Pioneer Stansolv A-14; glove film
Diethanolamine Diethyl Benzene
;:l
t""
..,0: >:l ..,
64
Diethyl Ether
<.t::
0.1
78
uriSa:tisl~~io~;~r
Pioneer Stansolv A-14; glove film use
!'~1 s~ltah,i~'io~fll&'~~
eXC~)leet~e~ra~~!ion!aling
0-10
. Pioneer Stansolv A·14; glove film
0-10 0-10 0·10
Diethyl Sebacate Diethylamine 45
: Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
<900
Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Diethylene Glycol <10
Difluorodibromomethane Diisobutyl Ketone
120
DIBK
<900
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Diisobutylene Diisooctyl Sebacate Diisopropyl Benzene Diisopropyl Ketone Diisopropylidene Acetone Dimethyl Ether
....
/~~:
..
l~"~I~,?,!~~~~I!~;~~.r!;~f~~~··~~Y'f~~se Ch~ri~; ••
<10
methyl ether, monomethyl ether
Dimethyl Phthalate Dimethyl Sulfoxide
0
DMSO
0.004
>240
~::
< 0.0035
B.
0.0208
9
6
Pioneer Stansolv A-14; glove film
<9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
0-10
Pioneer Stansolv A-14; glove film Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
;.;
0-10
Pioneer Stansolv A-14; glove film
11-20 >30
Dimethylacetamide
28
DMAC 11-20
0.001 :::
30
z OJ :c
Pioneer Stansolv A-14; glove film
'" (J)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
U1
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ ::D
IR~agent
Dimethylacetamide Dimethylaniline Dimethylformamide
Reagept Note
Rale
{~~~m2fmln.)
~'Jl:' . DMAC
>30 >30
0) 0)
Resistance Notl!
"'aterl,ai, Note .;:~
.~~: ..
,--. Pioneer Stansolv A·14; glove film
/: ,...•. T~~.eri~.~.~t!e.swe..I.I!~~19~§9111(?R<···'·
xylidine DMF
'"
35
0.2
246
,~::'
~;.:
./
~
Pioneer Stansolv A·14; glove film
DMF Ans. Edm. Sol·Vex 37·145; unsuppor1ed 0.28 mm glove film
Dinitrotoluene DNT
Dioctyl Phthalate DOP
>360
<0.9
. Ans. Edm. Sol-Vex 37·165; unsuppor1ed 0.54 mm glove film
DOP
Ans. Edm. Sol-Vex 37·145; unsuppor1ed 0.28 mm glove film ':'i
Dioctyl Sebacate Dioxane
Ans. Edm. Sol·Vex 37·145; unsuppor1ed 0.28 mm glove film
Dioxolane Dipentene Diphenyl biphenyVphenylben zene
Diphenyl Oxide diphenyl ether
@ ~
S" ~ (;. VI
1?
Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Cornina 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm 209 Dowtherm A Dry CleanIna Fluids Electroless Copper
fluids, Dow Chemical solution
MacDermid 9048
;:J
t""
0: ..,
.., i=l
u:::
Ans. Edm. Sol-Vex 37-145; unsuppor1ed 0.28 mm glove film
o
VI
tEo
50
Electroless Nickel
MacDermid J60/61
:' Ans. Edm. Sol-Vex 37·165; unsuppor1ed 0.54 mm glove film '. Ans. Edm. Sol·Vex 37·145; unsuppor1ed 0.28 mm glova film
o
Ans. Edm. Sol·Vex 37-165; unsuppor1ed 0.54 mm glove film
@ ~
~ ~
~.::..;
R~a'gent
Materia! Note .
r;' C/)
~
".">-.
:::~::::~:~:.
C/)
t-
o:.., ..,I=l
u:
~:-'.
Epichlorohydrin
to· ;:l
",.
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove lilm
Ethane <10
Ethanol Ethanolamine
mono ethanolamine
.
·.~~9~'!~t~~ry fi~:;~~~~i~:~~ ~~~G1;,tl!0!~~f
monoethanolamine
o
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film :::·::::.:.:.i,;··.\?un~alistactRry fp"'f ~e2·.((
Ethers Ethoxyethanol (2-)
416
0.03
24
Ethoxyethyl Acetate (2-)
162
0.1
72
Ethyl Acetate
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
:~:.
Pioneer Stansolv A-14; glove film
organic ester
MS. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Ethyl Acetoacetate Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol 240
<9
Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
<10 Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film ethanol
>480
0.002
o
Pioneer Stansolv A·14; glove film
Ethyl Benzene Ethyl Benzoate Ethyl Bromide
z
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C..:l
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
-...
(J)
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
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0>
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::D
Reagent
Reagent Note Iconc'ITemp·1 Time ('Jl,),
I. PC!L
% Change
Permeation
Weight Volume
BTT Rate (min.) (ppm) (l1g1cm 2/mln.)
I
(clays) . Rating
('C)
IlDl
I
Resistance Note
,
Ethyl Cellosolve
~rsali~faclory fo~~~e.
2
Union Carbide
.. ;.,/
23
-
Ethyl Cellulose Ethyl Chloride
-
'6,
23
8
Ethyl Chloroformate
23 -
Ethyl Ether
-
Ethyl Chlorocarbonate
nOI suitable jor.service'
6'
2·3
" mino(t~m~eeei!ec,~;, " may ca.uS8 sl: vis!!lWS!!~lVlos~ oJ prop.; .. ',.,. recom~ended' for U$.8 ';,
8
.1.i.w~leo effe~l-sevei~ c~nd: may~aU$~F~~R!1~'
<10
."""" 1
64
6
0.1
78
Pioneer Stansolv A-14; glove film
"4
23;
120
6
23 23
0.0035 0.0208
'.': 0-10
23 .•~ 0.0208 23 ""0.0417 0.167 23
0-10 0-10 0-10
2~
Ethyl Formate
-
Ethyl Glycol Ether
23 23
modeL 10 severe effecl good penm. raI8;'6;50 eyedropp~r size drops!hr"" mOderJsevere SW;Ull1.d/orfloss of prop.
<90
.xcelle~l; ....
,;:
23
210
';.;~;
23
-,•..,. 2 ;,.,::::;: '>" 1
Ethyl Pentachlorobenzene
iecClml1"8i@i(n§iuS-8~"
ij6h)i~i~~ii\iWiiiu~r
notsultibi~j'0(te"';ic8
unsatislaClol~Joi use •.'•• ..."n~\~.~i~W~!At~.rvlce·· 'iecommiinde,flor u$e
;lltUel~~ eflec\-~~verecon~,milX.g!~AA~M~ll~
<10
····iecom"f8n~~in~iU!ii ~
,;
po
:'
CI>
1? CI>
Ethylene Dibromide Ethylene Dichloride
:?
t"'
..,
It:
.
A~;~::~~;j~~~t;~t.;·,,·,
;:l
l:l
.,...
~:
<~~,all$,~\qrY~(o( 1lf9\\"'<''. ....
tEo
0: ..,
...
n~;s~ilabi;;lor'$e~i~.;
:'~'
Ethylene Chlorohydrin
~
r;'
:-. :.".:
'littlelno effecl-severe,cond. ma~ cause cha~ge" unsatisfactory 101 usa
<10
Ethylene Chloride
.
nol sulta61afo(service' ·uosalisf~clo!y for ~e .'.
23 i
Pioneer Stansolv A-14; glove film
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film dropslhr. good; mInor d.grading .ffecl; very well suit.d Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film . tor use
Ethyl Silicate
@ '1;l
.xcellenid~9fllda;icin (~ii~g
gOOdperm;iaie;6:50·eyeiiioiliie(slie~.
<90
8
23."""'-
Ethyl Oxalate
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
ve'N •·sun.d Qt)I~~e9i~dj~il.·~'!6Ct;-~ery well' fot us...,,;;·,······· .•.,." "'::::'
8. 2 ".1
Ethyl Hexyl Alcohol Ethyl Mercaptan
ei
unsatisfactory for us. nol suitable lor s.rvice
., 6
0.0208
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
7
2 1
23
Ethylcyclopentane Ethylene
", unsatisfaclory,lor use not suitable lor service .. unsiiTIsfactory loi us~: no\SUii~blefo!s~rv!,i.
~::
23
Material Note I
~:
16 1· 23 2.3 10.0208 23.}0.0208
>30 >30
0.06
1752
J/!ir~:~lti~i~t:ir!:~~;1" ,·Poo~d~grada!~nr~l\ng ',;noi>~!~";.l#~~cr'·· ,.., ~~l~!~rii~a,i!O~.'~~~~··
'.
Pioneer Stansolv A-14; glove film
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
........... ·....
@
-·",.·I-·-·.:,,,·-·-,,·-·-,·-·····-·,·-··,.···~·-_····
",.,.
;.,
""~ ~
r:;' VI
t::l
Reagent ::.<' ::.; .)::~>.:"
I Reagent Note
Ethylene Dichloride
C1l VI
tEo ;:l
:\~\''9''i'
Ethylene Glycol
t
..
>480 <10
23··
.,CTp .,
,23»
f,;.. wl;Mf~11~f~j~f.~~~~WfJ\t~!l}D;;;!
0-10
0.0035 23.c.. 0.0208
0
':exce!Jenl; v~;Y.liiilJi1l8lliii~"'li~:~~ei;i:",eij,lVelb
I>,,~t~.,;; 0
<0.9
0.3
126
(:,;"
":.:: 5;•..::·)
Ethylene Oxide
32
"'
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
'''"''':'''~'''~
,Io.l' peflrii~ate;' Q'1;I2.•Y.tdr~jil'e{$ile '<. Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film .: J'1i.,•. '·';<::S/{:;d(OIlS/llr·;t::/Nn:';·::
::":'>'.'
.... ~·'::~t~,::,~,-",;.: . ~;;::<:;:':"
t /:\::»}\::f::::r:; :.:::c:' ::::::.\":
Pioneer Stansolv A-14; glove film
Ethylene Trichloride Ethylenediamine 23
Eth~lmorr.holineStannous
ctoa e Fatty Acids
with 50% stannous actoste
13
<10
50
23
Ferric Chloride aqueous
23
8
<10
aqueous
23
8
<10
aqueous
23
8
<10
.23
8:::'
<10
Ferric Nitrate Ferric Sulfate Fish Oils
\:-:.:
Fluoboric Acid f1uoboric acid
Fluorine Fluorobenzene
:..
23
<10
liquid 23'
8
Fluorolube
'8
23
Occidental Chemical
<10
Fluosilicic Acid <10
23
Formaldehyde
.~§:
:excelr8nt;:lii~iWl\tlleiil\llficli!i~)i«~f;Vei'YwellAns. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
2~'
0.0208
23
0.25
37
23
0.0035
0-10
37
23.
0.0208
0-10
>480
37
0
<0.9
8
0
~~~:lt~. . """:: : ,': : :':': : .: :" ., , "
z
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
0)
co
z
w .....,
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
C>
:0
,
Rea~ent Formaldehyde
37 37
Formalin
solulion
>480
\2i3
0-10
'23
0-10 0-10 0-10
23 23
Formic Acid
':-.'~
8
o
no~teadi~t~tti~rri, rat~ dejact~d
., : /e~celie;;l(je~r~d~tioni~;i~g""" '/ -
',',.
.~
.
23 90 90
23,·
240
2~' 0.0208
. Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove lilm (ait;mOile.;~te deg;\i~ingeiiect; suhable' u~der Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film . . , ~aref~1 u~~ ". / " ....
Freon 11
"., .'" ..miM,rtol1l~er.e~e~t '.,'. ,may cause ~1.·risiblesweJVloss,oJ prop: . minor to mOder.,·effecl may ceus; ~I;;~isible: s:k~I~I~~sof Ptop. .:~: iecomrriiindedJartise .
Freon 112 Duponl
Freon 113
."":8
Freon 114 Freon 11482
<10
-
Iml~#l~~ti~~lfMr~!~E~n9;m~Y",~,a%a'SMQ~~
<10
Iiniel~o ella6(,~eveie coryd.may c.~~se change
.,·)ecommended/aiMe .:-
,..6,.
,
.linl;/~riel!~c~:~r$~~~~;(+~~s:a~~e~~t~ge
Freon 115 chloropentafluoro· ethane
'S
?3
Freon 12
<10 >480
"····9"··'
23
Freon 13
8
bromotritluoro· methane
Freon 14 Freon 1428
,·:::'23'"
<10
i~l('
.S';·
<10
. .. :,~
. ,:S··
Dupont Dupont
:~;;~3i;
,;;X8,;'
~'.";~~;;)
:..;§I;l:;-L;.:
Si.::,·
{\i\L
<10 <10
'tl
IFreon 218
en t:l ro en
IFreon 22
~ ;:;.
tEo ;:l
t"'
0: .,
.,I:l
Pioneer Stansolv A-14; glove film
15.9x305x1 mm hose i:.::.~
:;.:~.
Dupont
S'
0
<10
;;;9:3"
Freon 1381
@
8
"."/8 CFC-12
Freon 152A Freon 1528 IFreon 21
'mlnor.t? mode"'-effect . ,.,. 0" prop>'
'. ';ai cause' sCv1slble j;w.IVlci~s
Dupont
Dupont
<10
IFreon 31 Dupont
IFreon 32 Dupont
<10
@
'1:l
p
~
IR~ag~ni)'
tl
Freon 502
n'en ell
Dupont
en
tEo ;:l
Freon SF tetrachlorodifluoro· ethane
t""
.,0:
Freon C316
Freon C318
., ~
M~!~,;ial Note'
Dupont
<10
Dupont
<10
Dupont
<10
Dupont
<10
Dupont
<10
Freon MF Freon TA Freon TC Freon TF
>480
0,01
o
Pioneer Stansolv A-14; glove film
<10 0-10
Pioneer Stansolv A-14; glove film
;"lifi,v;;,,/well' Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
0·10 0·10 0-10
o
<0.9
. Ans. Edm. Sol·Vex 37-165; unsupported 0.54 mm glove film
Freon TMC Dupont 23
0.0208",
:1
1
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
If
Freon TP35
,8
Dupont
<10
Freon TWD602 Dupont
Fuel Oils
#6 acidic
Ii;' <10
-
Fumaric Acid
<10
Furan
furfuran
"
Furfural furfuraldehyde • Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film
Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel Fyrquel150 Fyrquel220
Stauffer Chemical
z
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
-....I ....
c.u ....... rv
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
OJ
::D .....
,.
.~'"
• Permeation F\eagent
Reagent Note I(::onc·ITem p. . (%)
.:~
,." -",' •.••..;.;.:,.;,•..?:<.•....
Gallic Acid Gasoline
while
eli~~~,
~1. visible s"e)lIIos~ of prop:
raco.mmendad for ~e ..;; >480
producer
~.:~;; .
'
"'minor 10 moder:elteci"
Esso Golden super Shell
'23'
o
<10
123 23 23., 0.0035 2~
0.1
Pioneer Slansolv A·14; glove film
no sleady stale pelm. rate detectad
,i.; recommend8dlor'use-' :Iillle/no
"
efflcl.sev~re condo ~a~~aUse iii
<10
.::,"
.: .. Chlnge
;\~::>:.;':'
>:
may cause sl:visibleswelllklSs·ot:pr~p. .
0·10
excellenl degradalio~' toling ...
•excellent; very
,0.0208 ..
. 0·10
:~:
0·10 white
o
<0.9
0.01
0.018
1i)1I~ degradi~g
~.. •••. ~ell':
effeCt: very
SUited lor U,~f(' . excellent degradallon rati~g •.
0·10
Gear Oils Gelatin Gelatins Glaubers Salt
" \:'.',:.: ..
minor 10 mOder, may ~ause
liquefied, LPG
Material Note
Re.sistaOceNote
Rite (lIglcm 2/mln.)
('C)
...
Pioneer Stansolv A·14; glove film Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film Pioneer Slansolv A·14; glove film
• Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film
Texaco 3450 <10
Glucose <10
Glues <10
Glycerin
glycerol <10
Glycols <10
Greases
Keyslone '87HX lighl grease Shell Alvania '2 Sunoco; all purpose
Green Sulfate Liquor Halothane Halowax Oil Koppers
@
~
Helium Heptane
N·Heplane
2
$:l
~ ;:;.
0·10
'" l?
0·10
'"
IS ;:l
t"'
~ $:l
..,
It:
0·10 0·10
Hexaldehyde
N·Hexaldehyde n·Hexaldehyde
Pioneer Slansolv A·14; glove film
© "1:l
S" ~
r;'
~
o Hexane
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
N-Hexane-l
t""
>480
0: ...
...p
0.08
o
Pioneer Stansolv A-14; glove film
<10
It::
; Pioneer Stansolv A-14; glove lilm • Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
Hexene Hexyl Alcohol
o
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
0.7
o
Pioneer Stansolv A·14; glova film
n·Hexene·1 <10
HEF 2 Houghto Safe 271 Houghto Safe 620 Hydraulic Fluids Hydraulic Oils
high energy fuel water & glycol base Sunsafe; fire resistant Univis 40 petroleum base PRL·high temperature petroleum base
<10
Hydrazine
>480
Pioneer Stansolv A-14; glove film
65 65
Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glova film
o
Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
petroleum basa
40 40
Hydrocarbons Hydrochloric Acid
saturated 3 molar concentrated Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film
o
z
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film
W --J W
z
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
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:c ':':~'
MaterialN~fe
Cone.
Reagent
(%f
Hydrochloric Acid
10 10 cold
37
hot
37
cold
37
hot
excelli;nl;':~::iyIillledeg;~~i~~e#~t;_v~ry wen
9·
:23
. .
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
(Druse,,:;,}} .,. . . •........
no·p~;m. dele~l~dd~flAit~'ihrit;sl , minor,? ~g~ii'eff~~t
o
0.25
"··~uiled
'"
Ans. Edm. Sol-Vex 37·165; unsupporled 0.54 mm glove film
unsatisfactory lor uS8;'
m?der Jsevele';."~lIahor~; lO~Sol.prop. " . not suitable ror'~9rVl~8
37 >480
37.5 37.5
0-10
37.5
0-10
37.5
0-10
37.5
0-10
0.4
o
no
st~~ciy staI9P~i~~ral~;;;~I~cled
e;~ell~~ld\~±~~I~~j:fl~9
Pioneer Stansolv A-14; glove film
.'", i
Hydrocyanic Acid Hydrofluoric Acid
anhydrous cold, concentrated hot, concentrated 48 48 48 48
134
/":
23·.. f
..~~;.~ ~:~~~: '
48
0-10
48
0-10
hot
<65
cold
>65
hot
>65
•excellent
.•
90 @
90
'~" '";:s <6' t-
.,o: .,!=l
te:
dry. cold dry, hot
~
wet, cold wet, hot wet. cold wet, hot
Hydroquinone
/i.....?
. minort(;'moder.··'fjecl....
Pioneer Stansolv A-14; glove film
.•.
~'::,::~. .<~
anhydrous
30
r;'
carelul use
~:
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
30
E"
'.
Pioneer Slansolv A-14; glove film
;, Ans. Edm. Sol·Vex 37-145; unsupported 0.28 mm glove film
<10
gas
Hydrogen Sulfide
d.~g,adali~nr~ling·· .... ·.X
degradiOilelled:-c'S~i~bre U~der
.,.ieci>!iliiiendeil!oruse
gas. cold gas. hot
'1:l
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
~lillletno ~lfecl;se~er~~O~dirniivcausechange:
<10
Hydrogen Fluoride Hydrogen Peroxide
.. .•••
.,. excelien(d.~9i~~ai\~~r~~~j1;;
Hydrofluosilicic Acid Hydrogen
Pioneer Slansolv A-14; glove film ......,. -very lillie • .
0-10
<65
30
0-10
48
cold
0.001
120
o
Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film
© ~
Ei ~
n'en
saturated
f?en
o
~.
;:s
t-'
0: ..,
..,i=l
tt::
<0.9
Edm. Sol-Vex 37-165; unsupported 0.54 mm glovelilm
Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Iodine Pentafluoride
Swan Finch
Isobutyl Alcohol Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
o Isobutyl n-Butyrate Isododecane Isooctane
,';:
<0.9
<0.9
360 <10
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
...:~;:;:;:S!i~~ . excenent: verYli«le degrading effeet; , stilled lor: use· ...
Isophorone
,.. ,. """"'" ""'"".",......".
m.
~e;Y:wen" Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
unsa!isfactoriifo.(lIse··
ketone
not suitable
jo~ s~;"'lce
lliisali$ra~ioriitoilis./·
Isopropyl Acetate
.
not suitable jar service
Isopropyl Alcohol
>480
isopropanol; IPA
isopropanol isopropanol; IPA
isopropanol; IPA
0.05
o
.
;.,
23 ···~3,..
no sleady stat~ perm_ rale d.~lecI.ed 'l1)inor to modec, eUect
0.0035
0-10
··••.23 ····0.0208 23''; 0.0208
0-10
may'cause sl.
Vi$ible.~eIVloss of p;~p.
··excenent degcadation' rating :..' eXPellent; verv IitUe\degrading' eUecl; ,
0-10 0-10
Isopropyl Benzene
271
o
<0.9
0.03
48
0-10
Pioneer Stansolv A-14; glove film
o •
Pioneer Stansolv A-14; glovelilm
verY wen
'e~cell.~i~~::~~;:~;:;i~~~/ . . '. :r.. .':
,Iowperm. cale; 0-112.evedioppec·sii. ;, ., drops~r
Ans. Edm. Sol-Vex 37-145; unsupporled 0.28 mm glove film Pione.r Stansolv A-14; glove film Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film Pioneer Stansolv A-14; glove film
excenent degradetion;al,ng
0-10 0-10 0-10
Isopropyl Chloride Isopropyl Ether Kerosine
>480
0.007
o
z
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Pion.er Stansolv A-14; glove film
UJ
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
........ 01
z
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Reagent
Reagent Note Iconc'ITemp'l Time (%)
Kerosine
("C)
23 23
(days)
2.3
0.0035 0.0208
23 23 23 23
0.0417 0.167 0.25
0.0208 .
Lacquer Thinners Lacquers 23 23
with ethylene oxide
0.0208
9
85
23
0.25
9
36
23
0.0208
9
36
23
0.25
DTE petroleum ether of benzene benzin etn itrobenzin
e
Lime Bleach Lime Sulfur
CJl
~
CJl
tEo
hyd.lluid; phosphate ester type hydraulic tluids, Stau"e, Chemical
Linoleic Acid Linseed Oil
;:l
~
..,0..,~
u::
Liquid Petroleum Gas Liquimoly
(ppm)
I
Resistance Note
Rete (l1gJcm2/mln.)
<10
Material Note
.lillie/no effect-severe condo may 'cause change excellent degradation rating Pioneer Stansolv A-14; glove film excellent; very IIltle'degradiri"~ enect; very well Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film . suiled for Lise • .
0-10 0-10 0-10
o
<0.9
excellent degradation rating
Pioneer Stansolv A-14; glove1iim
low perm•.rate; 0·t/2 eyedropper size drops/hr.
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
- unsatisfactory for use not suitable for service
recommeOdedlo(use" <10
1
o
o
9
LPG
8 8
-
-
23
8
-23
exeelleni; vefyliiile degiiJdiiigelieCt;VeiYWeii Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film suited for use Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film no perm. detected during a..B.hr. test
minor to mOder. elfect may cause·sl. visible swelliloss' of prop. .. <10
recommended for use"
Ilttlelnoel'e.FMe¥ere.• 99g&.m!!X.F~H~e.,9Mgge,. ····ijiln·Oi tiin'iOdiii.iiffeCf"·-·· may cause sl. visibleswelVIoS$ 01 prop." recommended lor use
<10
little/no effect·se.ere condo may cause change
8 2 1
recommended lor:tise unsatisfactory lor use not suitable for se!Vlce -=----=
2
unsajl~fai::iorYloi ~f~ no~ suitable 10rse!"ice
23
-
<0.9
unsatisfactory for use "recommended lor use little/no effect-severe cond,.,may cause change, not suitable 10r'seN!ce excellent; very little degrading effect; very well Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film suited lor use low perm. rate; 0-1/2 eyedropper size Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film drops/hr.
minor to mOder. effect may cause sl. visible swelVloss of prop.
6 6 6
6 6 8 8
23
r;'
8 8
85
-
Lead Sulfamate
~
IlOl
t
23 23 23
23
P
8TT (min.)
2
-23
Lead Nitrate
"1J
8 8 8 9
permeation
0-10
6
Lead Acetate
Lindol
8 8 9'
Volume
8
23
@
Rating
I
1
cold hot
Lavender Oil
Light Oil Ligroin
Weight
2
cold hot
Lauric Acid
Ok Change
POL
2' lacquer solvents
Lactic Acid
I
6
-
23
6 8
23
8
8 8
minor to moder. effecl may ca'use ~1. vISlble$welyi~shf prop_
"Iecoiiimended"lol\ise
<10
!i!!!~{gp'ff~9k~~re!MRMml~i:£~~~~;fll!m~~ iecomiiieiided
"ioriise" :;:~",
,
~
@
'U
po
~
I~~a~~~f:
Fi' VI
f? VI
tEo
~..g.nt·~li~~t~,
. ~.,
'~'
Lubricants LUbricating Oils
;:l
t-<
c;: ...
...
I=l
u:
Lye
H2; high viscosity U4; high viscosity di·ester petroleum base SAE10 SAE20 SAE 30 SAE 40 SAE 50 petroleum base solutions
"
Resistanee
8
,
8
L
;;'::
u.~·:,
u: , .8 '~:~"
8
.:r·
•
<10
6·
8
"
.Utile/no ellecl·se~er~:cond. may' ~8~sis change
<10
8
r"coiiiiiiende~jo(u¥~
8
:•.:':" •lllino(
.6 1.
il
saturated
o
8
8
<10
..
8
.,. :8 ,
vapors
8
. ··23 ':"
8'
23
8.
<10 <10
}inle/no elfecl'severe cond.maYH~~cMR9~: . nPlsuitabl~lo;s~iV'id~
~23<.
1
·.. ··:1(··
<10
fi!l!~!o~
'2' :;
23
-
-
2 1·
:.S'-·''':
;ry9! sUl~bl;Jor~ervlc,e ..... \/
..
not ~Ujt~bI8fo(s;;rvlc,e
1·.•.
.6
.. ;unsilil~riictoiYlortise
uiis~iis-'acloiYJor~"
'2.
methanol
.e\
r~,coinm~·~e~~fo~use elfect-.severe cori\l:may ce~s~9AAMf , unsalis.factory lor use
n;;($~il~~le 10' se~ice.
1 ." ')!~
2i
:'"."
n(
····8,:{.. .•··
Methyl Acrylic Acid
"."'
;./;.:::
uosatisli.clorYO lor:use.
Methyl Acetate
Methyl Alcohol
U :.>"
(j
ketone
Methyl Acetoacetate Methyl Acrylate
.
·excell.ent;:·vely;ti·til~'deiir~~j~g8ilecii very well! Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film .;. •.•..•..•. \: .•....• sulleil lo(use·... . . ... . nv~e;;;~e\~P!;q:durinJla6I)r,lesl . Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film 7 ·······.iunsallsilii:ioiY.(Qi use n.ot"s~itatilefllcrser~ice recqlllf\lended for use !\\!WM~~~~I:se~ere cO.nd, may cause change O. •• 'recommended ior ~e . " .•
i
9
23.,::
io !)loder. effect
/:·!~~f:~:::11~IZi~!::e ."
.'.
Maleic Anhydride Malic Acid
_':
may S'l.~¥\~I;ri~iJ'J&~.W!IVloss 01 prop. reCOmmended'for use'
,8
Magnesium Sulfite Malathion Maleic Acid
',:': :.:::.::. ....
.minonomoiiil!';~Hecro
ft·
Magnesium Salts Magnesium Sulfate
,.u':::~~:,
,',' :":'.' :::
iitUe/n&ellect.seve.i~~M~,.n'l.yca~se.ch~rig~:.
<10
6.:
~j
• '," _ ,.z.",
1it1181no efl.ct'severe.c·ond: may.caUSe:chen9,e, . .' .••• {llliior!~ ni~~r, elf~~t m~YAA~~~~1. visil!leswe1Ulo~s prop. ...... ·····recomiriiihdiid lor use::~:;:::·~ :
!l'
Methacrylic Acid Methane
,
re~~mmended·lo;~;e· .
8
8 ...
Mercury Chloride Mesityl Oxide
'::>:~I
minor 10 ·nfoder. ellec!
6
Mercuric Chloride Mercury
recommended lor use
6
Magnesium Chloride Magnesium Hydroxide
Material~bte .
Note,
118
0.08
-~.,
";:.,-
18
<
.:-.. ,
" recOinm&nd~d.for us~"
z
OJ :IJ
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Pioneer Stansolv A-14; glove film
U) -...,J -...,J
z OJ :n
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
u:> -...I
co
Material
'Note
.~:
methanol
"23 .
23/ methanol
methanol
.. •••.... . ···~9~mfi~d.dlQit+Se•. ,. i~tle/,;6 efj~cl:sewecoridTfuaYJ~u.~echange
<10 <900
11
0·10 0-10
0-10 0·10
'~~~&:!::::
Ans. Edm. Sol-Vex 37·165; unsupported 0.54 mm glove film Pioneer Stansolv A·14; glove lilm Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A·14; glove film
Methyl Benzoate Methyl Bromide Methyl Butyl Ketone Methyl Carbonate Methyl Cellosolve Union Carbide <90
11
Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove film Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film
Methyl Cellulose Methyl Chloride Methyl Chloroform
131
0.05
264
Pioneer Stansolv A·14; glove film
522
Pioneer Stansolv A-14; glove film
21-30 >30 >30 >30
Methyl Chloroformate Methyl Cyclopentane Methyl D·Bromide Methyl Ether
monomethyl ether dimethyl ether/monomethyl ether methyl ether
Methyl Ethyl Ketone
MEK
<10
<10 6
@ ~
is'
~
'•...•:••".
III
0'
Methyl Ethyl Ketone Peroxide Methyl Formate
~
Methyl Glycol Ether
III
lEi'
;:s t""
.,0: .,I=l
ll:
11
~:
.. :.... Ans. Edm. Sol·Vex 37·145; unsupported 0.28 mm glove film
<90 Edm. Sol·Vex 37-145; unsupported 0.28 mm glove film
Methyl Iodide
@
"1:l
is' ~
f
o·
'"f? ~o
<5.
Ans. Edm. Sol·Vex 37-145; unsupported 0.28 mm glove film
Methyl Isopropyl Ketone
;J
t'"
;: .,
MBK
Methyl Methacrylate
.,i=l
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Methyl Oleate Methyl Salicylate Methyl t-Butyl Ether
MTBE
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
o Methyl-2-Pyrrolldone (N-) Methylamine
NMP
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film Ans_ Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
o Methylaniline
<0.9
<0.9
Ans_ Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
monomelhyl aniline
Methylene Bromide Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Methylene Chloride Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Methylene Dichloride Methylhydrazlne
monomelhyl hydrazine
Methylphenol (3-)
m-melhylphenol
210
5
126
Methylphenol (m-)
3-melhylphenol
210
5
126
>480
0.02
o
Milk Mineral Oils
Pioneer Stansolv A-14; glove film
Univolt #35
<10
Mineral Spirits Rule 66
Pioneer Slansolv A-14; glove film Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
z
OJ :0
(J.)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
........
co
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
OJ
00
o
:n
Reagent
Reagent NoteTponc'lTemp'1 Time .. (%)
Mineral Spirits Rule 66
Morpholine Motor Oils Muriatic Acid
70
('C)
(days)
IRating POL.
23 23
'0.167'.;8 0.25' "'9
23
0.0208 ',':,.1
23 23
0.0035 0.0208
% Change
I
Weight Volume 0-10
9
o'S
10
23 '23
YM&P
23
0.0035 "S'"
0.0417 0.167 0.25
8
Naphthalenic Acid Naphthenic Acids Natural Gas
~
23 23
2 1 6' 6
23
Neats Foot Oil .. 23.
Neon Neville Acid
23
aqueous
2'/"
<E' ;:l
t""
..,c;: p.., (l:
<10
't .:; .8.
<10
. ·,.1
<10
8".,... ~
..)'..8,·:~
,~;~~;..~.~) l~r:::i~~t;el~~eJA~~~!~"'"
red fuming; RFNA
,ki~:?+ .'~
Ans. Edm. Sol·Yex 37·165; unsupported 0.54 mm glove film Pioneer Stansolv A·14; glove film
no~erm. d~tecteddu'ing.a ~hr.test
o
'''iiOsfeai!Y Sialepeiiii:iaiedelecteif
moder. to seve,eeff~ct mey cause si. Visilli~ s,,~'lIjloss 61 piop. excellent degradatlOW~~ng ";:~::
;~" '.
<0.9
.:.'.. ~.
Pioneer Stansolv A'14; glove film
:::::~:",:,
:~.:
low perm: rete;.l).1f2 eyedf:;per siie Ans. Edm. Sol-Yex 37·165; unsupported 0.54 mm glove IiIm ,,-< d~oesJ~r.. '., ., ..... excellent; very Iinle degrading efloct;very well' Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film sulled lor use . unsalisiiietoryio, use no.t.sultableforservic~ .. may cause s!:.i$ibie sweliJiossoip,op: . minor 10 moder. eflect·· '. lecommended for u5,o;:' • .... .• liW~!r0 effect·severe condo may·cause ~MQ~~ ,recommend,d fot us~· •.
litl!~!r9~'!'RM~r,\~~~~~·m!l>)'B~,*~Ph~~Ql
'lecoiiime~de~j()f~se\ . , ...... vtiiisallSflido/Yfof'uS'e ~ot suitable t~r service minor 10 model. effect " may ~use sl. visible swe!V.los$ 01 prop, recommended lor use.· . '\1\l,l~o eflect'$ever~ condo may ~~~~'~h~n9' 'recommended'lor use •.•.•
l'
6 8
excellent degllldation rating Pioneer Stansolv A·14: glove film low perm. rate; 0·112 eyedro~per siz'e . . Ans. Edm. Sol·Yex 37·165: unsupported 0.54 mm glove film deops/h,l. ".:,:;.'::' not roc!immended.. .. Ans. Edm. Sol-Yex 37·145; unsupported 0.28 mm glove Iilm reconim~~ded i~r u~~; ; no steady state perm. rats'detected Pioneer Stansolv A-14; glove film exceOent degrildatl9~ ratin'g ·.excellent;very littledegrading··etfect;.·.ve,ywell: Ans. Edm. Sol·Yex 37-145; unsupported 0.28 mm glove film . suited for'use . excellent degradation rating. Pioneer Stansolv A·14; glove film
;
8 ." 8"
Material Note
Resistance.Note
:~::
.6
aqueous
Nickel Chloride
:::::,:,~:
0.02
0·10 0-10 0-10 0-10
<2. 23.
(J)
>480
o
8'
Nickel Acetate
tl C\)
0
o
23.; : 0.0208
Naphthalene
(J)
0.4
0·10 0-10 0-10
'~.::,-
10
S"
>480
4
23"":; 0.0208
~ ;:;.
<0.9
0-10
'9
, 23 23
'0
o
9
23·' 0.0208". 23. ; 0.0417 "'::8 23 " 0.167 ,,8 0.25 23 9
Naphtha
@
(:;) IJ~~;)IJ~!!f~~iZ~!ll!1
Esso
S.
Nickel Salts Nickel Sulfate
Permeation
"')"
::
,....
u=
;;:jjJ~~lS .. :~
:
@
'i:l
S ~
RealJe~t "{:.
r;' CJ>
tl
Nitric Acid
~
CJ>
to·
~;.;;,.;~~f~!tt~;:
inhibited, red fuming red fuming 10
;:l
~
10 0·50 50 50 50 50 50 70 50100
., .,j:l
0"
u:::
o
no,p.~rm,detecled
during 8 6 hr;.lesl 'iloisuitabhlfor service'
..~
72
0.07
,. "."",," '" ""'""""..".., , ".
'. Ans. Edm. Sol-Yex 37-165; unsupported 0.54 mm glove film
1206
Pioneer Stansolv A-14; glove film ., excellentdegradalion rating
0-10 11-20 11-20 >30
,gO:>d degnid~ion
(Sting"
Ans. Edm. Sol-Yex 37·145; unsupported 0.28 mm glove film
Nitrobenzene
60
90
Pioneer Stansolv A-14; glove film
Pioneer Stansolv A-14; glove film • Ans. Edm. Sol·Yex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove film
Nitroethane Nitrogen
textroxide N204, 1 <10
Nitrogen Tetraoxide Nitromethane 30
<900
Ans. Edm. Sol·Yex 37-165; unsupported 0.54 mm glove film Ans. Edm. Sol-Yex 37-145; unsupported 0.28 mm glove film
Nitropropane Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film
Nitrotoluene
with 60% dinitrotoluene
Octachlorotoluene Octadecane <10
Octane
N-Octane n-Octane
Octyl Alcohol :~'. .~i;?~:w){~: c.i::.;;etll well' Ans. Edm. Sol-Yex 37·145; unsupported 0.28 mm glove film
o
<0.9
z
OJ
::::c
Ans. Edm. Sol-Yex 37-165; unsupported 0.54 mm glove film
cu
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
00 .....
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
00 N
OJ :0
~eagent,
Reagent Note
% Change!!
I
Iconc'ITem~'I'Time P,~~ "I·welqhll'1(~1.1h) V~I~'ineTsn.. -I.(ll!'.'!!) LD.L. .'.\ ..Rate ('M ('C) (days). Ratlllg {llgl~m2Imln.)
Oleic Acid
". 8./:.... 9
0-10
,23 ';; 0.0208 0.0208 0.0417 0.167 0,25
8. 8·,.· 8 9
0-10 0-10 0-10
0.0035
23 23 23 23 fuming sulfuric acid spirits fuming sulluric acid
23
'.• :,8"
6 ".
cold liquid cold hot cold
20 ppm; tested per ASTM 01149
23 23···· 0,0208 0.25
CIl
f? CIl
saturated
23;;
1
2 2
;:s
s::0., .,P
to moder. effecr unsatisfactory lor use '.,. may cause 51. visible swetVloss~1 prop. 'not suitable 'fo~ servi~e ' /
..
unsatislaclory tor use,:
not suilable for service . consid, cracks alter 6 hrs.• broke. afler 1 day
o
bl.pig.; 1.9 mm slab; weath.res., med. low AN; strain @ 20%
-t. unsatisfactory for use not suilable for ser>:ice
2
23
1
23
,f,
23
8
23
0.0208
recommended tor 30
;>. 343
216
23
23.,
.0.0208 . 0.25
S' . .
"
iecomm'ria.di~i ~f~ little/no elfect·severe cond, matcaiJs~shange.
<10
excelleot.;~e*iiHi~deliiadiiige~iCliWiY\ii'iill:.·· Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film . ". S~lted lor usa .'. :
'9 .'., 9'·
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film little/no elfect·severe condo may change. minor degr~ding ellect; suill$le'~nder carelul Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove lilm use. Pioneer Stansolv A-14; glove film ~."
>.. 8··.. 8
~se
ca~se
<10
polychlorinated biphenyls; 50% TeB
23
Pentachlorophenol
Ans. Edm. Sol,Vex 37-165; unsupported 0.54 mm glove lilm
min.9~
f.
23 40
Peanut Oil
cEi'
suited lor use" ". no perm. detected during a 6 hr. test..
o
9 .6
B.
saturated
PCBs
may cause sl. Visible,sweU!l~ss~1 prop. ,e~c.nent1·.very../itlle degrading·.elleel; .•very,well·. Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
9.
93·149.,
Ouco
~
r;'
"~v'::
23.· .
Palmitic Acid
~
I
;.. 6
Ozone
is"
UnSaliSfactory for use' not 'Suitable tor s8rvi~e' qnsati~faclory lor u$~ . minor to moder. effehi
·2 "6'
as 45 type III as 45 type IV
Ans. Edm. Sol,Vex 37·165; unsupported 0.54 mm glove liIm
.IWle/no. ~,f~~:!:~~Y~r:~:f9Q~(m~XR~.~:~!S.~M!I~.: .' , "'minodomOiieDeflecf .
<10
1
23
@
low perm. rate; 0-112 eyedropper size drollsJh!:,.. .x .," unsatislactory for use minor to moder, ellect may cause sl. visible swelVloss of prop, ··iecom~8riiiedforus8 .
2.
23
saturated
Paint Thinners
<0,9
'........ 8 .•.,.· 23,.,
Oxygen
0
2·' :6' '., 6
Olive Oil Oronite 8200 Oronite 8515 Orthochloroethylbenzene Orthochloronaphthalene Orthodichlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid
\;."
Material Note
moder. 10 severe elfect moder)severe s",ell-andlor los;; otprop. excellenf !legradaUoh r~ung, Pioneer Sfansolv A·14; glove film excellent; very. lillie degrading eflect"very well Ans. Edm. Sol,Vex 37-145; unsupported 0.28 mm glove film suited lor use: •. ";.\.' .:. excellent degradation rating' Pioneer Stansolv A'14; glove film
4 23 23'
Resistance Note
.
..' ....
Oleum
. • Permeation
o
<0.9
low perm. tale; o·,d eyedropper size .. ~rop$/hr:,,/.
Ans. Edm. Sol·Vex 37-165; unsupported 0.54 mm glove film
©
E;~:::"
.
:';-.
.-:::.:
~.
...,.......
.:.~
:";,:-.
",:"~",,:,,,"I;/"
,',,><,
~ i=l
~
n' CIl tl
Pentane
~
CIl
'::::/23:::";:
15'
::J t'"'
.,0: i=l .,
ts::
O,25:':l~\')
0
<0.9
:,#::!2i\',If!mr;l~l§i.(bUtiin~ropi(~t~lII.\ Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
Pentane (No) Perchloric Acid
I
60 60
JIJ1:~~j~l[ 0~0::8,!,.~ ,j1i\1~; ~;1 .:.:~::::::::.::~:::::;.:.:.:.
Perchloroethylene
fJ(1::?::;:-::'" '~«&k+:':'
0
.[\!t%\::,)
373
}ij';1H.·;
0.0002
300
!!~~:iJ~:~,~r~~~lf~l;i~;!:f~JW!!i!f~!o!:::.:::.:::::::::::::;:::::::::::.::::::::::: :
27
:fJiM:f@::@%@:W<% ~iWi~~:i@¥?}t::\:::· /NilWi:Mf\ ::t
<9
':\ieri'Qoiid"ij8fuiN
Pioneer Stansolv A·14; glove film
Pioneer Stansolv A-14; glove film Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film Pioneer Stansolv A·14; glove film
;;;~~\j:~ 0~01:1:~~i[~;;i;l1 ~::~~ Petroleum
/;'-·23')/
above 250 deg below 250 deg
Petroleum Ether
Petroleum Oils Phenol
Ub!:!'.;;;;:
;;;g~::;
';1l~X;.,t
iXHSFrw
;)~)y"
; ; ;~~j:~)llj~~littltt~~;f~,g;1l;\:llll;J;1.,{l:1-;
"
::{ tEii9stea:c!i~j'IO)e)jij;'l!iiii\letiic('d:':;,.::,·"
Pioneer Sfansolv A·14; glove film
"
<10 >480
0.02
0
crude
o
>480
saturated
Pioneer Stansolv A-14; glove film
carbolic acid with 30% H20
70
with 15% H20
85
Phenyl Benzene biphenylldiphenyl
Phenylethyl Ether phenetole
Phenylhydrazine Phorone diisopropylidene
acetone
Phosphoric Acid
3 molar concentrafed Ans. Edm. Sof·Vex 37·145; unsupported 0.28 mm glove film
o
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
20
z
OJ
::IJ
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
CXl
W
c.>
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Z
ID
00
+>-
:::D
I
."~
Reagent
I
Reagent Note ICone. Temp., Time (%)
Phosphoric Acid
20 45 45 85 85 85 85 85
('C)
(clays)
1·(
% Change
POL
Weight
Rating
I
Volum.
Permeation BTT (min)
Resistance Note
lOlliale
<J~!lm) .;.iHlir~~2/mln.)
23
m.y cause sl. Visible.swelUloss of prop. . ·unsaiisfaclOry lor use:.
not~oilable for~eAtlct
23 >480 23 23 23' 23
0.0035·,. 0.0208 0.0417 0.167
a .B'·'·
;~{
Phosphorous Trichloride
0.04
no steady Slal~ perm. raiedei~c;ed excellenl d;gradatidn r~ilng .
o
0-10 0-10 0-10 0-10
· ,.. m.
.'
1.
unsatisfaC10ry lor use not suitable lor service
1
n~!suIW~I. lorservice.
unsatl~.r~C1ory for use.
Pickling Solutions 23
minor 10 modei:eflec(;..
H20 solulion molten saturated; with ethylene oxide
160
23
<9
saturated; with ethylene oxide
very good perm: rate; 110 5"ey'edropper'size drops/I", •
il.
23;0.0208
while
6'
5 white
23 23
.
Pinene 23
others chrome others
23
.... 8:,. PC8s; 50% TC8
<E' ;:l
t'"'
0: ..,
.., p
\t:::
216 minor to m.oder. efl~f.1
.···:.:.::m.yp~u.~ .•::~.liJ~\\>\.::W' ...WI~~sol prop.
23
.i.6 '<'8· 8
<10
23
8 8
recommended for use.' 1it1le/no ellecl-Severe.c~ncl.mai.~a.use.change.· ritcommiindedfo!use;C ~
<10
!ittl~M\"II~.~"se.ere . cond,;m'l;g~IWl,9Mg?:
<10
r~comme~.~~d:for u~~ little/no eflect-severe condo maY'~ause change, recommended lor use
<10
J1!!I~(gp.'f.Hj~.t'!.9~N!-- mayceuse chan?
23.
8.
23
,8 .
Potassium Dichromate
8
C
tp
Potassium Hydroxide ,~3
KOH
Pioneer Stansolv A·14; glove film •
", ..•8,
CIl
~
343
6.
.... 6
©
CIl
notsuita~!e I?~service? . . . . 1it11./no ellect-se~erecorid. mayg~~MMn~.; recommended lor use
<10
Potassium Cyanide
r;'
mehause sl. vlsibl~sWeIV~~iolpr~p. unsatislaC10ry lor life not suilab.le for service recommen~ad 10f uSe'
8
Potassium Cuprocyanide
~
notsUi\.~!el~r~8ryJC~~i. .mirioi·jomO
23
.23
po
6·
,."
Potassium Chloride
"0
,
may ceuse sl. visible sweIVIoss of prop.
2
23
Pneumatic Service Polychlorinated Biphenyls Potassium Acetate
."
6.
.6
Piperidine Plating Solutions
Ans. Edm. Sol-Yex 37·165; unsupported 0.54 mm glove film
'may cause visible sw~IVlos~ o! pr~p. . :,xcellent; very'uttle degrading eli&,; very well: Ans. Edm. Sol-Yex 37·145; unsupported 0.28 mm glove film .• s~il.c!loi.~~ . 8.L . ;'/. ..... niinor 10 moihii:ei!iip( "",'
23 .
Pine Oil
Pioneer Stansolv A-14; glove film
."
2 23
Picric Acid
Material Note
50 50 50
23 23
>480
50 50
23 0.0208 2:3 •.. 0.0417
0.0035 0.0208
8 9'
0-10
';;:;
0-10 0-10
0.4
o
'iiilnortoIllOdei; elfect •.. mey cause~!. v~ible swel~lo~~;;iprop. .' no sleadistaie pelmi late'd~tected ,. Pioneer Stansolv A-14; glove film excellent degradation r~IIAg " excellent; very little degrading 8ffecl;:very well •. Ans. Edm. Sol·Yex 37-145; unsupported 0.28 mm glove film suiled lor use .';' . excillletlt degradation raling Pioneer Siansolv A-14; glove film
@
% C~a~ge, ;v'
"1:l
po ~
n'VJ ~ VJ
Reagent Potassium Hydroxide
1.5'
Potassium Nitrate
t
Potassium Salts Potassium Sulfate
Reilgent Note Iconc'ITeml1~ KOH
('lb)
('CV
50 50
23 23
;:l
...c:rp ... \t:
POL weI9MrVoi~~
ITime
(days) Rati~g 0.167 0.25
'8
9 8 8
23
-
pe~me~tJon'
ii'I"tI"DLI" Rate'l
,m~) '.',"", ,,:~.::":; ;':;;~~it: . t._ ,t:'
0·10
8 8
Potassium Sulfite Producer Gas Propane
8 8' 8' 8 8
23
Propane Propionitrile Propyl Acetate
<10
.
" ...
~.
-little/no effect·seve.re c~nd·.may
<10
200
<90
Propyl Acetate (N-) Propyl Acetone Propyl Alcohol
2
23
1
methyl butyl kelone
-
1·propanol
23 23
. 0.0208
8 9
23
0.25
9
Propyl Nitrate
2
23
1
Propylene
-
'2
Propylene Oxide
-23
'2
hydraulic fluid; Monsanto
23
1
hydraulic fluid; Monsanto
2,3
hydraulic fluid; Monsanto
23
1
23
1
23
2 2 '8'
'23';
".1.}.,
..t(, ... ~r~ps!~!
.unsatisfactory for use . not suitable lilt serVice unsatisfactory. lor user n~t sUllablelo, servic~ '~lInsailsiacioJYloi "se c" not sUitable for serVice 'lIot recoi;;Jjl811de(: unsallslaetoiyJor u~e < ,.
Pydraul 312C Pydraul 312E Pydraul50E
unsaiisiiitlory fOr use"
lIiisatlslaClorY'foiiise
not sUiiabje for servic~":, ..:;..'
."
Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film
nOlsuiiabl~'jofservice'
1
.~;:
hydraulic fluid; Monsanto
w
i,~ots~ii~ble (0/ s~\viS~"
'2
Pydraul 29 ELT Pydraul 29ELT Pydraul30E
:D
<0.9
exc;f1e~t;very little degradiilg'elrtict; veryW~II: Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film " , ' \ . SUiledlo,r ~s~ . , low perm. rale; O·II2·eyedro~per size . Ans. Edm. Sol·Yex 37·165; unsupported 0.54 mm glove film
'2
Pydraul230E
Z OJ
o
1
2
Pydraul 115E
I
litt;~)n~'ell~~~::;er;:~~:~:I:a;S~ij;~~han9~
<10
1
-
Pydraul10E
., ;'"risaiisfliCioryloiuWY ;. ,,;"> .nol sJitabla for s.arvice
1
..23 23 . 0.0208
Ans. Edm. Sol·Yex 37·165; unsupported 0.54 mm glove film
fair~ Il!Clder~i~degradlrig~!fe~{su~~bleunder Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film ,.:.:"., ,A.S' c.aref~I.~~~%l':. ..ii»..
8
-
unsali~f!lctoryJoruse' . /, good pe;m. rate~6·50 eyedropper size ," ;,.:>dr9P~!'· ".....:-.:.,
. ... ::·.:..~9t;uil~blefoi servi~e}»
1 S.
--
c~use Ch~nge'
reco~mend~d:for.use
':~
: 0.0208
'"~,. ,,,,,,,,,,,,.
..
6
.23 23
""'''
1;m~m9~ff~9k~'1Ytr~~9~~;m~y~~~~~ph~rM. )eeoi1li1leiide~ioi"se ..
<10
2'
23
••
,M~terialNote
··no perrn. d;t~cledd~ijpg li6h6i~,st· Ans. Edm. Sol·Yex 37·165; unsupported 0.54 mm glove film 'tecommeriil.&dlor"se( ....• )il1!~1#9~!!~£l,Wf~i~~A~il,lI)aY~ause chimge , ... ' ieeommeiideiflor lise
o
8
23
I
Resistance Note'
.'
unsatisfactoryioi usel <10
~~tlelro,e.ff.~t;~~~.r,f:c1r,;~'··~~Yi~~~~j~a;;:~.~
•
no\su!l~bl.eI~u~(v!ce
"uris~ti~'aC1o!y: fOtus.e
2'
} hydraulic fluid; Monsanto
<10
U)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
co 01
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
00 C1>
OJ
::D ~;~:' ....,
\)
ii~:gent IIi;
,
iiT
I
R~agentNote Cone., Temp. 1;i'Tl e I:~o.l:: .:.,
.,"
'A;.
•
, (%){'c)
(days)
.wel..9.'·.hl'.• · .,
Ra.MS '
-,
-~~-~
hydraulic lIuid; Monsanlo
23'
Resistahce
hydraulic fluid; Monsanto
,. t23;'
::.
Pydraul90E
'~.
Transformer Oil, GE
::.,:'''':.~.'':;.'
8;' .
<10
23
8 8" •.
<10
~ltl~I~O .ell~ct:~~~erec9ild, may.c~u;~c~an~~
"recommendedioiuse"
' ': 0.0208
'.~3·
. . :....}lln~@WICto')'foi~se) ... nO(~@~ble lor service
Pyroligneous Acid
.?,3 Pyrrole
8
.,23
MIL·H-5606
. ;;~; ~uitable for service j\m~/~o ellect'sevele condo may .cause cM~lm minor to moder. ellecl . lliaycausesl:;'islble.swelVioss. ofjlfop•.
<10
iihl;~l~~~~\~~{;:~;~;~~;~~:;~~~'~;;~~~'
::.::~
<10
Refrigerants
RJ 1 RP 1
at sat. vap. pres. DuPont ternary blend MIL·F-25558 MIL-R-25576 MIL-H·25576 C
Rule 66
9a ·,8····
Sal Ammoniac
?? VJ
tEo ;:l
t'"
0: ..,
..,p
tl:
9
0.0035 0.020B;· 0.0417 •
0.167,
.eiio~i1ent;.Y~iyliJtJ~
0 >4S0 0.001
Salicylic Acid
<0.9
>:
Silicon Etch Silicone Grease
chlorinated
excellent degradation rilling
Pioneer Stansolv A·14; glovelilm
i,
·tiri'ein~··~lfe~:~:::er;!~::~;~~~~;;~~~~h~~.~~·.· '~afcau~~ sl: visibi~ s~ewIoN9fp(~P'" . unsatisfac10ry for ~~e.
2'"
2: ,.8' .
degrailli.gefl:e'ct;yeryWiiin·· Ans. Edm. Sol-Yex 37·145; unsupported 0.28 mm glove tlim
··c.. "'mlnor to moder.·effei:t·:'····
6.: 6
Salt Brine Santosafe 300 Sea Water Sewage Silicate Esters
.. ",;
110 steady stale penn. rale defected
0
0-10 0-10 8 8 ., 0-10 0-10 ,8. <10
.
; ;~£~~'~: ~ai~:~ii;~S:';;o~eu~>:;li; Ans. Edm. Sol-Yex 37-165; unsupported 0.54 mm glove film
'8
.8;
"
.
little/nO eflect.~evere condo may 'ca~se cliange'
<10
"8·
"1:1
n'VJ
'9
0.25
:':"::::-;":'
9
23"
~
0.020S
solvent
:,;.2,3 . ,;.2.3'
P
recommended for use
8
23.
15.9x305x1 mm hose
..0.93S Ibllt~yr polime'alion loss . . . . .,:.... 8
23
@
O:56iBiii:yipeiirie~tioilioS's
9;3
,
Rubber Solvent
Ans. Edm. Sol·Yex 37-145; unsupported 0.28 mm glove film
,
··.···Il~salisiaCioiYforlJse
? '," ~'
Red Oil
.
oil
RJ 1;MIL-F-25558 B
",
.• 23
"'23
Ramjet Fuel Rapeseed Oil
'ullsatisfacforyior use
'. :..
'llt1iel(iJetteCI'Se~eri~onl~aYcause change",. "":.:/ .. .;:\ ;:-- ,".: .
<10
'unsatis!llClciiyforuse 1it11.~lrioelle~l·severe condo may caus'" chang'e
Pyranol
"
<10
',
..',:,
,
..~:
','
.~llIeliio ellect-se"ei.e
.
,,:.
"'~:'
}:::
'."
condo may cause change.'
. ~~?m,!,ended!o(~use\.>
,;~'ay' ~;~~;i:r.r~i:i::~eiM:;~0,~;?~; 23'
Material Note
unsatisfactory tor use:
2
hydraulic fluid; Monsanto
.'
.-
~ot "-~itablewservi;;~
2" .,
·.8·'·. .
Note,;
; ; >I
1
Pydraul65E
li<
.....~\~
.2'
Pydraul 540C
Pyridine
;-;-~ch;nge;
'.j"9t iecomm8nd8'd"-~.• '''' .,., Ans. Edm. Sol·Yex 37·145; unsupported 0.28 mm glove film
0.0208 ,.,..... F .V
./ .
<10
'ii"i/h~itl~~M~vei~ c6nd,"m~Y'c~use ~!I~nil~
.
@
1
I
I::':':':' :?~; ,~::'
I::,. '.-'.':::'.::: 1 .. ~', :;.:: I ._~'-::::'7'_" :-'.~'" 1• I_..... ~ V';
I'
I
I
... :~.:.:.;,:.:.:-:
"1'"
'"
P V> ~
~
\
Silicone Oils
;::;;: I :;:~::';.... .,".' ..:::"':;,:'::"...-~. ::.: :.:'.... :,.. :::~: ;~: :,.,:.::~ .~;::~;;: :":::- :::::. :~:: .'.::~ :.::::::: :':~, :j~
_
_
C1l
cEo
~:n7:~~~:::~:'":::F::J.o:f::!-::~7f::::::P:':7:~:::'::::::~::::~7:K T" 1
:;;:: 'I
2 3 8 " ,',
<10
Silver Nitrate
;:l
s::
Skelly Solvent
~
Skydrol Skydrol 500
Sf
It:
solvent B solvent E hydraulic fluid
''''''23:' . 0.0208
':'" \n6irecoml(le~iled>;,;;
,t' '",
,'n Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Monsanlo; hydraulic fluid
Skydrol 7000 Monsanfo; hydraulic fluid
Soaps
solutions
"
Soda
i:i23
8'i"
ASh;;:~l,;i:1
< 10
"(;:\;]-
<10
J( ,
<10
Sodium Acetate Sodium Bicarbonate
baking soda t23
it
Sodium Bisulfite
i\
Sodium Borate Sodium Carbonate Sodium Chloride
;"
'''' ,:'2~,
<10
8,:::
ii,/
< 10
soda ash
Sodium Cyanide Sodium Hydroxide
,.8" • 23,,:' '/8, .:
C' 23" 8/ ,,' ",8'i
<10
>/23,
<10
8'
: : ; li;;;~~~i ~;; ;,,>,/'
NaOH
,~n. '
>.M
5ori~3;' 0.167 ;" 8' '\; 0-10 50 ',~,k23 0.25(';,,9"
-..
0'
0
0
[j.lt;w".,.:::.,~:::~,:.~::::~~. . , nO,Deiiikdetiicl
} Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
Sodium Hypochlorite Sodium Metaphosphate <10
Sodium Nitrate Sodium Perborate Sodium Peroxide
z
OJ :II
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
(J.) (Xl
--..,J
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
Z III
(Xl (Xl
::D
Reagent
(%1
Sodium Phosphate
.!
Reagent Note Iconc··ITem p Tim~ I" .p. DL ('CI
-Material Note
(6ays},~!I!h'ig
dibasic mono tribasic
23
<10
23
<10
Sodium Salts Sodium Silicate Sodium Sulfate <10
Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil <10
SR 10 SR 6 Stannic Chloride <10
Stannous Chloride <10
Stauffer 7700 Steam
Stearic Acid Stoddard Solvent
Ans. Edm. Sol·Vex 37-145; unsupported 0.28 mm glove lilm
o
<0.9
Ans. Edm. Sol·Vex 37·165; unsupported 0.54 mm glove lilm
<10
Styrene Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film @
'p"o
Sucrose <10
~
Sulfite Liquors
C/>
Sulfur
ri-
1? C/>
15;:l
t"-
o:... ...I=l
Sulfur Chloride
@
'1:l
P ~
ri-
'??" '"
dry liquidified; under pressure
~;:l
wet dry
t-'
0: ..,
..,
liquid moist
$:l
<.c::
Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum 20% oleum concentrated dilute battery acid
47
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
o
47 >480
50 50 50 50
0.04
o
50 95
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film Pioneer Slansolv A-14; glove film
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
Sulfurous Acid Tannic Acid 8
tannin
~j
<10
10 65
Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film 0.25
65
Tar
bituminous
Tartaric Acid TOI
9
,2'3\
"Ii'
:[f-j~31 i
·,····):~';i'"
0
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
!j <10
toluene diisocyanate
Terpineol Tetrabromoethane Tetrabromomethane Tetrabutyl Titanate
z
OJ
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Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
00
co
w CO o
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
OJ :D
Permeation I"
I~eagent
Reagent Note Iconc'ITem p. ('Yo)
Tetrachloroethene
('C) 8
23
300
Rale (llglcm2/mln.)
Material Note
<9
Ans. Edm. Sol·Ve. 37-165; unsupported 0.54 mm glove film Ans. Edm. Sol·Ve. 37-145; unsupported 0.28 mm glove film
Tetrachloroethylene Tetrachloroethylene (1,1,2,2-)
373
0.0002
27
Pioneer Stansolv A·14; glove lilm
17
0.08
4026
Pioneer Slansolv A·14; glove film
0-10 11-20 11·20 21-30
Tetraethyllead
blend
Tetrahydrofuran
THF 23.
THF
2~
11-20
Pioneer Slansolv A·14; glove film Ans. Edm. Sol-Ve. 37·145; unsupported 0.28 mm glove film Pioneer Slensolv A·14; glove film
23
23
0.0208 0.0417'
23 23
>30 >30
: 0.167
>30
Tetralln lelrahydronaphlhalene. Duponl
23 .
Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Thionyl Chloride Titanium Tetrachloride TNT Toluene
Irinitrololuene toluol
28
loluol
0.002
150
23
4
10
<900
"' fair perm.
, toluol
'tl
23
~
23 23
~
'~" '"
~.
;:l
t-o
~ p ....
u::
.' 11·20
6
Toluene Diisocyanate
0.0208 0.0417 : 0.167
1
,~
>30 >30
TOI
>480 23 23';
0.0035
23 23
0.0208 0.0208
23.0.0417 2.3. " 0.167
0·10
,,1 4
.21·30 .,. 21-30 >30
0.3
Ans. Edm. Sol-Ve. 37·165; unsupported 0.54 mm glove film
. :id.~opsJht·(i·}
""
~;.::..
Pioneer Slansolv A·14; glove film
'i:
,:air;:mod8t~i'~~t~fl:;;;~.~,~~und;~:
>30
t rtF
Xi'
tal~ 5110 Il!O·~y~dnij;pir.Sl:e
no!sul"'ble'lorserVic,i' good degr.;dalkln rating:
,.•. 1
23' : 0.0208
@
n'
23 23 .< 0.0035
Pioneer Slansolv A·14; glove film
unSatisiaC,o~:t6;ti~;;{;/"
':' 2
:~
Ans. Edm.
SO~'i::::r7~:::~:I:s:~lP4~r:::V:':i~mmm
glove film
:t~.
0 Pioneer Slansolv A-14; glove film Ans. Edm. Sol·Ve. 37·145; unsupported 0.28 mm glove film Pioneer Slansolv A-14; glove film
@ ~
S" ~ c:;.
}.d
Vi ~;
f?cr.
Pyranol
16' ;:s t""'
0: ...
<10
Transmission Fluids
...
Mobilgas WA200; Type A
\~;~;!r~::
>l
u:
type A type A; Esso
Texamatic "A" <10
type A
Triacetin Triaryl Phosphate Tributoxyethyl Phosphate Tributyl Mercaptan Tributyl Phosphate Trichloroacetic Acid Trichloroethane
131
1,1,1trichloroethane 1,1,1trichloroethane
..:}:
23
0.05
90
264
<9000
Trichloroethylene
,';~it~~~~?~ ~
0.0208
.• "23'_ 0.0208 . ""23'\" 0.0417 23;.
laif'.illgradalk\n ieiing
21-30
23 23
. u,;~alisfact0fY f~( use . . poo(p·erm. rale;·50110 SOOO eyedroppar s;ze . Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film •\'.... "'') dropsih'r_ . • • • . • •
·\."OISuil~ble fa/service
23 1,1,1trichloroethane
Pioneer Stansolv A-14; glove tilm
0.167
>30 >30
.(
M •. , . .
Pioneer Stansolv A-14; glove film
'";,::,';::::,~:w.::::;,~--.,...,,-
>30
9
TCE
0.002
372 ., modar.
10 severe eilect
noi~~ilab!e 10; sen:ice
TCE
pooidegradation rating
>30
i noqecoiiiniended
ii~or d~grada\lon rating
>30
Pioneer Stansolv A-14; glove film Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film Pioneer Stansolv A-14; glove lilm
>30 >30
Trichlorotrifluoroethane
>480
0.01
o
0·10 0-10 0-10 0-10
Tricresyl Phosphate
z
CD ::xl
w
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
CO
......
z
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
OJ
W
<0 N
:::D
M~t~rlad-lote
Reagent, Tricresyl Phosphate
Triethanolamine
Tep
>480
TEA
o
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0,54 mm glove film
5
o
Pioneer Stansolv A·14; glove film
TEA Pioneer Stansolv A-14; glove film
0·10 0-10 0·10 0-10
Ans, Edm, Sol·Vex 37-145; unsupported 0.28 mm glove film
85 85
Triethylaluminum Triethylborane Trifluoroethane Trihydroxytriethylamine
'9
8
a
,I'Fe.
Trinitrotoluene Trioctyl Phosphate
>480
o
<0.9
Ans, Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
5
o
Pioneer Stansolv A·14; glove film
o
Pioneer Stansolv A-14; glove film
<0.9
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
0·10 0·10 0-10 0-10
• ,2'" 1
Tung Oil
china wood oil <10
Turbine Oil
'15; MIL·L·7808A .35
Turpentine
>480 0.0009 30
',23 23 . "-.'.". 23 23
~3
@
'"
S' ~
r:;'
Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X
V>
~ V>
tEl· ;:l
t'"'
...!=l0: ... tr::
Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon Hydrolube J4 Ucon LB1145 Ucon LB135
lubricant oil; acrylonitrile glycol deriv, lubricant
lubricant
<10
0-10
Pioneer Stansolv A·14; glove film Ans. Edm. Sol-Vex 37·145; unsupported 0.28 mm glove film
0-10
23
0·10
"'23'
0-10
Pioneer Stansolv A·14; glove film
@
'"
~ ~
ri·
1?'"
'" lEi· ;J
t-'
0: .... p
....
u::
~.
Ucon LB2B5 Ucon LB300 Ucon LB3B5 Ucon LB400X Ucon LB625 Ucon LB65 UDMH Unsymmetrical Dimethvlhvdrazine Varnish
':
lubricant oil lubricant unsymmetrical dimethyl hydrazine uns~mmetrical
(UDMH)
..
~~Yod:~~e~I;~~ibl~'~~lI!!g~~fl!P!9jt ('tecomiii~iiaedlortise!H ..
Vegetable Oils Versilube Versilube F50 Vinegar
<10
iittie/no ,.. '..
<10
!Iittle/no
Vinyl Acetate
effacFs~t~i~i~k~~,~~y~~~lic~~~~~ recomn\aNaed for usa
"'\.
~ff~~t·savar~ cond,:iriay cause chang~
30
0.08
402
Pioneer Stansolv A·14; glove film
xylol
92
0.002
24
Pioneer Stansolv A-14; glove film
xylol
75
<900
Ans. Edm. Sol-Vex 37-165; unsupported 0.54 mm glove film
0·10 21-30 21-30 ""." 21-30
Vinyl Acetylene
monovinyl acetylene <10
Vinyl Fluoride Water
drinking salt water <10
cold
Whiskey White Oil
& wines <10
Wolmar Salt Wood Oil <10
Xenon Xylene
xylol
0-10
Pioneer Stansolv A-14; glove film i;;'Uiiifer;car,tii(? Ans. Edm. Sol-Vex 37-145; unsupported 0.28 mm glove film
11-20
Pioneer Stansolv A·14; glove film
21-30 >30
z
OJ
:0
(,.)
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
CO
(,.)
c..:>
Chemical Resistance - Acrylonitrile Butadiene Rubber Copolymer
z
OJ
co
.:>0-
::II
Reagent Xylidine
Rel!gent t(ote mixed aromatic amines
% Change
I
IC'OI)C,; !~~",p'I' Time'.,IApqL ("')('C) (days) Rating
We19~1
8
<10
"6
,::23
<10
~
ri' V>
1? V>
<6'
;:s t"-
..,o:p ..,
It::
~.
•
~,,~.
11~!6,~~i,t,~F~;;~r;:~::l:~t$:~~~~,~ha~ge··'
i~~!~~~~:~;;i~~~~~:,':a~S:auset;~~g~ :,"::;i~V(i&<;qlijijj,tiii~d'jciiu$e'
\",:'8' <10
'1:l
;,>~<~:
...
minor \0 m<>
,6" ;..~
;:;-
Material ~ote
Resistance Note
}rryod~r;!;~~e,!!j~~lla~%~oss.~i~r!,p,
Zinc Acetate
@
:~;.
modar, tg'severe ellect '
4 "
di-methyl aniline
Zinc Salts Zinc Sulfate
' pe;meat!~n
,111~~~;m'n,;I:
Zeolites
Zinc Chloride
'I
"i,-"
i\\e,I;19~ffe,qMe,~;;~~~I1~'mi\Y'9e,~e,F9~~9l
395 Chemical Resistance - Polysulfide Rubber
Acetaldehyde Acetamide Acetic Acid
moder. to severe etlecI unsatisfactory for use glacial
minor to moder. etlect
hot, high pressure
unsatisfactory for use minor to moder. effect
5
30
Acetic Anhydride Acetone Acetophenone Acetyl Chloride Acetylacetone Acetylene Acrylonitrile Aerolube Aerosafe 2300 Aerosafe 2300W Air
'~.;'
moder. to severe etlect unsatisfactory for use minor to moder. etlect moder. to severe etlect unsatisfactory for use recommended for use unsatisfactory for use
Aero Lubriplate
<167 >167
Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride Aluminum Fluoride Aluminum Nitrate Aluminum Salts Aluminum Sulfate Amines Amino Acids Ammonia
denafured
moder. to severe etlect recommended for use unsatisfactory for use recommended for use unsatisfactory for use minor to moder. etlecl recommended for use unsatisfactory for use
mixed laclams recommended for use unsatisfactory for use
cold hot liquid .~: ,"
Ammonium Chloride Ammonium Hydroxide Ammonium Phosphate
Ammonium Sulfate Ammonium Sulfide Amyl Acetate Amyl Alcohol Am I Borate Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline
recommended for use unsalisfactory for use
concentrated
recommended for use
dibasic mono-basic tribasic
unsatisfactory for use
,{-
minor to moder. etlect recommended for use moder, to severe etlect
di-esler
minor to moder. etlecl
oils unsatisfactory for use
Aniline Hydrochloride Animal Fats
Animal Oils Ansul's Ether Antifreeze Aqua Regia Ar on Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Askarel Asphalt ASTM Oli No.1
© Plastics Design Library
lard lard oil Prestone
recommended for use moder. to severe etlect unsatisfactory for use
recommended for use
unsatisfactory for use recommended for use
Polysulfide
396
Chemical Resistance - Polysulfide Rubber
ASTM 011 No.2 ASTM 011 No.3 ASTM 011 No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C Barium Chloride Barium Hydroxide Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde Benzene Benzenesulfonlc Acid Benzochlorlde Benzophenone Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax Bordeaux Boric Acid Brake Fluids
Bromine Bromine Pentafluorlde Bromine Trifluoride Bromobenzene Butadiene Butane Butene Butter Butyl Acetate Butyl Acrylate Butyl Alcohol Butyl Alcohol (tert-) Butyl Benzoate Butyl Butyrate Butyl Carbltol Butyl Catechol tert-) Butyl Ether Butyl Mercaptan (tert-) Butyl Stearate Butylamine Butylene Butyraldehyde Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Cyanide Calcium Hydroxide Calcium Hypochlorlde Calcium Hypochlorite Calcium Nitrate Calcium Salts Calcium Sulfide Calcium Sulfite Calcium Thiosulfate
Polysulfide
moder. to severe effect
recommended for use minor to moder. effect
minor to moder. effect unsatisfactory for use
moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
solutions mixture automotive Delco Girling Mopar non-petroleum Wagner 218
anhydrous
minor to moder. effect unsatisfactory for use
mono bromobenzene
recommended for use moder. to severe effect recommended for use
2-Ethyl unsatisfactory for use minor to moder. effect butanol
unsatisfactory for use
recommended for use unsatisfactory for use recommended for use unsatisfactory for use minor to moder. effect moder. to severe effect unsatisfactory for use
recommended for use unsatisfactory for use
recommended for use unsatisfactory for use minor to moder. effect
© Plastics Design Library
397
Chemical Resistance - Polysulfide Rubber ..;;,
"','
"
R'eagent
.':
'.'
..
Caliche Liquors Cane Sugar Liquors Caproic Aldehyde Carbamate Carbitol Carbolic Acid Carbon Bisulfide Carbon Dioxide Carbon Monoxide Carbon Tetrachloride Carbonic Acid Castor 011 Cellosolve Cellosolve Acetate Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlorinated Solvents Chlorine Chlorine Dioxide Chlorine Trifluoride Chloroacetlc Acid Chloroacetone Chlorobenzene
.~.
"<"
... ., ,: .... Resgeiii Note' '~';"
','
'.~.
.,::~
'.'
.' Conc" ('M
I'C)
Coconut 011 Cod Liver 011 Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride Copper Sulfate
2·,:
© Plastics Design Library
unsatisfactory for use model. to severe effecl
•. 4'"
6
;"".
}6
i
2 .' 8 4 6' . ..6
"
2 a{ : ".., $
dry wet
\2·'
dry wet
2 2
8% CI as NACI02 in solution
2
" recommended for use
" unsatisfactory lor use
2'
, ••
,
'.2 .. '2 2""
,':
.·;.. 2
mono
:."
2
,
2 2 •....
<:.. ,2-/' ~:
~.:
I
>,
2 2' '2
.'
'.'
2':·
:'.'2 ~.;
~
,
2
~"":
:.
~
':/i~{
2N
~:)r: Monsanto
2 2 2
"
2. ~::
. :i
. . <~~:\
"
;t::~:i{
recommended for use
" "
·/1;
moder. to severe effect
4 4
" "
·6
-.
" " " " " " " " " " " " " " " "
unsatisfactory for use
;.. 2 CUffing oil
" "
" "
2, ;.,(oR'?,
coal tar wood
" " " " " " " " " "
:2""
;:.".
.
"
"
,
..... 2 .2
0.88
" "
" "
"'·'2 ~ ..
aqueous solution
:~
2
l-chloro I-nitro ethane
"
unsatisfaclory for use
?
hexadecane
minor to model. effect unsatisfactory for use model. 10 severe effect recommended for use model. to severe effect minor to moder. effect
. 4
{'.
Creosylic Acid Cumene Cutting Fluids Cyclohexane Cyclohexanol
" "
6
10 50
Corn Oil Cottonseed Oil Creosols Creosote
recommended for use unsatisfaclory for use minor to moder. effect
6" ' 6'
dry wet
..
Resistance N.ote '
8 2
mono chlorobenzene
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform Chloronaphthalene (0-) Chloronltroethane Chlorophenol (0-) Chlorosulfonlc Acid Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid Citric Acid Clorox Cobalt Chloride
;
. POL' Ratln'g··'·
Temp.
8 8
tV.... '.:
unsalisfactory for use minor to moder. effect recommended for use
" minor to model. effect
Polysulfide
398
Chemical Resistance - Polysulfide Rubber
Cyclohexanone Cymene (p-) Decalin Decane Developing Fluids Diacetone Diacetone Alcohol Dibenzyl Ether Dibenzyl Sebacate Dibromoethylbenzene Dibutyl Ether Dibutyl Phthalate Dibutyl Sebacate Dibutylamine Dichlorobenzene (o-) Dichlorobenzene (p-)
photo minor to moder. effect
unsatisfactory for use recommended for use minor to moder. effect unsatisfactory for use recommended for use unsatisfactory for use
Dichlorobutane Dichloroisopropyl Ether Dicyclohexylamine Diesel Fuels Diethyl Benzene Diethyl Ether Dlethyl Sebacate Diethylamine Diethylene Glycol Difluorodlbromomethane Dlisobutylene Dlisooctyl Sebacate Dlisopropyl Benzene Diisopropyl Ketone Dimethyl Phthalate Dlmethylformamlde Dlnltrotoluene Dloctyl Phthalate Dloctyl Sebacate Dioxane Dloxolane Dipentene Dlphenyl Dlphenyl Oxide Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm A Dry Cleaning Fluids Eplchlorohydrln Ethane Ethanol Ethanolamine Ethers Ethyl Acetate Ethyl Acetoacetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene Ethyl Benzoate Ethyl Cellosolve Ethyl Cellulose Ethyl Chloride Ethyl Ch lorocarbonate Ethyl Chloroformate Ethyl Ether
Polysulfide
diesel oil
moder. to severe effect recommended for use unsatisfactory for use recommended tor use minor to moder. effect recommended for use minor to moder. effect unsatisfactory for use recommended for use moder. to severe effect minor to moder. effect
unsatisfactory for use minor to moder. effect moder. to severe effect unsatisfactory for use recommended for use minor to moder. effect unsatisfactory for use recommended for use
unsatisfactory for use
recommended for use mono ethanolamine
organic ester
unsatisfactory for use minor to moder. effect recommended for use minor to moder. effect
recommended for use unsatisfactory for use minor to moder. effect unsatisfactory for use
recommended for use
© Plastics Design Library
399 Chemical Resistance - Polysulfide Rubber
Ethyl Formate Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrin Ethylene Dibromlde Ethylene Dichloride Ethylene Glycol Ethylene Trichloride Ethylenediamine Fatty Acids Ferric Chloride Ferric Nitrate Ferric Sulfate Fluorine Fluorolube Formaldehyde Freon 11 Freon 112 Freon 113 Freon 114 Freon 11482 Freon 115 Freon 12 Freon 13 Freon 1381 Freon 14 Freon 1428 Freon 152A Freon 21 Freon 218 Freon 22 Freon 31 Freon 32 Freon 8F Freon C318 Freon MF Freon TA Freon TC Freon TF Freon TMC Freon TP35 Freon TWD602 Fuel Oils Furan Furfural Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gasoline
unsatisfactory for use minor 10 moder. affact unsatisfactory for use recommended for use unsatisfactory for use minor to moder. effect
unsatisfactory for use model. to severe effect unsatisfactory for use
recommended for usa
liquid
unsatisfactory for use recommended for use minor to model. effecl recommended for use
minor to moder. effect recommended for use
unsatisfactory lor use recommended for use unsatisfactory for use moder. to severe effect recommended for use
.6 acidic furluran
minor to moder. effect unsatisfactory for use
Esso Golden super Shell
minor to model. effect recommended for use
Gear Oils Gelatin Glaubers Salt Glucose Glues Glycerin Glycols Greases
© Plastics Design Library
Texaco 3450 unsatisfactory for use
glycerol
minor to moder. effect recommended for use
Keystone .S7HX light grease
Polysulfide
400
Chemical Resistance - Polysulfide Rubber
Shell Alvania #2 Sunoco; all purpose
Green Sulfate Liquor Halothane Halowax Oil Helium Heptane Hexaldehyde Hexane Hexyl Alcohol HEF 2 Hydraulic Fluids Hydraulic Oils
unsatisfactory for use recommended for use N-Heptane N·Hexaldehyde
minor to model. effect
N-Hexane-l
recommended for use
high energy fuel Univis 40
minor to model. effect recommended for use
petroleum base PRL-high temperature
minor to moder. effect
Hydrazlne Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrocarbons Hydrochloric Acid
Hydrocyanic Acid Hydrofluoric Acid
Hydrofluosillclc Acid Hydrogen
unsatisfactory for use petroleum base
.' "·::8::
37 37
cold hot cold hot
<65 <65 >65 >65
i ..:.. 2..
gas, cold gas, hot
isopropyl Chloride Isopropyl Ether Kerosine Lacquer Thinners Lacquers Lactic Acid Lavender Oil Lead Acetate Lead Nitrate Lead Sulfamate Llgroln Lime Bleach Lime Sulfur Llndol Linoleic Acid Linseed 011
Polysulfide
dry, cold dry, hot wet, cold wet, hot
unsatisfactory for use
.<;}·~.i? :
moder. to severe effect unsatisfactory for use 90
Hydroquinone Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Pentafluoride Isobutyl Alcohol Isobutyl N-Butyrate Isododecane Isooctane Isophorone Isopropyl Acetate Isopropyl Alcohol
recommended for use
:.::: 8
saturated 3 molar concentrated cold hot
Hydrogen Peroxide Hydrogen Sulfide
:
8
model. to severe effect unsatisfactory for use minor to model. effect recommended for use
moder. to severe effect unsatisfactory for use Swan Finch
recommended for use unsatisfactory for use minor to model. effect unsatisfactory for use recommended for use
ketone
minor to model. effect recommended for use unsatisfactory for use recommended for use minor to model. effect recommended for use
cold hot
unsatisfactory for use
minor to model. effect unsatisfactory for use
petroleum ether of benzene
recommended for use unsatisfactory for use
hydraUlic ffuid; phosphate ester type minor to model. effect
© Plastics Design Library
401
Chemical Resistance - Polysulfide Rubber
Liquid Petroleum Gas Lubricating Oils
LPG
recommended for use
di-ester petroleum base SAE 10
model. to severe effect
SAE SAE SAE SAE
Lye Magnesium Chloride Magnesium Hydroxide Magnesium Salts Magnesium Sulfate Magnesium Sulfite Maleic Acid Mercury Mesityl Oxide Methane Methyl Acetate Methyl Acetoacetate Meth I Acrylate Methyl Alcohol Methyl Benzoate Methyl Butyl Ketone Methyl Carbonate Methyl Cellulose Methyl Chloride Methyl Chloroformate Methyl Cyclopentane Methyl D·Bromlde Methyl Ether Methyl Methyl Methyl Methyl
Ethyl Ketone Ethyl Ketone Peroxide Formate Isobutyl Ketone Methyl Isopropyl Ketone Methyl Methacrylate Methylanlline Methylene Chloride Methylene Dichloride Methylhydrazlne Milk Mineral Oils
Motor Oils Naphtha Naphthalene Naphthenlc Acids Natural Gas Neats Foot 011 Neon Neville Acid Nickel Acetate Nickel Chloride Nickel Sulfate Niter Cake Nitric Acid
Nitrobenzene Nitrogen
20 30 40 50
solutions
minor to model. effect moder. to severe effect recommended for use minor to moder. effect
recommended for use minor to moder. effect recommended for use minor to moder. effect
ketone
methanol
recommended for use unsatisfactory for use .:~.
model. to severe effect unsatisfactory for use minor to model. effect unsatisfactory for use monomethyl ether
minor to moder. effect recommended for use
MEK
minor to model. effect unsatisfactory for use
MIBK
minor to moder. effect
monomethyt aniline
unsatisfactory for use
monomethyl hydrazine minor to moder. effect Univoll #35
recommended for use minor 10 moder. effect
Esso
recommended for use minor to moder. effect
unsatisfactory for use recommended lor use unsatisfactory lor use recommended for use model. to severe effect unsatisfactory for use
3 molar concentrated dilute inhibited red fuming; IRFNA red fuming; RFNA te.tro.ide N204. 1
recommended for use
Nitrotoluene Octachlorotoluene Octadecane Octane
© Plastics Design Library
with 60% dinitrotoluene
N-Octane
40
unsatisfactory for use recommended for use minor to moder. effect
Polysulfide
402
Chemical Resistance - Polysulfide Rubber
Octyl Alcohol Oleic Acid Oleum Olive 011 Orthochloroethylbenzene Orthodlchlorobenzene Oxalic Acid Oxygen
Ozone Paint Thinners Palmitic Acid Peanut 011 Pentane (N-) Perchloric Acid Perchloroethylene Petroleum 011
minor to moder. ellecl unsatisfactory for use fuming sulfuric acid minor to moder. effect unsatisfactory for use cold liquid cold
93-149
recommended for use minor 10 moder. ellect unsatisfactory lor use
Duco
recommended for use unsatisfactory for use minor to moder. ellect crude
unsatisfactory for use <121 >121
Phenol wilh 30% H20 with 15% H20
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
70 85 minor to moder. ellecl unsatisfactory for use
3 molar concentrated
20 45
Pickling Solutions Picric Acid Pine Oil Pinene Piperidine Plating Solutions Pneumatic Service Potassium Acetate Potassium Chloride Potassium Cuprocyanlde Potassium Cyanide Potassium Dichromate Potassium Hydroxide Potassium Nitrate Potassium Salts Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Propionitrile Propyl Acetate Propyl Acetate (N-) Pro yl Alcohol Propylene Pyranol Pyridine Pyroligneous Acid P rrole Rapeseed Oil Red Oil RJ 1 RP 1 Sal Ammoniac Salt Brine Sewage Silicone Greases Silicone Oils
Polysulfide
H20 solution molten white
minor to moder. ellect
unsatisfactory for use chrome
recommended for use
minor to moder. effeci recommended for use minor to moder. effect unsatisfactory tor use recommended for use minor to moder. effect recommended for use minor to moder. effect unsetisfactory for use oil minor to moder. effect unsatisfactory for use MIL-H-5606 MIL-F-25558 MIL-R-25576
recommended for use
chlorinated
unsetisfectory for use recommended for use
© Plastics Design Library
403
Chemical Resistance - Polysulfide Rubber <}'-,.. .,
'"
Reagent ,.
.'
,.
. . ... ~
Sliver Nitrate Skydrol500 Skydrol 7000 Soap Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide Sodium Hydroxide Sodium Hypochlorite Sodium Perborate Sodium Salts Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil SR 10 SR 6 Stauffer 7700 Steam
,
.,"
,.
Reagent Note, '•. ,..
i'. ,"
"N.
. '·'·Cone. .'. (%) ,
.. Temp.
POL Rating
I'C)
Stoddard Solvents Styrene Sucrose Sulfite Liquors Sulfur
Sulfur Chloride Sulfur Dioxide Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
Sulfurous Acid Tannic Acid Tartaric Acid Terpineol Tetrachloroethylene Tetrahydrofuran Tetralln Titanium Tetrachloride Toluene Transformer Oils Transmission Fluids Triacetin Trlaryl Phosphate Trlbutoxyethyl Phosphate Trlbutyl Mercaptan Trlbutyl Phosphate Trichloroethane Trichloroethylene Trlcresyl Phosphate Triethanolamine Trifluoroethane
"
6 8 6
minor to moder. effect
6
6
" "
6 2 B
unsatisfactory for use recommended for use
recommended for use minor to moder. effect
"
•
~
2 2
liquors molten
'.
""
'2 ,
2
,
2 dry liquidified; under pressure wet
20% oleum 3 molar concentrated dilute fuming; 20/25% oleum
2 2 2 4 2 2,
,
•
2
2 2 2
"
:~
6 2
8 '2
6 '2 4 2 2
Pyranol Mobilgas WA200; Type A type A type A; Esso
, I
6 8 6 6 6 6
".
" " " " " " " " " "
"
" " " " " recommended for use unsatisfactory for use recommended for use unsatisfactory for use recommended for use unsatisfactory for use moder. to severe effect unsatisfactory for use
" recommended for use recommended for use
" "
'"
minor to moder. effect ,C},.,
"
e
recommended for use unsatisfactory for use recommended for use
,2
6 ,2' 2 6 2 2
unsatisfactory tor use
moder. to severe effect unsatisfactory for use
2 .':
unsatisfactory for use
"
2 2 2 2, ",2
.,
" " minor to moder. effect
6
soiutions
.., .
'~'
moder. to severe effect recommended for use unsatisfactory for use
6 8
monomer
~.
"
2 2
<177
..
recommended for use unsatisfactory for use
8
>177
"-".
moder. to severe effect
2 4
"
....:..:."
" " "
8
fuel
.,
"
2 2' 2 "'.' 4' 4
soda ash
.
minor to moder. effect unsatisfactory for use
2 2'
baking soda
,,'.,
.
". Resistance Note d'
,..6'
solutions
.'
unsatisfactory lor use
,
" minor to moder. effect unsatisfactory for use
" •
© Plastics Design Library
Polysulfide
404
Chemical Resistance - Polysulfide Rubber
~
......
Trinitrotoluene Trioctyl Phosphate Tung 011 Turbine Oil
minor to moder, eltec! China Wood Oil ~15;
MIL·L·7808A
recommended for use
~35
Turpentine Ucon 50HB100 Ucon 50HB260 Ucon 50HB660 Unsymmetrical Dimethylhydrazine Varnish Vegetable Oils Versilube Vinegar Vinyl Acetylene Water
lubricant
minor to moder. elteet recommended for use
unsymmetrical (UDMH)
unsatisfactory for use
2" 6,'
recommended for use unsatistactory for use minor to moder, eltect
6 monovinyl acetylene
4'
moder. 10 severe ettecl
drinking salt water
2 2
unsatisfactory for use
& wines
2
2
Whiskey White Oil Wolmar Salt Wood Oil Xenon Xylene Xylldlne Zinc Acetate Zinc Chloride Zinc Salts Zinc Sulfate
Polysulfide
8
recommended for use
B
mixed aromatic amines
6 8
minor to moder, ettect recommended for use
6, 2 2 ,,'4 2 '2,
minor to moder, ettect unsatisfactory for use moder, to severe ettect unsatisfaclory for use
© Plastics Design Library
405
Chemical Resistance - Polyurethane Rubber "" t,<·
. . • )1<+ ~eagent
",,' .....
;;', It,,;;»,;2 . .
..
. ~;
..
.'~'.
.'-.
.~\
... . . .,..
'-.:, .,
.-:-"',
..~.'
":("
.....•
Acetaldehyde Acetamide Acetic Acid
,
)
l\r;i.iZ···•.
i
.....
,"
"
....
.
,2 2· 2 '2 2 2 2 '2
glacial
" 5 30
Acetic Anhydride Acetone
Alcohols Alkazene Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Amlnes Ammonia
drop test, 50% RH
23
"
23
0.67 0.67
Aero Lubriplate
..
'
.•'••.•
.I
" " "
2 8
no visible change
....~..
"
2
unsatisfactory for use
2
" " "
2
"
4
>167
2
moder. to severe effect unsatisfactory for use
2 2 4
6 4 4 4
2 2 2 2
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
recommended for use unsatisfactory for use
<167
2
" minor to modeL effect unsatisfactory for use modeL to severe effect minor to moder. effect modeL to severe effect
" " unsatisfactory for use
"
" " "
drop test, 50% RH
23
0.67
a
no visible change
Recticel Colo-Fast LM (RIM PU); bl.pig.
"
23
0.67
a
"
Recticel Colo-Fast LM (RIM PU); white pig.
8'
recommended for use unsatisfactory for use
concentrated solution 10
2 2 2 2
recommended for use unsatislactory lor use
2
" " " " " " "
2
2 di-ester
2 2
" "
2
dyes oils
2
lard
2
" "
' a-
recommended for use minor to moder. effect
6
a Prestone
"
2
a lard oil
" " "
8 2
2,·
© Plastics Design Library
.
" "
8·
liquid
Animal Oils Ansul's Ether Antifreeze Aqua Regia Argon Arsenic Acid Askarel Asphalt ASTM Oil No.1 ASTM Oil No.2 ASTM Oil No.3 ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C
.
"
2
mixed
Aniline Hydrochloride Animal Fats
.x
:/.~;;
"
2
Acetate Bromide Chloride Fluoride Nitrate Salts Sulfate
Ammonium Sulfate Amyl Acetate Amyl Alcohol Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline
::;.: .. ::~~:~;~~'
"
a
Chloride Hydroxide Nitrate Persulfate
..
?
. •;..•.... /: "'YY"': , Materla!;.ff9te,
unsatisfactory for use
'2
denatured
Ammonium Ammonium Ammonium Ammonium
.;:;:'
~.;
hot, high pressure
Acetophenone Acetyl Chloride Acetylacetone Acetylene Tetrabromide Aerolube Aerosafe 2300 Aerosafe 2300W Air
",:;'
, Conc;, Temp; Time PDL ··Resis.taI'!Ce Note (%) I:C) iday~). . Rating ......
2 2
"
"
unsatisfactory for use
"
a
recommended for use
4
moder. to severe effect unsatisfactory for use minor to modeL effect recommended for use minor to modeL effect
'2
a
"'a .,.
a.:.
',',',e""'I" /,·2
8 6
2
" unsatisfactory for use recommended for use minor to moder. effect unsatisfactory for use
PU
406
Chemical Resistance - Polyurethane Rubber .,
, "
Reagent
.
,, .
Reagent Note'
. Corie: Temp; Time (%).
Automotive Polish Barium Chloride Barium Hydroxide Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde Benzene Benzenesulfonic Acid Benzoic Acid Benzophenone Benzyl Alcohol Benzyl Chloride Blast Furnace Gas Bleach
Borax Bordeaux Boric Acid Brake Fluids Bromine Bromine Pentafluoride Bromine Trifluoride Bromobenzene Butadiene Butane Butene Butter Butyl Acetate Butyl Acetyl Ricinoleate Butyl Alcohol Butyl Alcohol (tert-) Butyl Catechol (tert-) Butyl Cellosolve Butyl Ether Butyl Mercaptan (tert-) Butylamine Butyraldehyde Butyric Acid Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Hydroxide Calcium Hypochloride Calcium Hypochlorite Calcium Nitrate Calcium Phosphate Calcium Salts Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Liquors Caproic Aldehyde Carbamate Carbitol Carbon Dioxide Carbon Monoxide Carbon Tetrachloride Carbonic Acid Castor Oil Cellosolve
PU
Simoniz; drop test. 50% RH
• r'C)
(days)
POL Rating
23 23
0.08 0,08
8
no visible change
6.
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); while pig.
recommended for use
6 6 ., 6
.~
6 . ,,'
Ii
;
. '.2 2 2· 2.., .,
unsatisfactory for use
2· 2 2· '2 2 ,2 solutions chlorose; drop test. 50% RH
2
23 23
mixture brake oil; immersion test
80
0.67 , 0,67
5
slight skin degradation
5 6 2 ,. 6 0.25 2
,
recommended for use unsatisfactory for usa recommended for use pronounced swelling. weak .. and snappy
2' 2
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
Recticei Colo-Fast LM (RIM PU)
unsatisfactory for use
.'
2. ... mono bromobenzene
{- 2 8 2-.. 6·'· 2·· . 2,..
2,Ethyl
butanol
recommended unsatisfactory recommended unsatisfactory
for for for for
use use use use
2 2
2., 2 ,2. 6
,
2
minor to moder. effect unsatisfactory for use
2
2 .2" 2.
'.
.8
recommended for use
4·
moder. to severe effect recommended for use
8
8 unsatislactory lor use
2
2· ... 8
'•.
recommended for use
6 6 6·
,. 6' ./ 6 6 ',. .2
2<
2
dry
unsatisfectory for use
.~,
recommended lor use unsatisfactory for use recommended for use unsatisfactory for use
© Plastics Design Library
407
Chemical Resistance - Polyurethane Rubber .',
Reagent.
;:::.
, Reagent Note ...... , .
.~,
Cellosolve Acetate Cellulube 150 Cellulube 220 Cellutherm 25D5A Cetane Chlorinated Solvents Chlorine Chlorine Dioxide
"."
I'"
Cone. Temp; Time ,(%);
I'C)
POL
Resistance Note
2 2 2
unsatisfactory for use
Rating,
(days)
2
2
dry wet
2
dry weI
2·
"
2
" " "
2 2
2
Chlorine Trifluoride Chloroacetic Acid Chloroacetone Chlorobenzene
""""""'2"""
mono mono chlorobenzene
2
"
2
" "
2
2
"
2
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform Chloronaphthalene (0-) Chloron Itroethane Chlorophenol (0-) Chlorosulfonic Acid Chlorotoluene Chromic Oxide Chromic Acid Citric Acid
2 2
"
2
"
2
"
2 aqueous solution
, 23 23
"
" "
2 2 2
0.88
drop test, 50% RH
Clorox Cobalt Chloride
2 2
" " " " "
2
1-chloro 1-nitro elhane
0.67 0.67
"
',8 2
unsatisfactory for use
2
" "
~.
,
2N
" recommended for use little dark spots no visible change
6' 6
.,
2
Coconut Oil Cod Liver Oil Coffee Coke Oven Gas Coolanol Coolanol45 Copper Acetate Copper Chloride Copper Cyanide Copper Salts Copper Sulfate
2· 2 2
drop test, 50% RH
"
Creosols Creosote Creosyllc Acid Cumene Cutting Fluids Cyclohexane Cyclohexanone Cymene (po) Decane Detergents Dextron Diacetone Diacetone Alcohol Dibenzyl Ether Dibenzyl Sebacate Dlbromoethylbenzene
© Plastics Design Library
solutions
" " " minor 10 moder. effect moder. to severe effect
4
23 23
0.67 0.67
coal tar wood
culling oil
recommended for use
8 6
10 50
Corn Oil Cottonseed Oil Crayon
" " " "
2 2 6 6 8
"
,''';
8 6 •
recommended for use
8. 6
no visible change
" '.'
"
2
unsatlslactory for use
4 4
moder. to severe effect
6
minor to moder. effect
2
unsatisfactory for use
2 6 6 2
recommended for use minor to moder. effect unsatisfactory for use
2 -6 2 6 2 2 6 6 2
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
moder. to severe effect recommended for use unsatisfactory for use
4
8
Monsanto
.'~
" " " " " " "
hexadecane
8% CI as NACI02 in solulion
Material Note
Recticel Colo-Fast LM (RIM PU); bl.pig. Reclicel Colo-Fast LM (RIM PU); white pig.
"
"
" minor to moder. effect unsatislactory for use minor to moder. effect unsatisfactory for use
" minor to moder. effect
" unsatisfactory for use
PU
408
Chemical Resistance - Polyurethane Rubber
Reagent Dlbutyl Ether Dibutyl Phthalate Dibutyl Sebacate Dlbutylamlne Dichlorobenzene (0-) Dichlorobenzene (p-) Dlchlorobutane Dichloroisopropyl Ether Dicyclohexylamine Diesel Fuels Diethyl Benzene Dlethyl Ether Diethyl Sebacate Diethylamine Diethylene Glycol Difluorodibromomethane Diisobutylene Dilsooctyl Sebacate Dlisopropyl Ketone Dinitrotoluene Dloctyl Phthalate Dloctyl Sebacate Dioxane Dioxolane Dipentene Dlphenyl Dlphenyl Oxide Dishwashing Detergents Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33 Dow Cornln 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corn in 710 Dowtherm Dowtherm A Dry Cleaning Fluids Epichlorohydrin Ethane Ethanol Ethanolamine
minor to moder. effect unsatisfactory for usa moder. to severe effect unsatisfactory for use
diesel oil
recommended for use unsatisfactory for use moder. to sevara affact unsatisfactory for use
minor to moder. effecl unsatistactory lor usa
liquid; drop test, 50% RH
23 23
no visibla change
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
recommended for use
minor to moder. effect unsatisfactory for use
oil
moder. to severe effect unsatisfactory for use mono ethanolamine moder. to severe effect
Ethers drop test, 50% RH
Ethyl Acetate Ethyl Acetoacetate Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol Ethyl Benzene Ethyl Benzoate Ethyl Cellosolve Ethyl Cellulose Ethyl Chloride Ethyl Chlorocarbonate Ethyl Chloroformate Ethyl Ether Ethyl Hexyl Alcohol Ethyl Oxalate Ethyl Pentachlorobenzene Ethylcyclopentane
PU
organic ester drop test, 50% RH
23 23 23 23
minor to moder. effect no visible change unsatisfactory for use slight skin degradation
Rectlcel Colo-Fast LM (RIM PU); bl.pig. Reclicel Colo-Fast LM (RIM PU); whita pig. Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
unsatisfactory for use
minor to moder. effect unsatisfactory for usa minor to moder. effect unsatisfactory for use recommended for usa unsatisfactory for usa recommanded for usa
© Plastics Design Library
409
Chemical Resistance - Polyurethane Rubber
~eagent;
Ethylene Chloride Ethylene Chlorohydrln Ethylene Dibromide Ethylene Dichloride Ethylene Glycol Ethylene Oxide Ethylene Trichloride Ethylenediamine Ferric Chloride Ferric Nitrate Floor Cleaners Formaldehyde Formic Acid Freon 11 Freon 113 Freon 114 Freon 12 Freon 1381 Freon 14 Freon 22 Freon TA Freon TC Freon TF Freon TMC Freon TP35 Freon TWD602 Fuel Oils
minor to moder. effect unsatisfactory for use
recommended for use liquid; drop test, 50% RH
23 23
dull, light swelling
Recticel Colo·Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
unsatisfactory for use
minor to moder. effect recommended for use
unsatisfactory for use recommended for use
minor to moder. effect recommended tor use minor to moder. effect
*6 acidic
unsatisfactory for use
Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline
Esso Golden super Shell immersion test
Gear Oils Gelatin Glass Cleaners Glucose Glues Glycerin Glycols Greases
Green Sulfate Liquor Hair Dyes Halothane Helium Heptane Hexaldehyde Hexane Hexyl Alcohol HEF 2 Houghto Safe 271 Hou hto Safe 620 Hydraulic Fluids Hydraulic Oils
© Plastics Design Library
minor to moder. effect
80
drop test, 50% RH
23 23
no visible change
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); while pig.
recommended for use
Keystone *S7HX light grease Shell Alvania *2 Sunoco; all purpose
N-Heptane N-Hexaldehyde
Recticel Colo-Fast LM (RIM PU)
unsatisfactory for use recommended tor use unsatisfactory for use
glycerol
drop test, 50% RH
limited swelling, gloss OK recommended for use unsatisfactory for use
Texaco 3450
23 23
no visible change pronounced stain
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); while pig.
unsatisfactory for use recommended for use minor to moder. effect
N-Hexane-l unsatisfactory for use high energy fuel water & glycol base Sunsafe; lire resistant Univis 40
recommended for use
petroleum base PRL-high temperature
minor to moder. effect
PU
410
Chemical Resistance - Polyurethane Rubber . '
Reagent
;;:.:.
Hydrazine Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
~ 2... "
petroleum base
Hydrocarbons Hydrochloric Acid
Hydrogen Chloride Hypoid SAE 90 Inks Iodine
cold hot
Isopropyl Chloride Isopropyl Ether Kerosine Lacquer Thinners Lacquers Lavender 011 Lead Acetate Light Oil Ligroin Llndol Linseed Oil Lipstick Liquid Petroleum Gas Liquimoly Lubricants Lubricating Oils
Lye Magnesium Sulfate Magnesium Sulfite Mercury Mesityl Oxide Methane Methyl Acetate Methyl Acetoacetate Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol Methyl Methyl Methyl Methyl Methyl Methyl Methyl Methyl
PU
Benzoate Butyl Ketone Carbonate Cellosolve Cellulose Chloride Chloroformate Cyclopentane
2
unsatistactory for use
37 37
6 '2
minor to moder. effect unsatisfactory for use
..' ·2
2"'·;."
<65 >65
2
,i
gas, cold gas, hot immersion test Swan Finch blue; drop test, 50% RH drop test, 50% RH
Iodine Pentafluoride Isobutyl Alcohol Isooctane Isophorone Isopropyl Acetate Isopropyl Alcohol
minor to moder. effect
saturated
Hydrofluoric Acid Hydrogen
. . :> · ·.,. . 2
40
unsatisfactory for use
recommended for use 5
80 23 23
0.67 0.67
23 23
0.67 0.67
8
J; .....
..•
8" " 6
ketone
no visible change recommended for use
Recticel Colo-Fast LM (RIM PU)
no visible change pronounced stain
Recticei Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
no visible change pronounced stain
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
2 '2
unsatisfactory for use
6
minor to moder. eftect unsatisfactory for use
.. 2 2
2,}
,.
~<.',
minor to moder. effect
I)
unsatisfactory for use
'·2.,..·. . 2)) 2
OTE
&'
petroleum ether at benzene hydraulic fluid; phosphate esfer type
6'
minor fa moder. effect unsatisfactory for use minor to moder. effect
2
6 drop test, 50% RH
23
0.67
8
23
0.67
_,6
no visible change pronounced stain
LPG
recommended for use minor to moder. effect
H2; high viscosity U4; high viscosity
unsatisfactory for use
petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50
..'..,....
.
:
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
minor to moder. effect . "i. .
6 '6'" ·'5." . ,?
);6,..·
soiutions
. 2.
ketone
;8 2
6 .;,"
'4: ,.'...2
unsatistactory for use recommended for use minor to moder. effect recommended for use unsatisfactory lor use moder. to severe effect unsatisfaclory for use
2 "2 " ......
2· methanol
2'
2.""". 2 2
... ...
, ~."
Ii 2 2 2
minor to moder. effect unsatistactory for use
© Plastics Design Library
411
Chemical Resistance - Polyurethane Rubber """ .,:
..
"
",:' ,"
"
.~:.
R~~gent,;
"
<,
",
,
Re:;e~l:'~~!e,"
,,;" '" k:_ ,
Methyl D-Bromide Methyl Ethyl Ketone Methyl Ethyl Ketone Peroxide Methyl Isobutyl Ketone Methyl Isopropyl Ketone Methylaniline Methylene Chloride Methylene Dichloride Milk
Mineral Oils Motor Oils
.,' Cone, .Te"mp. Time /'(%) : , ('C)
unsatisfacfory for use
" " "
2 MIBK
2 2 2 2 2 2
monomethyl aniline
Univolt #35 Esso Black Gold 15/40 Marly; immersion test SAE 30; immersion test
"
" "
" "
BOO
recommended for use unsatisfactory for use no visible change
80
0,25
8 2 8
80
0.25
8
23 23
0,67 0.67
8
"
moder, to severe effect no visible change
4 drop test, 50% AH
Nitrobenzene Nltroethane Nitrogen
Res/Mance Note
2 2
MEK
Naphtha Naphthalene Natural Gas Neats Foot Oil Neon Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
PDL
(daya) Rating
8 6 6 8
Recticel Colo-Fast LM (RIM PU)
Aecticel Colo·Fasl LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
minor to moder. e"ect recommended for use
8 unsatisfactory for use moder. to severe effect
2 4 4 4
8 3 molar concenfrated dilufe inhibited red fuming; IRFNA red fuming; RFNA
2
•
recommended for use unsatisfactory for use
2 4 2, 2
moder. to severe effect unsatisfaclory for use
2 2 textroxide N204, 1 recommended for use
Nitromethane Nitropropane Nltrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol Oleic Acid Oleum Olive Oli Oronlte 8200 Oronlte 8515 Orthochloroethylbenzene Orthodlchlorobenzene OS 45 OS 45-1 OS 70 Oxygen Ozone Paint Thinners Palmitic Acid Peanut 011 Pentane (N-) Perchloric Acid Perchloroethylene Peroxides
2 "" 2 with 60% dinitrotoluene
2 2
40
8 '. 2 2 6
minor to moder. e"ect
fuming suifuric acid spirits
2 4
unsatisfactory for use moder. to severe effect
8
recommended for use
,8
8 2 2
2 ·2 2 8 2
OS 45 type III OS 45 type IV cold liquid cold
93-149
unsatisfactory for use
recommended for use unsatisfactory for use
2
B
2
Duco
8
recommended for use unsatisfactory for use recommended for use
8 2 2 drop test, 50% RH
23 23
crude
0.67 0.67
2 8 8 8
<121 >121
© Plastics Design Library
recommended for use unsatisfactory for use
N-Octane
" Petroleum Oli
unsatisfactory for use
6 2
unsatisfactory for use
no visible change
Recticel Colo· Fast LM (RIM PU); bl.pig, Aecticel Colo-Fast LM (RIM PU); white pig,
recommended for use minor to moder, e"ect unsatisfactory for use
PU
412
Chemical Resistance - Polyurethane Rubber
"
PDLtResisti;:il:~t~t, . ·"Ji.
Cone. Temp. Tiirie (%), ··('ct(daYa)
Reagent
Ratfng:), Ii
Phenol drop test, 50% RH with 30% H20 with 15% H20
23 23 70 85
RJ 1 RP 1 Sal Ammoniac Salt Brine Sewage Shoe Polish Silicate Esters Silicone Greases Silicone Oils Silver Nitrate Skydrol500 Skydrol7000 Soap
unsatisfactory for use
.'
2 concentrated
,8., 8
recommended for use
,.
'.8
2 H20 solution
unsatisfactory for use minor to model. effect
6 6
•...
;
:
unsatisfactory lor use recommended for use
2 8
unsatisfactory for use recommended for use
8 8 6 6.; 8 8 8
minor to moder. effect recommended for use
"8
8 4 2 2· c'"
model. to severe effect unsatisfactory for use
:/;;2
.;
2
2 2 .. 2 "'.
•
2'
2" ;;'2
2· 6
minor to moder. effect unsatisfactory for use
, 2
6 6
MIL-H-5606 MIL-F-25558 MIL-R-25576
"6 6 ·6 ,2
chlorinated
minor to model. effect
;
recommended for use unsatisfactory for use
".. 2 23 23
drop test, 50% RH
no visible change pronounced stain
0.67 0.67
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
recommended for use
8 , 8 .8 ;~ 8/
unsatisfactory for use
2 2
recommended lor use no visible change
solutions 80
0.25
Sodium Acetate Sodium Chloride Sodium Hydroxide
2 "8 immersion test
PU
Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
2'
concentrated; immersion test
Sodium Hypochlorite Sodium Peroxide
i
2
20 45
Pickling Solutions Picric Acid Pinene Piperidine Pneumatic Service Potassium Acetate Potassium Chloride Potassium Cuprocyanide Potassium Cyanide Potassium Dichromate Potassium Hydroxide Potassium Nitrate Potassium Salts Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Propionitrlle Propyl Acetate Propyl Acetate (No) Propyl Alcohol Propylene Propylene Oxide Pydraul10E Pydraul115E Pydraul 230E Pydraul 29ELT Pydraul30E Pydraul312E Pydraul50E Pydraul 540C Pydraul65E Pydraul90E Pyranol Pyroligneous Acid Rapeseed 011 Red 011
unsatisfactory for use no visible change
8 8 2 2
0.67 0.67
Phenyl Benzene Phenylethyl Ether Phorone Phosphoric Acid
><.,
3
80
0.25
.,
minor to model. effect limited dull
8 7
2 .' 2
v
Recticel Colo-Fast LM (RIM PU)
unsatisfactory for use recommended for use Recticel Colo-Fast LM (RIM PU)
unsatisfactory for use
© Plastics Design Library
413 Chemical Resistance - Polyurethane Rubber ..~".
.'.'
.,
:y>../- "::"
,
..
',."' .;";"'.
Reagent Sodium Phosphate
~eagellt N~te .;
Cone: Temp; Time ..
(%)
('C)
POL
dibasic tribasic
Stearic Acid Stoddard Solvents Sucrose Sulfur Sulfuric Acid
8
,8 8
8 8
6 fuel <177
2
>177
2 8 8 2 2
solutions moUen 20% oleum 3 molar concentrated dilute fuming; 20/25% oleum immersion test
3
60
Triacetin Triaryl Phosphate Tributoxyethyl Phosphate Trlbutyl Phosphate Trichloroacetic Acid Trichloroethane Trichloroethylene Trlcresyl Phosphate Triethanolamine Trlfluoroethane Trioctyl Phosphate Tung Oil Turbine Oil
© Plastics Design Library
unsatisfactory for use
0.02
Recticel Colo-Fast LM (RIM PU)
unsatisfactory for use recommended tor use
2 8 6 2
minor to moder. effect unsatisfactory for use
6.
minor to moder. effeci
6. 8 6 unsatisfactory for use
2
23 23
no visible change
0.67 0.67
Pyranol
Recticel Colo-Fast LM (RIM PU); bl.pig. Rectice! Colo-Fast LM (RIM PU); while pig.
minor to moder. effect recommended for use
;..
automatic type A type A; Esso Texamatic uAn
6
minor to moder. effect
8' moder. to severe effect minor to moder. effect
4
.J!
unsatisfactory for use
2'-'
;;
2 2 2 2
2 '.2 ,;;,' 2
2 \;." -<'2
.'. 2,.•. ' ./,.
unsalisfactory for use recommended for use unsatisfactory for use
2 2·
lubricant
drinking salt water
moder. to severe effect
8
.,. ·2
drop test, 50% RH
.
i' ~1'
China Wood Oil #15; MIL-L-7808A #35
Violet Oil Water
recommended tor use
moder. to severe effect unsatistactory tor use moder. to severe effect unsatisfactory for use visible stain, removable after time
."
Turpentine Ucon Hydrolube J4 Ucon LB65 Urea
unsatisfactory for use
8
drop test, 50% RH
Transmission Fluids
minor to moder. effect
8 6
Sulfurous Acid Tannic Acid Tartaric Acid Terpineol Tetrachloroethylene Texamatlc Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Titanium Tetrachloride Toluene Transformer Oils
.
recommended for use
8 8 8
mono
Sodium Salts Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil SR 10 SR 6 Steam
'Materlal'Note "
(lIsysj Rating
23 23 23 23
0.67 0.67
8
no visible change
8 .,,'
0.67 8 0.67 ,'\ 6
pronounced stain
Rectice' Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig. Recticel Colo-Fast LM (RIM PU); bl.pig. Recticel Colo-Fast LM (RIM PU); white pig.
unsatistactory for use
PU
Chemical Resistance - Polyvinyl Alcohol
-0
< »
~ ...... ~
I
Reagent Acetaldehyde Acetic Acid Acetone Acetonitrile Acrylic Acid Ammonium Fluoride Ammonium Hydroxide Amyl Acetate
Reagent Note
Conc.
Temp.
Time
(%)
('C)
(days)
POL
I
Permeation BTl
Rating (min.)
I
lDl Rate (ppm) (l1g/cm 2/mln.)
150
<90
180
<0.9 <90
0
<0.9
0
<0.9
Aqua Regia Benzaldehyde benzol <0.9
0
<0.9
Butyl Alcohol
75
<90
Butyl Cellosolve
120
<90
Butyrolactone (y.)
120
<9
Carbon Disulfide
.. 0
<0.9
solvent
0
<0.9 <90
0
<0.9
0
<0.9
0
<0.9
0
<0.9
0
<0.9
75
Cellosolve Acetate Chlorobenzene
"tl
IChloroform
til
tl I1l
til
ICh loronaphthalene
16' ;:l
IChlorothene VG
t"-
o:... p ...
II::
.;.;.;-
IChromic Acid
goOd; minor degrading effect; very'well sUit~~'lor use low perm. rate; o-i!2 eyadropper sile' di~~'Sihr,
gooollllll1'l, rate; 1l'50IlYlldroPllllr~Jilldtopslhr,
50
... ... ~
'.
good; minor degrading effect; very well sUit~~:lor use ·······laiii··fiiOiiet'degiadliiij·eilllci; s\lila:blll~Ulldlli ,camu\.ilsll'·· low perm. r~le;p'J1~~¥!*~llptr~j~~J![oPP~lhr,' ... .!\oIJ,eeOlll('le~ed
?!gO~::;1!;:~:aThr~~$~~~~:~~:;~r~(~:~::!:%te 8lcellenl;:very little degrading effe~t;"eiY. well suited·lor; . .;- ··..,:use·,. low p~rm, lal!; 0-'1/2 eyedropper si.ze drops/Ill, nOI.(ecO!"!llend,ed: . good;.",-mor degr~ding'eltect;.very weli suited'fol usri' .. I~!y. P!('!1;l!t,;.~:ll~.!r~~&p.R~1:;~ig'~W~si1t,.
'all;9:::'~:~::~~~;'~i~r;~~h::~~~:::;;:e
good perm. (ale; 6-5Q ij'edTopiiu~li~diolisllir. sUI;~b'e for apPllc:~ndir~c\ueltl qOn~~i 01 use very goodperm. ral8;k,5ey~ropper ~il&;dlops"'l. excellenl: velY-,lIttle d~gr~l;d'~M~I; 'ery ':ell sUiled for .
Carbon Tetrachloride
r;'
poor; pronoonced degrading effecl; avoid use., gOOd perm; raie;6'511eyedioppe($li8'iliopslhr. suitable lor applic. under c81elul control 01 use nol recomnieiiileif,
·L..."·· . .
0
Bromopropionic Acid Butyl Acetate
i:i til ....
Ans. Edm. PVA; lined glove film
40
Aniline
@
not recommended
concentrated
Amyl Alcohol
Cellosolve
Material Note
glacial
0
Benzene
Resistance Note'
:~i
,. :;;.,
,~{. }/U$e>::::::;:/·{.-.,:~~;
@
'tI
~ ~
n' CJl
1? CJl
<Ej'
Reagent
Reagent Note
Cone.
10 10
Citric Acid
0: .,
., p
u::
;g~;(
+;;,~~~
,-yl;lonexyl Alcohol
i/: :g3~?
Oiacetone Alcohol
23 23 "23,
Dibutyl Phthalate
POL
0,0208
••.•... ~
.:.'~
DI8K
Dimethyl Sulfoxide Olmethylacetamide Dlmethylformamide Dioctyl Phthalate
DMSO DMAC DMF DOP
.~ fi
0,0208 0,25
'
LDL
o
8;.
0,0208 0,0208
• . /f~::'
o
<0,9
o
<0,9
low pefl)l, rale: lJ.1/Z eyed;opp,r size dfOpslh.. 1\01 recommended good: mlnof degradln~:e~~etrve'ryweilsuliedMi use low perm, rate; O·1/2 ~yedropper size drops"'.. .not recommended
:
0,0208 0,0208 0,0208"
1 '1 1
0.0208
6 . ".
30 0.0208 ",. 0.0208 0,0208
MaeDermid 9048 MacDermid J60/61
<900
' <0.9
300
9, 0
<0.9
0
<0.9
0
<0,9
I~:~~: ::~~~Ol
l;;;;~~i;;,;~ ~.~~~~ '~'( '~'1tti~)~.*i;~
Ethyl Glycol Ether
0,0208
I;ili;;~:t<
15
<90
0.25
j:
0 120
Ethylene Glycol
<0.9 <9
0.0208
Formaldehyde Formic Acid Freon TF
90 23'/'
Furfural
Hexamethyldisilazane
.
white
~
;,:~~:';; 0~0~~8
-;~t~~';j\i 0~~~~8 0,0208 0.25
'iaii:'~~;;r~~~~~:1i~f~~~~:;ro~~~;~
u;e
;1af:~'~"
I
I
:' .;
IOw.eerI1),J~te;~~li2~)'~diop;;;;r;$ize diop~IiI(.
.
fa~~:::' :~~:~g ~~~~:~~t:,~e~I~~:;.~:!t7~se
o
<0.9
o
<0.9
o
<0.9
o
8
o
<0.9
..
good; minD; degrading ef~e9': Yeiy.'~el(~llit8d lor yse low perm. rate;'OilI2 eY~drcipPi!r .size·~'QPslh(. t
I~B~~:m:~:!~~;!i;ii~~~~~i;;~~;ln~~;~;%~:~~
·..l.ajf!<,:!~::;~~~~:~t~~;~f~r:~!(~~:~;;::~;:
use.)••
good; minordegridlngllffe.~\:Y~ry w~!!~We~liiruse low pei1\..fate!0.'/2eyed,oPper $1;~ drops/h;.. good; minor degrading ellect: ~eii' weI( suited tor use no per/ll. del~~'8d during 0 hr. test
""U
< »
,.",
low perm: nl.ei(t1l2eye&ilppe(ilzed!ilps!llf. .xcellent, ~erY Iittiedegnidin~,~iI~CI;~eI'f.WelISUiiedJOr ".,,,,. ".use"· •.(.. ." lair; moder. degrading elfect~$\Iilable.under carefut USe" Iow,perm. fate; o'lI~ieY~diO'pper sizedrop~r.
p'Qor; Ptonoil'"~:~r~:~=:!~~~eCi:~:ii!:(jtiS8
0.0208 0: 2/. 0.0208 '~i 0.0208, "8.' 0.25 '.' .8
'23 .·;ir~;j 0~0~~8
Freon TMC
fate;Sj'10~~yediWpliHii8iliops!~r;.
excel)ent; veiYliiil8:degr8dirili;,llec(: vtljMeUsUl!eltlol, use' ,.:.,........ .'. •, .. "
0.0208
Ethylene Dichloride
;, m;/,or fair perm.degrading ettecr~~it;~I~:ubder:~~retul. ~se, P99f, PfoPoll~¢e'~de9ri!Olii9ieffeciWaYl!ldyse • ... n~~~c~~~~re~di:'<
.~.
9
monoelhanolamine
·<use·::~
~;.
Acetatei~~~~1f: 0~~~~8 t'~~
Gasoline
Ans, Edm, PVA; lined glove film
-'goOdperrn:rall[s;Soeyediojipefsiiifiiropsliir, suitable for apPlic, under C~feful..conlr~1 oiuse excellent; very little degrading ellect; very well suited 10f
0,0208'"
0~0~~8
Material Note
<0,9
0.0208 ij S ,. 0.25 ~ .•".1
Ethanolamine
Resistance~Note '
Rate
<90
150
.6' 5" 9
0.0208 r~
Ethyl
BTT
,
Diethylamine Oiisobutyl Ketone
Dioxane Electroless Copper Electroless Nickel Epichlorohydrin
Permeation Time
,~~~' ,.J~;jl!j,~;:n~ .(::JJP!!~t !f!.~i~m~!mlM
(")
;:l
t"'
1,;lt Temp.
Chemical Resistance - Polyvinyl Alcohol
~ -...
01
Chemical Resistance - Polyvinyl Alcohol
"'U
< »
~ -'"
0>
~Reagent
Permeation Reagent Note
Conc.
Temp.
e,,)
('C)
Hexane Hydrazine Hydrochloric Acid Hydrofluoric Acid Hydrogen Peroxide Hydroquinone Isobutyl Alcohol Isooctane
23 23 23 '
65 concentrated
23 ·23 23 23 23 23 -23
10 48 30 saturated
Isopropyl Alcohol Kerosine Lactic Acid Lauric Acid Maleic Acid Methyl Alcohol Methyl Cellosolve Methyl Ethyl Ketone
with ethylene oxide saturated
85 85 36
MEK
Methyl Glycol Ether Methyl Iodide Methyl Isobutyl Ketone
MI8K
Methyl Methacrylate
@
Methyl t-Butyl Ether
MT8E
Methyl·2-Pyrrolidone (N-) Methylamine Methylene Bromide
NMP
Methylene Chloride
:
'>23
"l:l
S' ~
n'
't:l" '" 15'
Mineral Spirits
Rule 66
IMorpholine
C1l
;:l
t
.,p
c:r
.,
te:
23 23 23' 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23, 23 23 23 23 23 23 23 23 23
Muriatic Acid Naphtha
VM&P
23 23 :<23' .f·23 . 23 .? 23 23
I
l Bn"""I'
I·
Resistance Note
Material Note
good; !!llnor degrading effect; very well sUlle~ lor use low perm. raie; 0~112'eye~ropper size dro~slllr. nOI recommended "
Ans. Edm. PYA; lined glove film
Time POL LOL Rate (d~Y~LRatlng&~I~JI (ppm) (l'glcm 2/mln.) 0.0208 0.25 0.0208 0.0208 0.0208 0.0208 0.0208 0.0208 0.0208 0.0208
8 8
, 1
'"
1 2 9
poor; pronounced degrading eflecl; avoid use ./exCiiiieilt;·veryfinledegra.dingeffact;·veryWiillsuitad lor·
o
<0.9
o
<0.9
7
o
<0.9
7
0.0208
5 5 5 5
0.0208 0.0208 0.25 0.0208 0.25 0.0208 0.25 0.0208 0.25 0.0208 0.0208 0.0208 0.25 0.0208 0.25 0.0208
,··
9 1 8 8 5 1 1 1 5 5
0.0208
90 30
o
7 7
o
8 8 8
o
8
o
1 1 8
goOdpeiiii:ialelS.50 eyedropper siza dropslllr. minor dagrading!I!~~!;~\J~~9!e~,M![!'l!elul use <9 very good perm. raie;MW~dioppeisjzediopslhr. lair; modar. degrading eireci;'s~ira~ie under c;¥aful use good perm. rala; 6·50 eyadropper size dropslllr. <90 minor degrading eUacl; suil~le urydar caretul use lalirmoder;degiadlng.lfeii!;suiiable und~M!refut use <0.9 low perm. rale;.0.112 eY"~~p~e~~!~~~(g~~lhr. lair; moder. degrading effect; suillible"undercarelul use <0.9 low perm. rale; O'I12eyed(opper size drops/hr. good; minor degrading effect; .ery well suiled for usa <0.9 low perm. rate; 0,1/2 eyedropper siza dropslhr. good; minor dagrading affecl; .very well suited for use <0.9"J~~p~r9krat~;P1!lg;~r~9ropper size dropslllr. .'nol iecommended ~ ..
o
<0.9
o
<0.9
o 90
<0.9 <90
>420
<0.9
8
8 8
9
6
8 1 9" 9
M
good; min9r d~grading eff~ct;WiYYieitsUlled for use 19w perm. rate; 0~V2,aYedrop~.r size dropslhr. good; minor degrading .effecl; .ery well suited'for use low perm. tat;,; 0'1~2 ~yadr.opper .size·drops/hr. excellent; very lillia degradinlle,ffacl;ve,ywell suMd%i'· ...:usa.;·,':;
9 t:
..' U5 8
low perm. rala; O.II~.eyadropper size dropslhr, not recommanded good; minor dagrading effect; very wall sUited lor usa low perm. rale; 0·112 eyedropper size dropslllr. /ral!i mOder. degiadingiifleel;sUlt~bleuil(jer~~(elul use low parm, (!lt~;P1!!?~¥~!I(9PP~Mi;~!I!~~slhr. .. ";1ioliecomme,n
<90
30
5
0.25
0.0208
<0,9
, ,;;
0.25 0.0208 0.0208 0.25 0.0208 0.25 0.0208 0.0208 0.0208
0.0208 0.0208
o
"
,.
low perm, ~;eT6,1;2aY8~;Opper$ize d;~ps/hr. 9009 permofai8; 6:!i9er'edloPP81 size dropslllr. llood;minor ~egr';~l~il'~~~~li:'erY well suited for use .,..;;.: '•. ' ·····;~9i!M1Mffiend~d . ······lowperm:iaiei~fl2~iedropper size dropslllr. ' .• excallenl; very lillie degdiiiing -;ffed~ ve~ wen sulled lor, ~-
:'~ .~~."
·-·'\t<~~.~,~'
W" .
'~:'~"
I I
@
'S"' ~
Permeation
C/)
INitric Acid
red fuming 10
C/)
70
~.
t
c:r ..,
..,
~
<.c:
('C)
Time
POL
(days)
Rating
r
C\l
;:l
Conc. I'Tem p , (')(,)
n' tl
Reagent Note
IReagent
IN itrobenzene
.. \23 ~3, '.413
0.0208 0.0208 0.0208
. 23
0.0208 0.25 0.0208 0.25
I
.2~
INitromethane
95.5 95.5 95.5 95.5
.Nitropropane
.. ,,23·23 '.23 '23
0.0208
BTT (min.)
Resistance Note
LDL Rate (ppm) (llg/cm 2/mln.)'
nol recommended
'23 1
'?3
...good;'minor digradln9.~«m;ValY 8 8 8 >360 9 9,
o o
<0.9 <0.9 <0.9
Oxalic Acid Palmitic Acid Pentachlorophenol
saturated
Pentane Perchloric Acid Perchloroethylene
60
Phenol Phosphoric Acid Picric Acid Potassium Hydroxide Propyl Acetate
concentrated saturated; with ethylene oxide
KOH
50
"," .23 ?3 23 ·23 23 23
0.0208 0.0208 0.25 0.0208 0.0208
23 23 23 23 23 '23
0.25 0.0208 0.25 0.0208 0.0208 0.0208
2~
'·23 23
Propyl Alcohol Propylene Oxide
23 23
Pyridine
-23
Rubber Solvent
23 23
;)IIICOn~ Skydrol Sodium Hydroxide Stoddard Solvent
hydraulic fluid
NaOH
50
-;)lyrene Sulfuric Acid .!!nnic Acid
0.0208 0.25
battery acid
8 8
47 95 65
·23'
3 6 8 8 1
0
<0.9
<0.' <900
5
o
<0.9
"
0.0208 0.0208
'·,;~ri.;:.:;~iJi,~=r:.:-" fair perm. rate; 51-100·eyedrolfper size d,,"p~!~r.
iIil;~:~~1::i::~(:~ii:C:~:~:I;a~1~u::~f~~;:~i:~~:ese
I
........19w P~(fll;,a.le;9~!!g!y~~19P!W~i;~~!~p$i~i·
<0.9
5 7
o
<0.9
1
low perm. rale;RW?~~M(9l!~~r*~919P~t~i. fair; moder. degrading elleet;'su~able uMkcarefUI use low perm. rale; 0-1/2 eyedroppec si;t.ilroPslhr. nol recommended
1
.-
1
120
<9
~eiij'il66d'permWiiie;li5iyedroWeisjieNliop~lhr.
good; minor degrading eflecl; veri welf sulied f~t use 35
<90
poor; pronounced d~gradiog e!te~l;M§@#M good perm. rale; 6-50 eyedropper size dropslhr.
10
<900
m(rl~r.~.~g!~!!lng . ~.lle~I; . ~~it¥I~ . ~n~~(.,sa.reful ~.se (air perm. rate; 51-100 eyedropper size drops/hr. 1""",,!)\inoM~gfa.~!VIMH~F.t;.;~yj!~J~,'\'!i~~fAA!~I,~!,~se.
9 9 1 5
208
9
1
9-8
8 1 ';11 2
poor:pronounced~~g~~ingefl9,cl, ~v~id us,e
"'U
<
:l>
I
for' use...·.·
o
_.25 - 0208 208 1208
'.25 A.0208 .25 1208 .v208 0.0208
good; minordigi@ing effect: v~ry'W~llsuMdl01 u'se low perm;!~i~;9'1/2 e;'ed;~pper~lle drops/hr.
'notiec~iriendid
0.0208 ."""""",~,;" ,,,,,,> 0.02081·:rlllll"· 0.0208
d '0(.
·,&j[~ii8nlN8i{liiiiii(jigra(jliigeneCi:Yerfliiiill$lljled
9
6 5 4 5
-
good; millor degrading effect.; virf"all$UllJi!l:!Qi U$8 low perm. rale;0-112 eyedro~e!h etcellenl; very litlle degrading effecl; ve
9
7
w~!f~ijM~Mt use
.Iowp~rfll,}a.!e.; 9~li~@~ijr9l!MO'
vse~
,.~. ::::'l' "
Oleic Acid
i
Ans. Edm. PYA; lined glove film
1
l
Octyl Alcohol
Material Note !"
Chemical Resistance - Polyvinyl Alcohol
~ .......
-..J
Chemical Resistance - Polyvinyl Alcohol
-c
<
.j::>.
-'"
00
» .Permeation
Reag~nt
Time rd~Y~)
.
Tetrachloroethene
"\23
0.0208
I poL . . R~tirig . .':~
Resistance Note
.
,. )L'
THF
Toluene
toluol
Toluene Diisocyanate Trichloroethane Trichloroethylene
90
<0.9 <90
o
<0.9
o
<0.9
o
<0.9
Hriehloroethane
Tricresyl Phosphate
TCP
Triethanolamine
TEA
Water
@
"tl
S"
~
r;'
'"t l C1l
'"
<E' ;:J
t-o
0: ..,
..,p
~~:::~.d:~~11~2e,:~:~r::Z~~:(i~~~:::::;~Wi\ !iIQ~P~;;&:}ii~{~li2e~edroPP~f~*e.dr~Plihr.;'
l;~t~~~~~2i:j~~;i~~~;~~r:;~e(il~~~iti;f:!~j~· . use
85 85
o
<0.9
o
<0.9
o
<0.9
o
<0.9
o
<0.9
Turpentine Xylene
.; • • •::·····g:~;~~i~~~ei~~~:~~~::~~l;~:~~~::r.: ....
.;-"'{"'!~i! p~rT, . ~!~;:9rjt~:~X~gri>jlp~r:.~!~.~: •.~rf)p~thr.
A~ceiie~j;vetYliitiedeOiadliigefleCi;:veri~el(~~iledfor
TCE
xylol
Material Note
..
good;·mil1or deglilding elleel; veiyi'i&(isoiiedj~r \lse
TOI
1,1.
' •
~~e:l'jtfyerYcli~le dj~rad~~~ elle.~I;~~'Y . tieIiSUII~d lor'
9'"
o Tetrahydrofuran
.c·
;;••
Ans. Edm. PVA: lined glove film
..
~
::
0/0 Clial1~l).
Hardness I
YOlum;/
.Resistance Note
ChanQe .
.~: .;;{.,:;.;.
Material Note
<,. recol11mended lor use 'may caus.e 51. visible swelllloss o( ~rop. ,'TiM, to. moder. eUe~1 may. cause 51. visible swelUloss 0' prop. mino(tot(lodei. eUecl .
. '
,"~,~~r..I~ ,~~ii8re etfec!
", may·cause stvisibleswell/loss 01 prop. '
<10 0 5 5
,mtlei~k~ii~~~s~verecohd'~~YCauSechange, .
.
'"
"~"'-'
,", ,','..
A·5 A-5
Dow Corn. Silaslic (MQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured
5
A-5
Dow Corn. Silaslic (VMQ); molded & oven cured
15
A-l0 A·l0 A-l0
Dow Corn. Silaslic (VMQ); molded & oven cured Dow Corn. Silas!ic (PVMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured
A-5
20
25
o
Aceton itrile
5
Acetophenone ·moiler. 10 severe eUecl moder.[severe swell and/or loss ol.prop. unsatisfactory for use . . minor \0 moder. elle<:\ . maY::~e,~;eSI. visibl~swel610ss of prop. unsatislaCI<>,yf@@ij
Acetyl Chloride 23
Acetylacetone Acetylene Acrylonitrile 23
Aerolube Aerosafe 2300 Aerosafe 2300W Air
Aero Lubriplate
.'
nOls~1taiile.l~r~~Ni~~, mln~ti()iij<>aei/elieci
..' moqer.lo severe eUecl recommellJlailM(llse M::::':
. ifo/suliiillis.fiiisllFVocs
Aircraft Turbine Oils NO.35
Alcohols
15 15 15 10
65 65 65
to
90 90
15
65
80 75 75 85 85 80
Dow Corn. Silastic (PVMQ); molded
A-15 A-20
A-t5 A-l0 A-15
A-IS
& oven
cured
<: Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured Dow Corn. Silaslic (PMQ); molded & oven cured
denatured
Alkazene Alum ~
o' o
:::::l
CD
Chemical Resistance - Silicone Rubber
~ .......
CO
.;:..
Chemical Resistance - Silicone Rubber
~
o' o :::J
. I'
CD
.~
Reagent _. :':..:: .. : (.: ~: :~:;:
\ Reag~nt Nbte
;:-:
cO:nc·lremp.! Ti~e
.23,.' 23.
Aluminum Nitrate 23-.
'i,,:,
Aluminum Phosphate ; ·23"
<1
)]f{f,
concentrated
~ ~~;.
< 10
:
3"\";
c"
. •. ~4;.
7
~;;i. ~ . ," k:::):: ~':':::-. ~
"
~4.
,,}
,
Ammonium Nitrite
~
~~o~::~~ti~~f~;:~r~i; .
iiuIJ~~:~!f~;:~;~lf~?~~S)~;;:~~~!ih~~~';
7 7 7 7
.,
<10 <10 5 0 0
·;i!:i~[i·
II
llii/)oflO mo~et"!ll~~t\ <,.'h)
"t~';~~~:.·
. Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured
360
'\0';\'
\-
..Af ~d~(jS;:~~~:~~~:~:~~1~~.~t~;6
i ..
2i
Material Note .:....
" ' j rec9mm:enli~d"()Tuse""''''/J!;
i
saturated
dibasic mono-basic tribasic
., Resistance N,ot~J
6, .• " ' > ' "
mixed cold hoi liquid
300 lb. pressure
Hllr~.Il~~S I'., Challge
,
O;'II!r~~~f1~~~:~~~~:~.i~;:i~~~:~h~~: .
'. ..' l;lt
Aluminum Salts Aluminum Sulfate
anhydrous gas. cold gas, hot
,./"
8 r e c o ! n m e n d s ( l ' l o t use ••.. . 6 minouo moder; ell,!,l. '} .... may caqss'st vlsib!~ swe..liIl~ss o.fprop. 6. minor to Illoder. elleet 6 may'cause St'~~iblts~eliIJoss o( prop. ;.6· . ..: 'Il'iiiiotto 'moder .ejj~t "; ,..,;. ...••6' iM)t~llqse,sl,YI~ible;o/~J~QM:9!~i~p ...•.
Aluminum Fluoride
Ammonium Phosphate
Tensiie ~Iongalion ~!f~,ngth / .
o
".;'
:'2~
Aluminum Bromide Aluminum Chloride
jAmmonium Hydroxide
Volume"
(days) Ra~J!l'!1
(") '" • ('C)' ,{.
Aluminum Acetate
Amines Ammonia
I PO.L
% Change' . ' % Retained/,
N
300
<10 0 0
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn, Silastic (MQ); molded & oven cured Dow Corn. Silastic (PMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured
5
:~":-
© ~
p
'" '"t l
;1: l"'l
(\)
'" <E'
;:s t'"
~ P
.,
tl:
Ammonium Salts Ammonium Sulfate Amyl Acetate
':~':"'"
Amyl Alcohol
r:::.. J?·~f
:':':"
Amyl Chloride Amyl Chloronaphthalene
'
?·:):\~?t7:;:.
;'\; "'~~;!it~:~~~t,~~ilr,tl;:~: ),;y>
(23,
F 23."
..
tj:;?:/}~:'
..
.~.
./00'" .";; .. u~ ~ .~<.;t;· :.;.::: . ~:~
, 2m",
~.
u;
:.~::.;.
@
'po" ~
. 'Yo Change
. Reagent
Reagent Note
r;' CIl
t:I
Cone. Temp. Time ,PDL (%) I'C) (days) Rat!,ng .: ~;:;;
;:l
t
...0->:l
... u::
I
Hardne~sl
I
Resistance .-Note ,.,:;,,~,
Cha.!lge
· .......I t-;itllt-f"'... I .... ruf....,. ~.~ ...
Material Note
:}.,
23
CIl
~.
% Retained Tensile ElongatIon Strength'
.,
Amyl Naphthalene
C1l
Volume
Anderol L744 Anderol L826 Anderol L829 Aniline
di·eSler
dyes oils
l
dyes
Aniline Hydrochloride Animal Fats
lard lard lard
Animal Oils Ansul's Ether Antifreeze Aqua Regia
1
5 5
65 20
60 25
AO A-5
0 5
70 75
65 120
AO A-l0
5 10
110 95
105 100
A-5 A-l0
Dow Corn. Silastic (VMO); molded & oven cured
AO A-5 A-l0 A-5
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
Dow Corn. Silastic (VMO); molded & oven cured
lard oil
Prestone
Argon Aroclor 1248 Monsanto
Aroclor 1254 Monsanto
~.'.::
Aroclor 1260 Monsanto
Arsenic Acid #23/
",j "',
<10
Askarel Asphalt ASTM Oil No.1
,
0 5 10 5 5
90 95 90
90 95 95
A·5
:!;; ..;i:;il~)~;i;!;~~;j'!'0ii11?;< . . .
'b
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
!;Q
o' 0 ~
(1)
~
Chemical Resistance - Silicone Rubber
N
-'"
~ l\) l\)
Chemical Resistance - Silicone Rubber
~
o' 0 ::J CD
"
'% Change
Reagent .~
I
Reagent Note
I I I I I Conc, Temp, Time POL (%)" I' C) (days) Rating
ASTM Oil No.1
..
ASTM Oil No.3
8
10
90
90
A-5
8
5
90
105
A·l0
Dow Corn. Silastic (MO): molded & oven cured
150
1
7
10
85
90
A-l0
Dow Corn. Silastic (PVMO): molded & oven cured
150 150"
3
6
10
80
85
A-l0
3
8
5
90
100
A·l0
Dow Corn, Silastic (MO): molded & oven cured
150
3
8
10
95
95
A-l0
Dow Corn. Silastic (VMO); molded & oven cured
150
7
7
10
90
90
A-l0
..
lS0
7
7
10
90
90
A-l0
Dow Corn. Silastic (MO); molded & oven cured
150
7
7
10
80
90
A-l0
Dow Corn. Silastic (PVMO); molded & oven cured
150
30
5
10
65
75
A-l0
Dow Corn. Silastic (VMO): molded & oven cured
177
3
8
10
90
90
A-5
..
177.
3
6
10
80
90
A-15
Dow Corn. Silastic (PVMO): molded & oven cured
177
3
7
5
90
90
A-l0
Dow Corn. Silastic (MO): molded & oven cured
177
7
4
10
50
70
A-20
Dow Corn. SilasHc (VMO); molded & oven cured
177
14
4
10
50
70
A-20
~
r;' en
t:::I
(\)
en
IS ;:l t'"
0: ..., p
...,
te:
Dow Corn. Silastic (VMO): molded & oven cured
·······jjiisati$liii:i6()"(6iu~iI
:"
150
2.9
9
1
104
98
A-6
1.50
7
8
8
108
100
A-6
24 '24
3
7
15
A-5
Dow Corn. Silastic (MO); molded & oven cured
3
6
25
A-l0
Dow Corn. Silastic (PVMO); molded & oven cured
A·15
.
.. .. ..
. .. ..
Dow Corn. Silastic (VMO): molded & oven cured
100
3
5
35
1°0 110
3
6
20
A-l0
Dow Corn. Silastic (MO); molded & oven cured
7
1
60
25
40
A-30
Dow Corn. SiiasHc (PVMO): molded & oven cured
150
1
3
50
60
80
A-25
15.0 150
1
3
50
50
80
A-20
Dow Corn. SiiasHc (MO): molded & oven cured
1
4
45
65
80
A·15
Dow Corn. SiiasHc (VMO): molded & oven cured
150
3
3
35
55
75
A-20
150
3
3
35
50
75
A-25
150
3
2
55
50
70
A-35
150
3
2
85
1.50
7
... 4
40
55
177
0.17
3
45
177
3
3
..
. :~;.
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. SiiasHc (PVMO): molded & oven cured
A·25
Dow Corn. SiiasHc LT·50: molded & oven cured
100
A·25
Dow Corn. SiiasHc (VMO): molded & oven cured
65
75
A·25
60
40
85
A·40
moder.t6 se1lere'iiffeet Dow Corn. SiiasHc (VMO); molded & oven cured
177
3
3
70
35
105
A-40
177
3
2
55
15
75
A-35
Dow Corn. Silaslic (MO); molded & oven cured
177
7
2
70
20
70
A-50
Dow Corn. Silaslic (VMO): molded & oven cured
200
3
6
5
55
100
A-15
Dow Corn. Silaslic (PVMO); molded & oven cured
~it
'jjiisat)slactory for use
2
:.;
.. ..
Material Note
1
2 isooctane, also TT·S·735 type I
I
1
4,
ASTM Oil No.4 ASTM Reference Fuel A
Resistance Note
150
ASTM oil No.3
~
I
Hardness <:;~JII!9"'?1
.Slr~~~'h .
2· iubricating oil
l:i
% Retained Tensile
150
ASTM Oil No.2
@
Volume
-54::; 0.004
8
10
;g4
8
10
0.004
"j
10
Dow Corn. Silaslic (VMO): molded & oven cured
I
20
;54"'; 0.007
I
15
I,
-~4;t 0.007 ·54
20
0.01
, (~~';): ~:~: .54 "~ 0.02
6 .•6 :~
Dow Corn. Silastic (PVMO): molded & oven cured Dow Corn. Silaslic (PMO): molded & oven cured :; Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silaslic (VMO): molded & oven cured
25 25
.~
20
5 ." •
35
.7
Dow Corn. Silaslic (PMO): molded & oven cured
I,
.{:S4· 0.004 -54,';:' 0.007
I
Dow Corn, Silaslic (PMO): molded & oven cured
l"~'
I
,
Dow Corn. SiiasHc (PVMO); molded & oven cured Dow Corn. SilasHc (PMO): molded & oven cured
© '1:l
P ~
r;' CIl
isooctane, also TT-S-735 type I
~
30
CIl
30 25 30 25 50 40 35 50 65 45 85 75 90
cE' ;:l
t""
...0:~ ...
lr;:
bis(2-Ethylhexyl) Sebacate
Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Silaslic (PVMQ); molded & oven cured Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Silaslic (PVMQ); molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Sitaslic (PVMQ); molded & oven cured Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Sitaslic (PVMQ); molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured
-215
ASTM Reference Fuel B ASTM Reference Fuel C ASTM Test Fluid 101
Dow Corn. SilaSlic (VMQ); molded & oven cured
di (2-ethylhexyl) sebacale, (plexol-201)
Dow Corn. Sitaslic (VMQ); molded & oven cured
20
A-10
Dow Corn. Sitaslic (VMQ); molded & oven cured
20
A-15
Dow Corn. Silaslic (MQ); molded & oven cured
MIL-L-4600 Oil
28 30
A-14 A-14
Dow Corn. Silaslic (PVMQ); molded & oven cured
aqueous
<10
-
Barium Chloride Barium Hydroxide
.ieconimenihid lor use
little/no e{l)'d-~,~~r! £9nd, m~r£~~~,t£~,ange iecommeifd",nor use lillieino eilect.seyere~~n.d ...mai'caus.e'Change
<10
-
Barium Salts Barium Sulfate
r.ecommended.lor use
aqueous
-
<10
lillie/no elfect-s~~ere cond; may cause change
aqueous
<10
mlle/n.p~I!MkM~U~
Barium Sulfide Beer 70
Beet Sugar Liquors 23
0.92
8' 9 8 .. 8
recommended lor use
0
cond.·may cause change recommendiid for use
AO
Dow Corn. Silaslic (VMQ); molded & oven cured
<10
Benzaldehyde Benzene Iigroine 175
Dow Corn. Silaslic (VMQ); molded &oven cured
Benzenesulfonic Acid Benzoic Acid Benzyl Alcohol Benzyl Chloride ~
o' o
:J (I)
Chemical Resistance - Silicone Rubber
~ I\)
U>
Chemical Resistance - Silicone Rubber
~
~ ~
o' o :::J CD
Reage~t
Reagent N()te
ConcolTemp'IJime (%) .
('C)·
(days)
Blast Furnace Gas solutions lime bleach solutions
23 23
solution, sodium borate
23
8 8 6
IElongation '.>
Hardness Change
23
8.
'\
Delco Mopar non·petroleum Wagner 218
4
: li!!lo/~?~!!~~k~~~.~r~;99Miin~~.:~.~M5!l~nge . ·moder.IO'Seyere e-fleet
<10
..
..
4
4
4,
'.23
moderisevere
4 7
8
88
7 7 7 7
88
7
24 24 24
88 l.!!O:.
2.9
,150
3
n.
8 8 8 8 8 8
5 5 5 5 5 5 4
75
100
A-4
4.:·;.; ..••
10
10
15
A-5
8
A-5
bromine liquid
<10
". Dow Corn. Silastic (PVMQ); molded & oven cured little/no eU~tsev,erecoM:,,:,~~~~@#p)j~nge . •• mode!. 10 sevefe eUect unselisf.aclory for use .nol suifable lor service"
j
24
7
Bromine Pentafluoride Bromine Trifluoride
4
:.::.::'"
15
Dow Corn. Silastic (MQ); molded & oven cured
A25
unsalis.leclory•.for use'
•.2 2
23 Bromobenzene
Dow Corn. Silaslic (PVMQ); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured
A·5 A-5
23
::
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured
A-5
2'
anhydrous
."," . •..
notsu~eble.for.s~'::ice:.
1 '
..... .' '.' "'iiti~ails!actoifor'1ise
mono bromobenzene
ii'
Bunker Fuel C @
'1:1
Butadiene
~
Butane
'~"
Butene Butter
;:l
Butyl Acetate
po
~;;s~~:ll;fJ;~:r;ice.
luel oill11ay':c.~~~e's.tY'~lb~;s'N:e!J!1?*~!~r9~;
'ii'. "";;niio~~s~W~ifi~ff~t~~~'~\'
.2,~r.;
r;'
tEo '"
swell~ndf;;;losS o!.prop.
A·5 A-5
4.'
anhydrous
bromine water
Material Note
minor to moder. effect may cause 51. visible. swellllossol.prop. . minorto moder; eUect' may caus~ 51. visible s~ellJioss 01 prop. .recommeiidedfor use
6", !!:.. .
automotive
Delco supreme 550 heavy dUly Wagner 218
Res.lstance Note recommended !oru'se little/no effect·.severe corid. may cause change minor to moder: eUect m~y cause 51. visible swelU10ss of ~,'Op.
<10
6
mixture
Boric Acid
Brines Bromine
T,e.,n.sile
~tre?gth
'",
6····· 6
.23
Brake Fluids
Volume
I'
6'
Borax Bordeaux
. .1 Rating
% Retained
8'
23
Bleach
I P~L
% Change
2-Ethyl liquid
~)\
WLi
2Wn
, 0.92
;.
n~;!~~1::1~;I;'~~:{.
i,···un$ali$lli~toiyroi,u~~.:"\'.','
0
A-5
Dow Corn. Silastic (VMQ); molded & oven cured
150
A-30
Dow Corn. Silastic (VMQ); molded & oven cured
t""
0: ... p
... ll::
7
@
'"C
~ ~
;:;. Ct>
t:l
IReagent
Reagent Note
conc~ITemp'l
IButyl Acetate
24·,Ci
'2~<
~
tEo ;:l
IButyl Alcohol
t'"
butanol
;,
% Change
24
I
1'
24
150
AO
1
125
A-25
T.ensile
7 7
Butyl Carbitol
'u
7
;
40 35
A·15
20
A-l0 A·l0
15
tilinGr 10. moder·, ellecl may cause sl. visible swelUloss 01 prop. . un~atisfaclory for use nOI 'suiiable for service Ilnsatislactory for use
l
Butyl Ether Butyl Mercaptan (tert-)
Oow Corn. Silastic (PMO); molded &oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A-10
'2
23
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
inay cause .sl. visible swelUloss 01 prop.
'6 6
23.
,"'
mlnono moder. elleci
5 5 6 6
2
2
23
Butylamine
;;;}~.,:
..
23,/"
~o!~~~a~;~ for service .. ···iJi,ijo{;0.m0dei.effeCI notsu~able for servfce unsatlsfaclory for use 'not s~~abl~ f.or service
l' 6 1··
Butylene
~3
2
Butylene Oxide
24 24
7
20
5
40
Butyraldehyde
j. ••,.
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured uiis~H~faCiorYlor use
~....
23
....
Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride
23
.-
6. 8 8
<10
1J!\I~!QQ.!!I!FI'~~~~f"!~A!\~ .
23
8'
<10
litllefnoefle~IiMX!I,".FoM4n~yc~~s'~~Mge
23
8 8 8
}ecomme1.~~~ lor use
6 6····
10
23
6 8
"'150
OV;-K'~
u
<10
lillieino ellecl·severe cOnd, may cause change minor t~i1J~~er. ellect may cause Sl,'v@~!~swelllloss 01 prop. minorlo.moder. elleet m!\y" c~u,se .~h ~isi~fes ...~UnQssof WoP'
5
85
90
A5
Dow Corn. Silastic (VMO); molded
•..150
-
9·'
5
23
cured
100
100
AO
Dow Corn. Silastic (VMO); molded & oven cured ...mlnor to moder; ellecl may caos.sl.y\~ible~ ..~IUlo~ofprop,} iecorlinieiided lor usa
6:.:....,
6'· ..
liquors
& oven
recommended lor use minor to ·moder. ellect
6·
10
.
!~~*fumM~M!@~~r""
·s. saturated
.
may cause change' .recommended lor' use
6
2'3
-
salurated
n~I~Ui1able for~e";ic~
-
-
Calcium Nitrate
unsatlsfactor)' lor 9~!l"
2.,.' 1
--
Calcium Hypochlorite
no(su.ila~l~ fo, service
l' ",
23
...
Calcium Cyanide Calcium Hydroxide
Material Note
Resistance Note
Elongation Hardness.
StrengthCh~nge
6 6'·
7
Butyl Alcohol (tert-)
Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Cane Sugar Liquors
I
5
7
24' ·24'.····
Oxide Phosphate Salts Silicate Sulfide
I
Volume
23.:./.....
..,
Calcium Calcium Calcium Calcium Calcium
% Retained
POL
6···'·········
p
u::
7
>:
butanol
0: ..,
I
(days)Ratiri~,.
. (%)('c)..
Ct>
Time
<10
i~in.~r10:~d~r: ellect •... lillieino' etlecl;siivere.~ond: may cause change' 'r;]comm¥~~~dfor use.
Q?
o' 0
::J CD
Chemical Resistance - Silicone Rubber
.j:::o. I\)
01
Chemical Resistance - Silicone Rubber
en o'
""'" I\)
0>
0
:::J (l)
IReagent
Reagent Note
Caproic Aldehyde Caprolactam Carbitol
N-43 fluorocarbon
monomer
I I
Cone. ITem p• Time
POL Rating
150 150
3 3
8
·24"
3
(%)
Capacitor Fluid
('C). (days)
Calgon
23
phenol
23 23'
may cause sl. visible swell/loss of prop. recommended for use ;. ,1iIIlefno elleeHeve,e 'tond, may·caui. change
<10
unsatlsfaclorylor use 'not sU'~iibl~ fO; servict
? 3
165 165
8; 8.
<10
23
8 8
<10
Union Carbide
23
2 ,,1
Union Carbide Tenneco Chemicals, phosphate esters
2:3
2 1
23
A-20 A-l0
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured recommended lor use .... liUIe/no afleci:severe cond.I)i~~t~9~!i:M!'ge: ·······:;iecoiiiiiierid~iffoiuse
: lillie/no eflecl·severJl condo may cause change' , unsatisfacl9ry for use ;: >; nOlSuijable.for service unsatisfactory.for use
. not ~~~~ljlf9tS~(V\Ca
lill"ililieifliCl'sev8fe'conlkmaycause'\iiliinge..
<10
8
;~:::
,,8.. , ;~)
hexadecane
2
" 2
dry
2
IChloroacetone
2
23 23
1
?3~i
1
,;,~
.
/,"i
dry wet
Chlorine Trifluoride
. "is··
~,< ~
..
no! si!lteble for service· u,\satls!actory!or use n~l $uij.able for service
W"
u~~llslacto)y' f~r Itse
23•.
tl
minor fO'moder_ alleet
7
wet
IChlorobenzene
Dow Corn. Silastic (VMQ); molded & oven cured
unsatisfactory for use ~9!.~u~aJlI~fors.~rvica
7
Cellosolve Acetate
til
minor to.iIIoder:· elleci
AO
;1
Cellosolve
ri'
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded &oven cured
minor fo moder_ elfsel may ca~se'sl' vi~ible swell/loss of prop.
8
Castor Oil
~
90
2.
,A13
~
80
6 6 6
Carbonic Acid
El
0
Materia' Note
~
6
'23 24 24
I
A-5 AD
,Note-
1
dry wet
23
@
Resistall~e
1
Carbon Tetrachloride
Chlorine
I~i~~~~hlEI~ngallOn IHq~~ri~~~1
6 6 ,2
23
Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents
Volume
·c·
;( 8'
Carbon Monoxide
Cellulube
I
%Retained
5 5
9 ,. 6
Carbolic Acid Carbon Bisulfide Carbon Dioxide
,.. Change
. . '..,.. ,.. ~~i~~~~~I~ 19r ~elv~,
."V·
~ ";::
mono mono chlorobenzene
{.";
~
til
cEo ;:s t'"
0: ..,
..,p
\t::
";.
not suilabie lor sil'rvic&. ;, /1
rChlorobromomethane
2!{i'"
67'~}
;(•.',-.
{:
2
235
A-25
..-.-;:
....
;.;.;'~-:::-:
:~
.
::~~~a~=;~9itr:;~~:c:.
; Dow Corn. Sitastic (PVMQ); molded & oven cured
,
@
'~" ~
r>til
tl
".'Change
, Reagenl NQle
Reagent ~
",'Y
.-."
Volume ',:~:'::~~:'
'~-'
Chlorobromomelhane
til
;:J
~
.., ..,
0'
p
tt::
'!fard,ne~jl . .' Ch~ilge} ., . .
Tensile':",
Str!ngth
A-20 A-20
70 95
(\)
<E'
% Relained
Chlorobutadiene Chlorododecane
Resislance Nole
I
Malerial Note Dow Corn. Silaslic ("10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
,:>:.: "$
,unsatisfactory for, use .~~
~~:
;_.':
":.I,J"
not sUhabte for service lIris.ali$fact()rylorlls~" not s6hab1e fofservice
Chloroform Chloronaphthalene (0-) Chloronitroethane Chlorophenol (0-) Chloroprene Chlorosulfonic Acid
;:;::::""'/);;:.'
1-chloro 1-nilro ethane
chlorobutadiene
Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid
equeous solution
Citric Acid Clorox Coal Tar Cobalt Chloride
........ ............:...:.;..
",': '~.;.~:~.~;.
~;C~~;W
WB'4MiK
<10
~itg~ :Ah::
0 0 0 0 0 0
100 110 120 90 90 95
100 115 120 90 90 95
AO AO AO AO AO AO
Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Sitaslic (PVMO); molded & oven cured
0 5
85 95
100 100
A-5 A-5
Dow Corn. Silaslic (VMO); molded & oven cured
101
33
32
A-21
Dow Corn. Silaslic (VMO); molded & oven cured
,
,',;.,; '.:
.
Chlorox 2N
Cobaltous Chloride Coca Cola Syrup
;'i@~~;M
1
" Dow Corn. Silaslic (VMO); molded & oven cured
" molded & oven cured
Cod Liver Coffee
...........,
••
N~
o.
Coke Oven Gas Coolanol Coolanol35 Coolanol45 Copper Acetate
Monsanto refrigerant. Monsanto Monsanto
3
Copper Chloride ~ ('S"
#f{:!~;;%
ifi··\1WWi
<10
~
0
:::J
CD
Chemical Resistance - Silicone Rubber
N -..I
~ I\:)
Chemical Resistance - Silicone Rubber
(J)
ex>
o' 0 :::J
CD
Reagent
I
Reagent Note
ICone. (%1
(OCI
(days)
POL Rating 8 8
23
Copper Salts Copper Sulfate
100
<10 0
7
Frilzxche Dodge & Olcult
24
4
2
55
8 8
<10
Navy No. 2135 Navy No. 9250
.23 93 .
4
93
4
melhyl phenol
7 API isopropylbenzene
n' Vl tl
C1l Vl
to· ;:l
t-'
0: .,
.,p
u::
A-15 A·10
Dow Corn. Silastic (VMO); molded &oven cured
2
1 1
24 83 83
2 8 3 6
14 3 3
23
culting oil
7
,
10 60 25
Dow Corn. Silaslic (VMO); molded &oven cured A·20 A-l0
.......................... _...
unsalislactory lor use
nol su"ahle for service
2 1 1
I
isopropyUoluene
23
<,2 I
Duponl
23 ~':
not suilable lor seMce 250
Dow Corn. Silastic (VMO); molded & oven cured .' urisaliSlacloi'yfor use
MIL·A·8243 Deicer Fluid
2.9
8
100' laO
5 5
8
,
unsiiit#lacto;Ylorus8 . :::::::::-: '.': ::", not $@able 10' service' ~.
;:
minor to moder. effect.,,,", may cause sl. visi~le:s;$IUl~ ~1'propY
6.
.71'0'"
not suitable lor service.
unsatisfa~torY lor US8" not sufiable lor .$8rvlce J'.' ..
' ...6'
:,:
,
u·
2 I
23
.
"~~~~~~i~~;~~;~ill~ii
2
23
Decane
nOl su"able for service unsatisfactory lOT use nOl su"able for service
.. 'urisai,slacioi'y lor use
2 1
\ .. "
,.:-;.".
i;
2 1
23
Decalin
.
unsillislacto(ylor. use " •.
,
2
Cyclohexyl Alcohol Cymene (p-)
Deicing Fluid Delco No. 11
Dow Corn. Silastic (VMO); molded &oven cured
:,!iltl~r~I'l!~Fk~,~Y,~fI'£Rn~,.'ll~'Y"F'\~.~,.~• £~.~nge
10 10
."
23 23
Cyclohexanol Cyclohexanone
~
A·5 A·35
,
23 24
S"
90
2
Cumene
'1:l
85
2 2 2 23
Dow Corn. Silaslic (PMO); molded &oven cured
recommended lor use fIltlwoo effecl-severe condo m.ay cause change,-
Jecommended for use
6
:~
coal tar wood
Material Note
Iillleino eltect·severe condo may cause change recommended lor use no effect
23 150
~
I
Resistance Note
recommended for ~se )iW~(~o eltect·severecond. gl~YFM~~rFh;>.!)ge'
<10
Mazola
315 API
@
Hardness I Change
recommended lor use
8 8 8
coallar
Cutting Fluids Cyclohexane
I
<10
5
Corn Oil
Creosylic Acid Cresol Cresylic Acid Crude Oils
Tensile Elongalfon Strength .
8' 8 8 8 9
23
Creosols Creosote
Volume
8
10 50 50
Crankcase Oil
% Retained
I I I
Temp, Time
Copper Cyanide
Cosmoline 2046 Cottonseed Oil
,. Change
t
0
:8\" ..
5 5
85
90
A·5 A-5 A·5
".', > . '< >./,.
'\.""',
·d·
:.; Dow Corn. Silaslic (PVMO); molded & oven cured '(
Dow Corn. Silaslic (MO); molded &oven cured Dow Corn. Silaslic (VMO); molded & oven cured
@
". Chl!l!ge'
~
p
'"0'
Reagent Delco No.9
t-'
0: .... p .... (C
.6
10 10 10
'6 7
'" to· ;:l
Vol~;ne
Rating
~
'~"
'PDl
Detergents
solutions
photo
85
115
8 2
Material Note Dow Corn. Silastic (PVMO); molded & oven cured
A·15 A-15 A-l0
Dow Corn. Silastic (VMO); molded & oven cured ) ' \ . ) ' r~c\,",meiided lor use
<10
m!l~l~?~I!~p!i~~v~(~Conq.m~¥~~MPM~g~
<10
mtlelnoelle~;-Sever~'c~nd"maycausechange
,iecommended IqiiJse'
6
23'
;~eslstance Not~
~;~I~~ 1~16ngatiOn IH~~~~~~s "
13..."
8
Developing Fluids Developing Solutions Dextron Diacetone
IRktaln~d
'.',' ..
,un;~lisfaclory for use.
I
..
"2 23
1
23 24
2 6 8
Diacetone Alcohol Diazinon Dibenzyl Sebacate
not suitable for service 'unsalisfacto!) for use may cause sl: visible sweWloss of prop, 5
Dow Corn. Silastic (VMO); molded & oven cured
A·5 ~nsa!i~f~c\Olx!~~use
Dibromoethylbenzene
2 1
Dibutyl Ether
2 1
Dibutyl Phthalate
,,¥dei;i~sev~re itffeCt
4 4
23
moder.Jsevere swell.and/odoss of prop: unsalislaClo~WrHse,;.
'~o(;~itable(~M~';"iC{ , U"salislaclo!)· for use ,notsuiiable for service' ·····mliiortomod8i;:8ffeCtC~
6
.,- '23'
mayc:aus~ ;I:tisible.swelvi~ss 01 p'ro P.
6
Dibutylam ine
4 4
Illinor to.~der: effect ..i, 'may cause s'= visib1eswelllloss of prMi: .•. moder. to severe effecI . niOiler .IS,evere swell and/ol loss of
Dichlorobenzene (0-)
2 1·
"nOI suii~bi;Jor service
Dibutyl Sebacate
·6
6
I
unsiliisfactoiyforusll
'2
Dichlorobenzene (po)
2 ..~
Dichlorobutane Dichloroisopropyl Ether
,,2 ,I
.23'::
24 Diesel Fuels
diesel oil
7
,~ ·9
o
Dow Corn. Silastic (PMO); molded & oven cured
2 1 ' ; '1
h::t 1 .,'
2"" '1
130 85
A-35
100 105
A·25
90 140
A-25
A-25
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured
A-30 A-40
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cUled
Diethyl Benzene Diethyl Ether Diethyl Sebacate
Q?
o' o
::J (l)
Chemical Resistance - Silicone Rubber
~ I\)
CO
en o' o
~ (J.)
Chemical Resistance - Silicone Rubber
:::J
o
~~.--~--,
Reagent
Reagent Not~
.!
% Change
c.onc·ITeIJlP Ti.m (~)
I,' C)
Diethylamine
23 -23 -
Difluorodibromomethane Diisobutylene Diisooctyl Sebacate Diisopropyl Ketone Diisopropylidene Acetone Dimethyl Ether Dimethylaniline Dimethylformamide
Dimethylhydrazine Dinitrotoluene
methyl ether, monomethyl ether xylidine
unsymmetrical
-
7 7 4
6
2.9
-
23
23
~~~a~let9r$~J~i~e'
.,
may cause st.: visible swelUloS$ of p;op.
6 9.
9
2 2
5
60
75
50
AO AO AO
"v
.;::
Dow Corn. Silastic (PMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silastic (VMQ): molded & oven cured
uiiSaiJs/iido,y tor use
2 t
not suitable for se!"1ge
4 4
!J1OdeLto sevllre effe~l ' moderlsevere. sweU andloOoss ofpJop.
1 1
.:-:.:.
88
A·'
11
90 84
91
13
96
108
A·5 A·15
10
4 4
moder. to severe effect moderlseveresweU'andiortoss
2
unsatisfactory torus{
1
Dow Corn, Silaslic (VMQ); molded & oven cured
ofp~~p.
not itihabte for servic~
.unsatisfectory for use nOl spitable for service
",
,,"',.
unsatisfactory lor use .not $ui!able for service
-23
2
unsatlsfactory for use
biphenyl/phenylbenzene
23
1.
nOI~ti~~blefo!s~ry~~!
diphenyl ether
23
4 4
moderlseverllsweli'andlor loss 01 p;op,
1
..
Diphenyl Oxide Dow Corning 11 silicone compound
~
-
150 150 2P%! 250'
o'
\t:
. n9t
·iiiiiiortomodei;.ll9i:f
2
Diphenyl
.,0:p .,
u ..
liIU.e/no effect,s8vere cond: ~~~. causll change
<10
2 ./
Dipentene
t""
~?t~~~alile lor se~ice..
1
~
Dioxolane
;:l
mo.der. to sever~ .e\feet , un~@slaiM;Yloruse
3
23
'f?" '" <E'
...
not suhable for se;;"ice
'.
Dioctyl Sebacate
'p"o
m!ly caus~. sl visible sweIVios(ofp;op." ruse ).,
6
-23 23 70 70. "ISO
@
minor to moder. elfect
m~yc8;~se~L~bt~ ~~eI09ss of P;~P. . iriliioi!omoder;elleci
1 '8
---
Material N.ote
'~'"
4
23~\,
Dioxane
Resistance Note' .
2 1
24./",'" '24 24
DNT
ar~nes
1
DMF
Dioctyl Phthalate
T~"~n.·.·.I~
. < .•.E.·.' t.o.. ".gat.'... O".I.H .. ....s....1 Stre~~!~I. ..,'. .C~ange .
6 6 2· 2
23 2.3 .,23 23
~DL Volume Rating' 6 6·,
23
Diethylene Glycol
I.
e,.
<4ays)
"4R~jairied .
1 3 1
1
Dow Corning 200 silicone fluid, 100 centislokes silicone fluid, 60,000 centistokes
24
24'
9 6 4 1
"8 <
24' 24.... ·
silicone fluid, 100 centistokes
4 9 9
1
3
6.>...
iiiOdetloseveieellacl
<
mode"- \0 severe effe,cl.'·
AO AO
10 10 10 0
A-25
15
A-5
Dow Corn. Silastic (PMQ); molded & oven cured y:
AD moder. to severe efleet
5
90
90
A-5
5 30
90
100
A-5 A-l0
:{
Dow Corn. Silaslic (PMQ); molded & oven cured
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PMQ); molded & oven cured
@
'" .....
p
Reagent Note
Reagent
'"ri' '"tl
(%), OT-
Dow Corning 200
ell
tE· '" ;:l
s:., .,
P
silicone lIuid, 100 centistokes silicone lIuid, 60,000 centistokes silicone lIuid, 10 centistokes
silicone lIuid, 10,000 centistokes silicone lIuid, 100 centistokes
\t::
silicone lIuid, 1000 centistokes silicone fluid, 12,500 centistokes
silicone fluid, 60,000 centistokes
Dow Corning 200
silicone fluid, 100 centistokes silicone fluid, 1000 centistokes silicone fluid, 350 centistokes silicone fluid, 60,000 centistokes silicone fluid, 100 centislokes silicone fluid, 350 centistokes silicone fluid, 60,000 centistokes silicone fluid, 10 centistokes
silicone lIuid, 100 centistokes
silicone fluid, 1000 centistokes
I
i'c)
(clays)
Rating
24
3
6
.....
silicone fluid, 12,500 centistokes
% Change
~
Volume
Tensile Str!~glh
Retained Elongation
25
I
Hardness Change
I
A·l0
,,"
~l
:":'
:?
2~
24 24", 24 24
7 7 7 7
24
7
5
40
24 24 24 }' 24
7 7 7 7
4 6 4 7
25 30 35 10
70 90 65
80 85 65
A·20 A·20 A·15 A·l0
6
10
75
90
A·l0
7 7 8
5 10 10
70 85 90
85 85 100
A·5 A·l0 A·5
95
95
A·l0
24 '
.
8'
5
85
95
A·5
1.
70 70 95 5
45 70 55
55 70 45
A·30 A·15 A·15
3
2 9
7 ..,>
Dow Corn. Silastic (1.10); molded & oven cured
;24 24 24
7 7 7
24 150
7 1
a
10
.,5
35
150 150
1 1
5 7
30 10
150
1
6
25
Dow Corn. Silastic (PMO); molded & oven cured ,;';
0'
A·15
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
.~
.
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silast!c (PMO); molded & oven cured
.
~. ~
:~-
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
Dow Corn. Silastic (PMO); molded & oven cured ~~-~-~
A·10
"
;~
75
70
A·15 A·l0
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
150
1
7
15
85
90
A·5
150 150.; ,
1 3
8 5
10 45
95
100
A·l0 A·l0
Dow Corn. Silastic (PMO); molded & oven cured
150 "50
3 3
5 6
30 25
A·15
Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
l!i0
3
7
15
85
90
A·l0
150 150 150 150, 150
3 7 7 7 7
7 1 3
85
90
60
65
A·l0 A·35 A·20 A·20 A·20
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
3
10 85 60 95 40
150 150 150 '-50
7 7 7 7
7 4 5 6
25 50 30 20
100
100
80
85
A·20 A·15 A·25 A·l0
Dow Corn. Silast!c (1.10); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
":~:
2
"." ~;:.
150 150 150 150
7 7 7 7
6 5 5 '6
15 15 20 15
80 125 75 80
90 140 75 75
A·l0 A·l0 A·15 A·l0
2?
(l)
Material Note
>
3
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
..,.
o' 0 :::J
H
Resistance Note
~:
" "
0-
POL
Cone. Temp. Time
Chemical Resistance - Silicone Rubber
U>
.......
~
Chemical Resistance - Silicone Rubber
S!? o'
W N
o
:::J
CD
Reagent Note
Reagent
silicone fluid, 12,500 centistokes
150
7
8
10
silicone fluid, 350 centistokes
150·'
7
6
30
silicone fluid, 60,000 centistokes
150
7
5
15
70
80
A·10
150
7
7
15
100
75
A-l0
..
Dow Corning 220 Dow Corning 304 Dow Corning 33 Dow Corning 4
heat sink compound
..
.. .. ..
150
2.9
1
8'
5
A-5
24,.
3
8
10
A-5
24
7
7
20
A-5
150
1
7
150
1
4'
150 '150
1
. 150
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
3
6
25
3
6
25
A·l0
Dow Corn. Silastic (PMO); molded &oven cured
A-10
20
A-10
4
30
A-20
200
7
3
40
A-30
silicone grease
150
7
7
15
silicone compound
150
1
6
15
A·15
150
1
5
20
A-20
~
.., $:l ..,
0-
It::
.. ..
moder. to
severeelieci Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded &oven cured
moder. 10 se
3
5
40
A-15
Dow Corn. Silas tic (MO); molded &oven cured
24
3
4
35
A-20
Dow Corn. Silastic (PVMO); molded &oven cured
24
3
5
35
A-15
150
1
4
35
A-20
150
3
3
45
A-25
.. ..
150
3
2
50
A-30
Dow Corn. Silastic (PVMO); molded &oven cured
150
3
4
40
A-20
"
93
3
4
177
3
2
250
3
2
..
;~.
Dow Corn. Silastic (VMO); molded & oven cured
..
Dow Corn. Silastic (MO); molded &oven cured mo~eL to severe effect
4
.. ..
Dow Corn. Silastic (PMO); molded &oven cured
24
Dow Corning 550
Dow Corning 702 Dow Corning 703
.
Dow Corn. Silastic (VMO); molded & oven cured
4
.
..
Dow Corn. Silastic (VMO); molded &oven cured
4
.
.. .. ..
A-15
6
.. ..
Dow Corn. Silas tic (PMO); molded & oven cured
,
25
1
.. ..
:
5
3
silicone fluid
..
A-5
200
..
..
A-20
30
..
Dow Corn. Silastic (VMO); molded & oven cured moder. to 'severe elfect
15 ;
30
pneumatic graase
;:l
Dow Corn. Silastic (PMO); molded & oven cured
25
Dow Corning 55
~ CIl tEo
..
,
24
6
.. .. .. .. ..
.,~
Dow Corn. Silastic (MO); molded &oven cured
A·9
6
..
CIl
11
7
Dow Corning 510
n
;.;"
,
moder.lo severe ellect
7
silicone fluid
Material Note
Dow Corn. Silastic (VMO); molded &oven cured
7
.
~,
Resistance Note
A-5
150 200'
.. .. ..
~
85
"
~~~!lg~
150
.
~
95
.
4
. .
1:1
Str.n~l~.
4
.. ..
@
.
4
silicone compound
Dow Corning 44L Dow Corning 5
Ten~!ieJ ElongatiOn Hardnes~
(days)
POL Rating
Volume
IOCj
1%)
,.
Dow Corning 200
Cone. Temp. Time
.,-,
~,Retalned
% Change
60
A-15
Dow Corn. Silastic (PMO); molded &oven cured Dow Corn. Silastic (VMO); molded &oven curad
deteriorated " ,
.
Dow Corn. Silastic (PMO); molded &oven cured <
moder. 10' severe ellect
4
Dow Corn. Silastic (PVMO); molded &oven cured
24
3
7
10
A·10
24
3
8
5
A-5
Dow Corn. Silastic (MO); molded &oven cured
24 ...•',
3
8
10
Dow Corn. Silastic (VMO); molded & oven cured
150
3
?
10
A-5 A,10
150
3
7
10
A-10
150 150 ,.
3
7
10
A-10
7
8
10
150
1
2
60
A-25
150
1
3
50
A-25
"
>-
.
..
Dow Corn. Silastic (MO); molded &oven cured Dow Corn. Silastic (PVMO); molded &oven cured Dow Corn. Silastic (VMO); molded & oven cured
..
.
@
%Change
'U
S"
tl
~RJ~gent
ReagentN~te I
nc':IT.: . y~)m . . .p. .;1 ,(~ay.s)Ratm9. Tim..e'l. P~L....
co..l.") •. .•
8.
;:.:.
IDow Corning 710
/1$6·' 150 .
silicone fluid
C1l
~.
;:3
t-'
& ...
7 7 7
200"
IDow Corning 710R
· · · .~ti· · · ·
...~ u::
24 ':. 150 150 150 ·150
IDow Corning FS1265 Dow Corning FS1281 Dowtherm Dowtherm 209
3 3 3 3 3 3
150 70
silicone compound
oil fluids, Dow Chemical solution SO/50 with water (Dow)
-
7
8
3 3
i77 ..~:.
Dry Cleaning Fluids
...,.
Epichlorohydrin
A·l0 A·5 A-l0
5 5
A-5 A-5 A-5 A-l0 A-l0 A-5
o 5 10 5
o 5
110 115
95 90
'2 1
23
2 , 1 ..
Dow Corn. Silastic (VMO); molded & oven cured
:~,
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
AO A-5
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silast!c (VMO); molded & oven cured
moder.IO severe effect 93
83
Dow Corn. Silastic (VMO); molded & oven cured
A2
"unsatiiiaClor)'fo'use Dow Corn. Silastic (VMO); molded & oven cured
A-l0 A-30
. unSalisfaCloryiotuse not su~abi; l~r serv!~e ·.unsatisla*W!'Yio,use not su~abJ~!or service :unsatisfactory for use 'not s~~able.foi.service mirior fa moder:.e!fe,ct
6
mono ethanolamine
->
-i:
... minor to moder, eflecF ";"
10 40
23
severe eUect
··m.9.~efBh~fe .swell a~~!o£'o~9!Prop.
7 2 1
MateriafNote
/.:-;:;:
A-5
5
o
3
Resistance Note ."' . ··mOder~·lo
5 5 10
8 2
23...
--
Ethane Ethanol Ethanolamine
7 7
14
?4
heat transfer oil, Dow
.•• 9 7 7
I~IO~g
'. T.ensile' ...at.l.on l:Iardness . ~tr ..ngth • . ••. .·Change
6 4 4
., 100
Dowtherm A
8
8
8 9 8
23 50 50
4 7
Volume
,%Retailled
6 6
Ethers Ethyl Acetate
organic ester
;13. ".
Ethyl Acetoacetate
23 r·
6 6
•·..'23
2
,6
23
,,6
;~;
'. ·8 8
2.9 7 .N 7 24. ;24' 7 2.9 38. 121i··· 2.9
Ethyl Benzene
6 6, 6·
6
Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol
.' ",i1$~l1sf~cforyi~ruse· ·········mirioltomodiii:·emiCl may cause $/. visible sw~IV1!?Ss of prop.. m1nor to moder. eUeCI" may·cllUse sl. visible swelVloss of prop. minor to moder. eUect may cause:./' visible swelVioss of prop. unsatlsfitCioryfClrusl . ·ii'iinDrtomoder.ellecC ")ay ta~ses';~lsi~'e SweIViQss~fPf~P; little!no efr~t·seterecon~. may cause cli;itoge
.. 2
'.
•. 8
<10
o
80
105
Dow Corn. Silastic (VMO); molded & oven cured
AO A-5
6
5 20
9
o
7
5
75
105
5 2
5
20
95
Dow Corn. Silastic (PVMO); moided & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A-IO A-5 A·5 A-25
1
uQsal)#actory Jar use
>n~i'sui!~~te lor $ervice
~
o' o :::J
(l)
~
Chemical Resistance - Silicone Rubber
W W
Chemical Resistance - Silicone Rubber
en o' o
~
C..:> ~
::l
a>
';',
Reagent
Reagent Note
·conc·ITem p " Time . ('~)
(%)
I
,. Chal)ge POL I
Volume
(days) Rating
Ethyl Benzoate
0/0 Retained
I
I
.Ten~i1e Elongation H. ar~~ess Strength . ... ..9hange
2
Union Carbide
23
1
23'
4 4
Ethyl Cellulose Ethyl Chloride
IT\Od~~,t9 se~e:re etlect mode,Jsevere:swell and/or loss of prop,
unsatisfactory for use
n~t~~itable .forse!)"ce ..,. :"
... 1
""'2
Ethyl Chlorocarbonate
~
Ethyl Chloroformate 23
1
'23
2 1
Ethyl Hexyl Alcohol Ethyl Mercaptan 23
. not su~Jble l
6
mi,uiU§ m.oder. ell.e.ct
4"
modePl9severe elleet
.. lT1Od~.rJse;er~~fellandlorl~ss.ol prop•. 'unsafislilClory' use .
4
Ethyl Oxalate
fo,'
2
nor su~able for' service unsatisfactory lor use nol su~able for service uiosill~i8cioiytor use .
23
Ethyl Pentachlorobenzene
2 1
23
Ethylcyclopentane Ethylene Chloride
2
2' 1
23
4 4
not su.jtable lor service """moder:"toseveie'elfeC1 moder}se>ere. swell and/or loss 01 prop.
2
.unsetista~toryfo~use
2 1 4
not suitable lor service
Ethylene Dibromide Ethylene Dichloride 23 24
i:'
7
~ -,
\t::
50 50 50
100, 100 ., 100 121
14 7
135
7
8 8 4
83
/
8 7
9
7
9
2.9 7
9 9
,iicomriui,,'diiil foius9" <10 5 0 1 0 1
little!no elleet-severe condo may cause change '. 102
A-I
100
110
96 95
100 102
AO A-I
90
88
98
4
Ethylene Trichloride
Dow Corn. Silastic (VMQ); molded & oven cured
A-7 A-4 A-5 A-25
5 20
;
Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured
unsetislaetory lor use not suitable for service'
2
1
C\)
0: -,
23 100
6.,':"
'"t::l '" tEl' t"'
Dow Corn. Silastic (VMQ); molded & oven cured
45
1
0'
;:l
33
50 50 60
Ethylene Oxide
•
8
Ethylene Glycol
~
.u
23
Ethylene Chlorohydrin
tl3 C2H602, 1/3 C2H60, 1/3 H2O
nu;~~ai~~t~~~l::~:c:
.. 'uns~tf~lacloij!g~wse
2
Ethyl Ether
",
'.
I
·23
~
unsatisfactory for use 'not suitable for service
.'/'
2 23 ,,,,.'i
Materia.1 Note
unsatlsfactory for use nol ~uh!,ble for service
1
Ethyl Cellosolve
'i:l
Resistance Note
2· 23:';,
@
::/~
25 95 45
30
35
A-30
0
75
70
AO
Dow Corn. Silas!ic (MQ); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silas!ic (PVMQ); molded & oven cured unsatisfactory for lise.·
~~I.~~i!~~1~100ervi~e'.·.·
.c~
@
".
c;iE
:'
"1:l
P ~
n' (I)
:~
rReagent
tl
IEthylenediamine
eE'
IFatty Acids
t"'
IFerric Chloride
(1) (I)
;:l
...0:$:l ... \C
Hardnes; .C"~l1ge
Reagent Note 8'
23
23
aqueous
I
60
100"
7
60
100
7
Ferric Nitrate aqueous
23
aqueous
23
Ferric Sulfate Fish Oil Fish Oils Fluorine Fluorobenzene FC·75 (3M)
23 .24 24 . .•.• 6~
.'65
IittlPlno efle~\·se~erec?Mr)'ilay cause chan~e unsetislactory lor use not sy.flable for service ., unsetist~clory lor use not s.uflable. lor service
< 10
2 1 2' . 1 "
:~~.
1 1 7
9 •9 .,,,,.~,..
0 0 5
A-S A-S AO
7
,(
5
A-5
Dow Corn. Sitastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured ....
Dow Corn. Sitastic (PVMO); molded & oven cured
Fluorolube Occidental Chemical
Fluosilicic Acid Formaldehyde
'. 23 23
< 1D
:
.
23
.6'·. '6'
23
6,
,····y·/iri'inOiiQmoller;·.ifecti y···••• ~ycau;~ sl JISib~ swa'l/IoS;of P(Op. llIinor to moder; ettflCt may cau~e' sl. visibfeswelVlo'ts 01 prop;' . iirisallsiaCtorffor US8 ···nOI·su."~bie lor se.;vlce
6'
Freon 11
2.
23 24
" ~2~·i
t 3 3
litil~~~
1
Formic Acid
··{·recom~en?ed.ldiuse\.
. . ' ··:recoiiiin.eii~~Wuse'
8'
liquid
1 1•.
Dow Corn. Sitastic (PVMQ); molded & oven cured Dow Corn. Sitostic (VMO); molded & oven cured
260 175
urisafis.factory' fo'r us~ • not ;~fiiibleloi.sarvri:8
Freon 112 Dupont
Material Note
< 10
8
23. 23
Fluorochemical Fluid
.
. :.
little/no ~ffe<;t>sey~r' cOl)d.may caus~ change. 4 , mOder. lo,severe effecr 4 ".moderJse.ere ~~ell andiorlg;;~ol prQp, '6'" ililnor to moder~ effect 6 '. milyca,use sl. visibt~;~eIVl~ of p'rop, 4 .•.. . :iair/resl;t~nce . Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silastic (MOl; molded & oven cured 8 sample ~naffected . 4 moder. to severe effect 4 mode~"se;~re swell aodior loss 01 ,6 minorMmg~er. effect 6m~y~~~~esl,jl~I~W~weli/loss 01 prop. 8
23'·
.
Resistance Note.
"';'23
Freon 113
"~~\ ,2~""
Freon 11482 Dupont
L
200
A-5
Dow Corn. Sitaslic (MO); molded & oven cured
7
150
A-5
Dow Corn. Sitastic (MO); molded & oven cured
3 3
!:t :::
": .:~::
Freon 114
c'''''n 115 ..."oii"T2"
7
:~~~!f~~~~'
'~'/'i;;i;;'~~~~';~t~~~/:':X~8e;,X
CD
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
.: )?¥KtfW';~'
..
::;;ji8;;'ti
en o' 0 ::::l
'
~
Chemical Resistance - Silicone Rubber
c.:>
01
~
Chemical Resistance - Silicone Rubber
en o' o
W
(j)
~
CD
Reagent
Reagent Note
(%)
Freon 12
I'C)'
24 24
(days)
3 3
---
Freon 13 Dupont
Freon 1381 bromotrifluoromelhane
Freon 14 Freon 21
23
-
--7
23 24
- - -7 ·55
23 24 24
-
Freon BF tetrachlorodilluoroethane
Freon MF Dupont
Freon TA Dupont
Freon TC Dupont
Freon TF Freon TMC Dupont
Freon TP35
P·OL I Rating
Volume
1
150 195
.1.
% Retained Tensile
St~ength
I
Elongation
I
Resistance Note
Hardness Change
23
23 23 -
-23 -23 -23
7 7 7
unsatisfaclory fat use not suitable for s~rvice unsatisfactory for use not sudable for service unsatisfacfory flii use
'2 1 1
2 2 4 1 3 2
225
Dow Corn. Silastic (MO); molded & oven cured
A·5
not surtable for service
165
Dow Corn. Silastic (MO); molded & oven cured
A-15
unsatisfactory fot use
3 1 5 5
110
Dow Corn. Silastic (MO); molded & oven cured
A·10
not suitable for service
75 75
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A·5 A·5
2~ 1 2
····lJnsatislllctoryio'use not suitable for service unsaIW~eioiYloruse~
not sijff~~fe for service recommended for use moderisevere swe.1I andlor.loss of prop.
1
8 4
Material Note Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
2
23
·55
Freon 22
% Change
,! I
conc'ITem p Time
,;.
~
I
nU4tl~I~~r;~:I::~:ce~
2
,
4 4 '
unsallslaclory for use not surtable f~r service moder.lo sevare effect moderJsevere swell a~dJor klss of prop,
8
recommanded for usa
1
23 rreon
-
rWD602
Fuel Oils
Dupont .6
23\ 8
acidic
23
-
Fumaric Acid
23
@
po
~
;:;. CIl
tl
C1l
CIl
<E' ;:l
t"'
0: ...
...p It::
-
I Furfural furfuraldehyde
"0
Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel Fyrquel150 Fyrquel220 Gasoline
23
unsatisfactory for use not suitable for service' minor to mod.ar. affec1 may cause sl. visible sWelVloss of prop. unsa(@llctorrforuse" . nOISl\~~18for service IJnsaliSillctoryfor use
2 1 6 6 2 1
2 2: Stauffer Chemical
Esso Golden super Shell
23
:2 8 8 8 2
2 2
I...·
<10
tittle/no effacHeve,e condo may cause change racol)'lmended'for'use IJnsaiiSillCfiii{f9rlJse
~
.
;~G~~ri~~
@
"1:l
~ ~
r;{Jl
tl
Gasoline
C1l
liquefied, LPG producer
{Jl
2:h';
ii;i~~;
iH.
<E-
,24 "0.004 ':24 .'! 0.004 24· ;.; 0.02
;::l
~
0-
.... ....~
'24
It:: gas drip oils
J
.~~r· 24
white gasoline vapors
Gear Oils Gelatin Gelatins Glucose
24./ .~4 ""
0.02
0;5 3 7 14
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
25 20 75 60 245 500 250 165 50
A-25 A-30 A-25 A-20 A-l0
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
Texaco 3450
<10
-
<10
-
Glues
<10
Glycerin
glycerol
-
<10
-
Glycols
<10
Greases
Keystone '87HX light grease Shell Alvania '2 Sunoco; all purpose SG 4766 glycol ester base, Standard Oil ANG IS-Texaco Regal Starfak Special SG 4766 glycol ester base, Standard Oil ANG 25 Diester Base (Texaco TG-749) ANG 25 Glycerol Ester (Texaco) SG 4766 glycol ester base, Standard Oil
A-l0
Dow Corn. Silastic (PMO); molded & oven cured
A-l0 A-5
Dow Corn. Silastic (MO); molded & oven cured
A-l0 A-l0
Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured
A-l0 A-5
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
10
A-l0
Dow Corn. Silastic (PMO); molded & oven cured
10
A-l0
10 5 10 10 10
100
100
100
100
15 15
A-l0
10
Greases
Shell B & B
ANG 25 Diester Base (Texaco TG-749) ANG IS-Texaco Regal Starfak Special
30 26 26 30 30 40 20
B9 66 91 85
93 90 80 87
100
100
A-17 A-15 A-16 A-19 A-IS
A-20 A-l0
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
Dow Corn. Silastic (MO); molded &oven cured
so.
o' o
::J (l)
.j:>.
Chemical Resistance - Silicone Rubber
c..>
-.J
Chemical Resistance - Silicone Rubber
2?
o·
.j::. (J.)
00
0
::J
CD
I~eagent Greases
,I"
co~~. ~e~~:;iiril~\PDL; >Reag~nt'No~e r'l"r"r ..
ANG 15·Texaco Regal Starfak Special ANG 25 Diester Base (Texaco TG·749)
,''';
:.:..
;150
....
","":-"".";
100
3
100
A·1S
,.'}
ISJ'
7
(,.,
tOQ brittle tOJest'
Dow Corn. Silastic (PMO); molded & oven cured
Green Sulfate Liquor 23
"""',8,
."
Halothane Halowax Oil
<10 JlnC:Atic'f~t"tnrv:
fnr.
i.ell)
Koppers
Helium Heptane Hexaldehyde
N·Heptane N-Hexaldehyde n-Hexaldehyde
Hexane
N·Hexane·l
Hexene Hexyl Alcohol
n-Hexene-l
HEF 2 HMS 20·1083
high energy fuel
Houghto Safe 271 Houghto Safe 620 Hydraulic Fluids
j';;': ;:Y
24 ,,' 24
Univis 40 Hydrolube H-2 Fluid
24 .24 24
'/24 ", 24 21' 2.1'"
Pydraul60 '/:
Pydraul A-200
24 24
Pydraul F9, Monsanto
24 24
O'
~:.:
24 @
Skydraul 7000 (Monsanto)
~
O' O'
~
Hydrolube H·2 Fluid
;:;.
"
V>
tl
<1l
V>
15" ;:l
t"'
...0:~ ...
Hydraulic Fluids
'•.' 3 ;,2 ,,""
". A-IS A-20
100 125
un$litisl~ct,ory'fotljsei
'ii,
:;'<:>';"
~'::;:
'.'.,}:,;::
.:.;~
,.<::.
~: :.
,;:."
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
water & glycol base
Oronite 8515 (Chevron)
S-
',""'2\(, 3 3
O'
" Skydraul 7000 (Monsanto) O'
Hydrolube H-2 Fluid
"
f4 24 24'
5 5 5 40 40 45 5 5 5 5 5 10 5 5 5 10 5 10 5 10 15 5 5 10 15
100 85 85
100 85 90 90 95
115 90 110
105 100 95 95 95
gow
A-5 A-5 A-S A-1S A-1S A-20 A-S A·l0 A-l0 A·S A·S A-l0 A-l0 A·S A-S A-l0 AO A-l0
Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured O'
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured
A·S A·S A-l0 A-l0 AO A-S A-l0
"
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
-----
©
,.~ ~hange
'1:l
p
~
Reag~Qt
f)'
en
t::l
Reagent Note ."
Hydraulic Fluids
Cl>
en
tE·
••
~~_
•• oY
Aerosale 2300 (Stauffer) Hydrolube H-2 Fluid
Con!?,
' 'I
Temp~
('~l
25 6S:; 65 65 65 70 70 70, . 70 70' 70 70 70 70
" " "
;:l
t""'
0: ..,
Aerosafe 2300 (Stauffer) Oronite Hyjet (Chevron) Skydraul HT (Monsanto)
..,
l=l \t::
" Skydraul LD (Monsanto) Skydrol 500B; Monsanto Hydrolube H-2 Fluid
Exxon WS2406 Fluid 11 93 93 93
Skydraul 7000 (Monsanto)
Hydraulic Fluids
Oronite M2V (Chevron) Exxon WS2406 Fluid
100 121 12'1 121
Pydraul60
12'" 121 121 121 130 130 '
"
Pydraul A-200 Oronite 8515 (Chevron)
130 150 .150 .150 150 150 177 177 H7 117
Pydraul F9, Monsanto
Oronite M2V (Chevron) Exxon WS2406 Fluid
Pydraul A-200
1,77 117
" Oronite M2V (Chevron)
Hydraulic Oils
TilJle (ciays) 2.9 5 5 24 24 2.9 2.9 2.9 2.9 2.9 2.9 2.9 7 7 7 7 7 7 3 3 3 7 1 1 1 3 3 3 3 3 3 3 3 3 3 3 7 0,04 0.04 0.04 1 1 7
PDL Rating 5·· i · .6.
'i . .1,
;~
6
'6
3 6 7
6 8 'I
']"':'
6
il M·
7 8
'··"~L'i'·'<: 1
·A
5 7 ·6
5 7 7 6 1 "3 1. 8
8 6 8
i ,.6 5 ."". 6 3 7 ,\1
volu!'le
~I~tained
s~~:i~1
Elongation
21 20 10 15 20 22 9 20 40 26 10 19 5 5 5 20 15 35 10 5 5
74
85 90 90
90 100 90
73 35 20 45 10 10 10 15 115 60 80 10 10 15 15 96 20 30 15 120 15 130
43
38
64 96 77 50 78 83 76 85 90
100 85 100 30
14
83
95 109 92 68 97 103 89 90 120
110 95 95 37
23
I~~~~~~~sl A-12 A-I0 A-I0 A-5 A-I0
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A·15 A-I0 A-13 A·24 A-16 A-9 A-15
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
" Dow Corn. Silaslic (PVMO); molded & oven cured
A·5 A-I0 A-l0 A-I0 A·15 A-20 A-I0 A-5 A·5
" Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Sitastic (PVMO); molded & oven cured Dow Corn, Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A-19 A-I0 A-5 A-5 A-25 A-I0 A-I0 A-10 A-25 A-20 A-30 A-5 A-5 A-I0 A·I0 A-24 A-l0 A·15 A-I0 A-I0 A-5
~
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
";.
" Dow Corn. Silastic (PVMO); molded & oven cured
..
Dow Corn. Silaslic (MO); molded & oven cured Dow Corn, Silastic (VMO); molded & oven cured
" R ~"
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn, Silastic (VMO); molded & oven cured Dow Corn. Silaslic (PMO); moided & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A·35
"·::A> .. .'
'2~ i
Hydrazine
Material Note Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured
1<:,:
modeL to;seiiere
petroleum base PRL·high temperature petroleum base
I'
ResistanC'eNote
....
:<:.
E,lie<;!
~i~or totri6ii~t &fteCl/ t:I\OderJse~;~es\y~I!~~;I!otlo'SSOfprop. "modef.:iosevllieeffecl: '.
moderJsev,,!.s",ell anifJeir loss 01 p,rop•.
Hydro-Drive MIH 10
petroleum base
~dro-Drive MIH 50
"
iiiiiiofiomodllCllffllcl'···
6 !
6
I
::]::1
"
.
.
~
o' 0
:::J (1)
Chemical Resistance - Silicone Rubber
~ V) (0
~
Chemical Resistance - Silicone Rubber
SQ
~
0
o' o ::l
% Change
Reagent
Reagent Note I",
conc·ITem p. !]im~I~QL
I
(")
• (Oc)
H~~~.~n~!~!ng,
Hydrobromic Acid 40
Hydrocarbons Hydrochloric Acid
: /.;:
23
2 2
10 10
concentrated
cold hot cold hot
36 36 36 37 37 37 37
24 24 24
1
2 1
7 7
9 9
7 7 7
9 3
7
8
23 23
4 4
23
Hydrocyanic Acid Hydrofluoric Acid
anhydrous cold, concentrated hot, concentrated 48
cold hoi cold hot
23 23 23 27
>65
'1:l
po ~
o'
'"t l C1l
tEo '" ;:l
t"-
o:., .,
~
Hydroquinone Hydyne Hypoid SAE 90 Instrument Oils
dry, cold dry, hot wet, cold wet, hot wet, cold wet, hot
0 0
AD AO
Dow Corn. Silaslic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured poor resistance brittle
5
A-5
«
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
minorto moder. elleC1 unsalislactory lor use modetJsevernwell'and/or lo'ss of prop. nol suitable lor service moder. 10 severe elleCI moderlsevere swell andlor loss 01 prop. nol suitable for service
deteriorated unsatislaclory lor use
2 2 2 2
2
u
1
not. suitable lor service moder. to ~evere elleC1
4 4
23
Dow Corn. Silastic (PMO); molded & oven cured
3 30 90
24 24
90
23
. mod~,r!~,~¥~r,~::~,ll:~II:a.~.~!9MR~~.9!::~r9P'
8
iei:omiiiiiiideifl~rlJse"
7
9
no ellecl
7
9
Dow Corn. Silastic (PMO); molded & oven cured
minor to moder. elleel "may cause 51. visible swell/loss 01 prop.
6
6 4 4 4'
moder. to severe elfect
4 23 23
4 4
moder}s,".ere swell andlor loss 01 prop.
23
6
may cause"sl. visible swelllloss 01 pro·p.: unsatisfactory 10f use
2 2
Swan Finch RCA-Gulf, A
Dow Corn. Silastic (VMO); molded & oven cured
4
Hydrogen Peroxide
Hydrogen Sulfide
A·30 A-5
2 23
@
«
100 0
1
9
<65 <65 >65
gas, cold gas, hot gas
Material Note
"
1 1
Hydrofluosilicic Acid Hydrogen
I
urisati$lacloly lor use ,;'
3 6 2 4 1
Resistance Note unsatislactory lor use not ~uitable lor service unsatisfaclory lor use no{su;table lor serVice
2
3 molar concentrated in perchloroethylene
100 24 24 24
S~~~~t~ltion9atlonIH~~~~~~S'
:,,1"
saturated
5 10
% Retained
2 1
23 40
I
Volume
93 ~ .93: :
3
5
3
2
5 70
A·30 A-20
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
@ ~
~ ~
J
n'
'f5l"
9
Iodine Pentafluoride
unsatlSfactoryJ 'tuse'(' . "
tEo '"
Isobutyl Alcohol
t"'
Isododecane Isooctane
;:l
.&., I:> .., \l::
. recommeQded for u,se . . ••••. little/no eflect:severe c~nd. may cause"chanQe '.
<10
Isophorone
not s~~abhlj~;~e":icie
unsatisfactory fo'. use
",;",!" ketone 1
2:(
Isopropyl Acetate 23
'2
\:
1
a
Isopropyl Alcohol
8 isopropanol
.,,,..,11 "
23 24
7
Isopropyl Chloride
<10
IIttie/no eflecI·se;.,e.coillJ. illay cause change ,::
'6.
A-l0
1
Isopropyl Ether JP 4, MIL-J-5624F
'24 "'2-4. 24;,',,'
Jet Aircraft Oils
Mobil Jet II Oil
Stauller Jet II Oil
...........•
unsatisfactory io; use
2 23
Jet Aircraft Fuels
Dow Corn. Silastic (PMQ); molded & oven cured
nu;s::i:!:11~1f{!itr:';;
2
not suitable lor service, 0.007
.6
A-l0
30
1
1
105 25
40
A-25
10
110
115
A-l0
7
10
110
125
A-l0
4.2
11
102
142
A-9
7
97
150
A-S
7
.••1.
330
25
0.92
4
150 ,
2.9
9. 7
15Q· 177
177.
12.5
6\',
Dow Corn. Silastic (PVMQ); molded & oven cured
Dow Corn. Sitastic (VMQ); molded & oven cured
Kerosine Lacquer Thinners Lacquers lacquer solvents
Lactic Acid
cold
<10
hot
Lavender Oil Lead Acetate Lead Nitrate Lead Sulfamate Light Oil Ligroin
DTE petroleum ether of benzene benzine/nitrobenz;ne
Lime Bleach ~
o' o :::l (!)
,J:>.
Chemical Resistance - Silicone Rubber
,J:>. ......
~
Chemical Resistance - Silicone Rubber
~
~
N
o' o
:::J CD
Reag~nt
Re.agent Note
(%1
ITime:l{p.~L '. 8':
hydraulic fluid; phosphate esler type hydraulic fluids, Slauffer Chemical
Lithium Hydroxide salurated H2; high viscosily U4; high viscosily TL 3450 Mobilube GX·90 TL 3450 di-esler petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50 pelroleum base AND NO.6 Oil (GAF Corp.)
AND No. 366 Oil (GAF Corp.)
'1J
E" ~
n'
'f?"
Lubricating Oils
AND NO.1 I Oil (GAF Corp.) AND NO.9 Oil (GAF Corp.) AND No. 11 Oil (GAF Corp.)
t'"'
AND No.9 Oil (GAF Corp.)
..,
i=l
recommenlled lor use Iillielno efleet'se;ere ma/cause ~hange
.
, ~:~.;.
~ri;gor loss of prop. '
moderJsevere swell
23
6 6.
may cause sl•. ,@mle sweIVlo~~pf~(0I.(
1
150
1
150... ••• 150
1 1
'i
minor1:gTod6dlfe~,r
8 4 2
<10
9
0
8 5 "'2 8
0 0 0 0
100 110 110 100 95 95
105 110 110 110 95 100
AO AO AO AO AO AO
-5 -35
75 30
90 100
AO A·IO
•'
Dow Corn. Silaslic (VMQ); molded & oven cured Dow Corn. Silaslie (PVMQ): molded & oven cured Dow Corn. Silaslic (VMQ); molded & oven cured deteriorated recommended for use
11 3
,,100 121 149 150
3 3 3
15 10
6 ,.
4
40
55
Dow Corn. Silaslic (VMQ); molded &oven cured
A·l0 A-l0 deteriorated
2
2
.•
'" iinsafiSliiCioryior iise .
2 2 .2 .2
2 23 24. 24 24···· 24' .;
2 1
5 6 5 '3
93
1 1 7 7 3
93 ••..
3
i'2'F1 .• ,·
dit",' ",.' . .. ;~:;.:
121~;
~~1
AND No. 11 Oil (GAF Corp.)
tpnd.
<10
4'
1'21"
;:l
II::
2 5 10
Material Note
Resistance Note
}~~'
.1~l
tE· '"
& ..,
Hardness Change,
23
'. '2.4
@
lilOrigaliOn
moder. 10 ,severe elleel
'~~;
Lubricating Oils
e,4,~,'lIe
;;:.:::
Linoleic Acid
Lubricants
T,
" Stre.ngth
8> '23/.
Lindol
Volume,
I'CI: .lclafSr,Ra!l~g
Lime Sulfur
%Retained
%C~ange
.Cone. ITem p,
121 121 121
1 1 1 3 3 3 3 7
nol suitable for service A·10 A-l0 A-15 A-20 A-l0
Dow Corn. Silaslic (PMQ); molded & oven cured Dow Corn. Silaslic (MQ); molded & oven cured
3'"
45 30 35 60 140
2
95
A·20
Dow Corn. Silaslic (MQ); molded & oven cured
8
10 20 40 35 15 25 70 45 15
A-5 A-I5 A-15 A-l0 A-tO A-15 A-20 A-15 A-l0
5'"
2
;:>,;. ';
" Dow Corn. Silaslie (PMQ); motded & oven cured
" '.
~
:~.-
.
" Dow Corn. Silaslic (PMQ); molded & oven cured ~-."
"
Dow Corn. Silaslic (MQ): molded & oven cured
"
,.
Dow Corn. Silaslie (PMQ); molded & oven cured
"
Dow Corn. Silaslic (MQ); molded & oven cured
© '1:l
P ~
n' V>
25 65 45
~
tEo ;:l
AND NO.6 Oil (GAF Corp.)
t"'
95 145
0: ..,
Sun NO.8 X2313·1L
..,
~
<.c::
Texas 1500, HD concentrate AND NO.3 Grade 1.1, GAF Corp.
70 55 10 10 45
80
80
70
90
A·15 A·20 A-15 A-25 A·25 A·25 A-45 A-15 A-20
30
Lye
Dow Corn. Silastic (1.10); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
Dow Corn. Silastic (1.10); molded & oven cured
Dow Corn. Silastic (PMO); molded & oven cured
solutions
Magnesium Chloride <10
Magnesium Salts Magnesium Sulfate <10
Magnesium Sulfite Malathion Malic Acid Mesityl Oxide
ketone
Methacrylic Acid Methane Methyl Acetate Methyl Acetoacetate Methyl Acrylate Methyl Acrylic Acid Methyl Alcohol
methanol methanol
<10
o
100
100
AO
Dow Corn. Silastic (1.10); molded & oven cured
Methyl Benzoate Methyl Butyl Ketone Methyl Carbonate Methyl Cellosolve Union Carbide
Methyl Cellulose Methyl Chloride Dow Corn. Silastic (1.10); molded & oven cured
Q?
o' o
::::J
~
Chemical Resistance - Silicone Rubber
~
C.:l
Chemical Resistance - Silicone Rubber
~
~ ~ ~
o' o
::l
I:e~geht
····}'··r:":"",··"';',···
"~; '","1
I0/,•.Chanae
R:age~!~;rte 'iJ9r~~:JT~:~I~liIIR~~~9 I'
Methyl Chloride
24
7 7
Methyl D·Bromide Methyl Ether dimethyl ether/monomethyl ether
,.. 23'
methyl ether
Methyl Methyl Methyl Methyl
Ethyl Ketone Peroxide Formate Isobutyl Ketone Isopropyl Ketone
MIBK • 23
25
f? C1l
cEo ;:s
t""
...0:l=l ... <s:::
MiI·L·7808D Oil
..
~
nOI.stiliable t
2 .".,
§~s~lI~ia§i§i¥j~(use
8'
recorrirrien~eiffjj(jjse
8
<10
8
<10
". ' "
·.'lilll&/nOellec1'SeV~rg';ond;~~YCaUSeF~ange U-,
. unsatisfactory,!o(use
n~1 s~~oblei~( service mlnor't~ moder. ellect
uns~(iSl~ctory'fp(u~e .
1
not suitable lor service.
4
moder. 10 severe.elleel not suitable for. service
t' 1
3
2 1 1
106
Dow Corn. Silastic (VMO); molded & oven cured unsatisfactory}or use ",-, not sUitab(,;'io; ~ervice '
Exxon univis J·43
Exxon lurbo oil no. 15
-
180
Dow Corn. Silostic (VMO); molded & oven cured
r lor use
2,,,,
monomethyl hydrazine
71
2.9
24.
14
'2"
S· ""',.}
2 1 1
7'1
14 1 I 14 14
24
3
7
24
3
a
24 24 24 71 71 71 71 71'
3 3 7 3 3 7 7 7
7
7.1 121 121 12'1 121 15Q 150
7 1 1 I 3 1 1
150<
I
-71
o'C1l
Dow Corn. Silostic (VMO); molded & oven cured I
2
71 71
~
Dow Corn. Silostic (PVMO); molded & oven cured
L
0.17
23
~
..;
A·I5
2 2"
Methylene Chloride
@
.{
A-IS
a
23· .,25
po
150 150
Material Note
Resistanc,eNote
6·"i.
MBK
MiI·L·7808D Oil
Elongation: Hardness I .. ' c:h~nge
.
MEK
Methyl Methacrylate
Methylene Dichloride Methylhydrazine MiI·A·8243 Deicer Fluid MiI·H·5606 Oil
Volume
,Tensl!e" Str.~ngtb
'2 ·2' 23.,
Methyl Ethyl Ketone
I;
""3 .3·..,,-"
Methyl Chloroform ate Methyl Cyclopentane
{%~etalned
I.·,
1
2
8 3 4 7
6 ,4 2
a
a 5 '6
a 8.
6;; 6
o
85
90
A-5
95 65 120 160 110 80
35 25
45 40
A-30 A-20
90 75 90 90 45 55 90
95 85 95 100
35
50
A-l0 A·l0 A-15 A-5 A-25 A-15 A-15 A-IO A-20 A-25 A-IO
10 20 20 10 30 30 15 15 30 35 15 20 40 20 20 10 20 15
75
60 60 90
80
A-IO A-IO A-IO A-IO A-5 A-IO A-l0
Dow Corn. Silostic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silostic (PMO); molded & oven cured Dow Corn. Silostic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silostic (VMO); molded & oven cured
:;""
Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silostic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silaslic (PVMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silostic (VMO); molded & oven cured Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silostic (PVMO); molded & oven cured
-
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured
@
·.
"i:l
S' ~
;:;. V>
~
Rea9!rt MiI·L·7808D Oil
Reagent Note Exxon turbo oil no. 15
V>
'Cone. IT.;nip: (l"leC) 1,50 )50
15'
in·
~
F!
1n;<
;:I
0-
177 ,
.... P ....
·17r
\C
MiI·L·7808E Oil
MiI·L·7808F Oil
8rayco 8800 Stauffer jet I Brayco 8800 Stauffer jet I amendment 2, PO 8365 Stauffer jet I
200 .••·•. 150:' . ::::',.
15'0
177
1.77 .
150:·}: 150
i77.
I
177
3 3 0.04 3 3 3 3 3 2.9 2.9 2.9 2.9 2.9 2.9 2.9 2.9
Univoll #35
23
24 100 100 121 121 121';'" 121 149 149
3 3 1 1 1 1 3 3 1 1
24 24 150 150
3 3 3 3
24' Shell No.
Shell No.
Molybdenum Disulfide
Motor Oils
Esso SAE Oil No. 20; Mobil Oil heavy duty (GM 14X) SAE Oil No. 20; Mobil Oil
Amoco Super Permalube 10W-30
Yolume·:
(daY$) R.l!t!ng
1srr.? 2.9
MiI·L·7808G Oil Milk Mineral Oils
Timef';~b(! Ir:Chang~ 4 5 7 4
3;
3 3 3
Strength"
40 25 10 35 45 50 30 30
55 60
105 90
A-25 A-15 A-l0
35 50 45
95 85 85
A·30 A-25 A-35 A-35 A-35
~
5 3
79 75 35
81 90 90
A-14 A-20 A-35
5 3
25 35
75 35
90 90
A-20 A-35
25 25 25 35
~
~
n
~
25
70
R~.~js;~nce·Note
qhange'
25 25 35
~
iec~,!,m@~e~ l~f us~ u-nSll~stactOiYior··US9
"''5
9 9 '9 9
8
25 35 40 25 25 40 75 60 55 30
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
.
90 90
45 45
80 65
A-l0 A-15 A-5 A-l0 A-15 A-l0 A-35 A-20 A·l0 A·15
Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured
AO AO AO AO
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured
Dow Corn. Silastic (PVMO); molded & oven cured
urisaUSfaCtory foTusa .
8' 8
<10
23 ""."
2 1
7
70 80
0 0 0 0
23
6
'
"~
6
7 6
Material~~~e
minono moder. effect . . .. may cause sf. visible s.welllloss·of prop,
20 10 5 15 25 25 15 23
8
,Ii
..;....,
8
6 6 6 6 6 ,6 5 5 2 2 4.
i:: ...
Dow Corn. Silaslic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured
2"
100
Naphtha
Hard~~~~I'
~
199
Mustard Gas
.,
A-20 A-20 A-35 A-35
5 5·' 3 3 ·::·5'
·2 7
1 1 100':·· 5 121:: 1 1 121 1 )50 1 150.•. 10.4 150
% Retained••.....
i~~s!l~
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. SilaSlic (MOl; molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silaslic (MO); molded &oven cured Dow Corn. Silastic (PMO); molded & oven cured
A-5
...
79
105
~
A-18
Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
recol1\mended:for use little/no effecl.sever~ cohil. may cause change "
'urisiiliSiiic@y lor'.sa
noisuil.abi~lifr
seNlce
~
o' o
:=J (l)
Chemical Resistance - Silicone Rubber
.t:>.t:>01
~
Chemical Resistance - Silicone Rubber
~
~ 0)
o' o ::J
~'
(1)
Reagent
Reag~nt Note
,ro Retained C~~~,:IT~'~~'II~7;:1R~g~9 Ie :::~:e·; S.~jrh~;~~longatl:: e~~~~~~s, % Change
.
Resistance Note
. . " . , ':··-'i~::;~:>;
Naphthalene
unsalislaclo.ry for usa
n~t sUit~~i~ior.service
?3,,' Naphthalenic Acid Naphthenic Acids Natural Gas
«
"23':'\ ~}~': ,.
unsatjslaci&iy fat use :\: '8
Ii
23
Neats Foot Oil
Iiltle/~o
<10
Neon Neville Acid
6
recommended lor use
'2
',insati#actoryfor use not sU~~~ie for servic,e unsa(lSliictoiYlor··usEl not sU.h~ble for ~e.rvice. recommended for use litlle/no elfect·sevele condo may cause change
1
Nickel Acetate aqueous
23 .
aqueous
23
2 1 8
Nickel Chloride
8
Nickel Salts Nickel Sulfate aqueous
'."
8
<10
liltle/no effect'severe condo may cause change . "'recommeridedioiuse}
23
8 8
<10
1\!I.l.l!!~~~n~~b~~W~condo may cause fM~ge
2
concentrated
2
dilute inhibited red fuming; IRFNA red fuming; RFNA inhibited, red fuming
6 2 2 1
10 10 10 0-50 70 70 70 50100
.23 24 24 24
7 7 7
23
@
I:l
~
0: ...
... te
I:l
may cause sl. visible swelVloss 01 prop. tinnla' poor resislanc~ not suitable lor service
2
unsatisfactory for use riot suilable for service
,~-
-10
te.tro.ide N204, 1
2
-1
2
,1.
135 165
..:.f:.. 2
"?", "s8' Nitrogen Tetraoxide Nitromethane
23
<,.1,., .,•. '2
23
.-" f
2·,wilh 60% dinitrotoluene
40
AS
1·
•• '2 .
23.;-
Nitropropane Nitrotoluene
o
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silaslic (PVMQ); molded & oven cured
1
23 24 2.4J):
;:3
t"'
9
10
AO AO AO
24
<E'
;.
not suilabie lor service
o
23
ri'
1?
'9;!
minor 10 moder. effect unsatisfactory for use
~ ~i:
24 24
Nitroethane Nitrogen
9
"'unsiifiSliicioijio(use
6
Nitrobenzene solvent
..}
23
3 molar
concentrated
::9
recommended for use
8
Niter Cake
Nitrocellulose
<10
8 ~'
rec0'!1mended"f0r use effecHeve!8 condo m~y cause change
minor to moder. effeci may cause sl. visible swelVlo$$ of prop.
6 6
.~
23
Nitric Acid
Material Note I
2
<10
Dow Corn. Siiaslic (PVMQ); molded & oven cured Dow Corn. Silastic (MQ); molded & oven cured Dow Corn. Silastic (VMQ); molded &oven cured
Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured
A·25 A-45 ·unsairs.ia\:iorYfo' ilsEl not suilable for s.~~ice unsalisf~~tory for use recommended for use Iitlle/no all9<;l·s;ver8 ~~nd.;"ay caus; cha(lge @l~M~~!~ for seiYice ~nsati~!MiQry foruse
~9t~i.(@~!~ (or service ···unsatl$iacioijio(usEl···· «
.'
@
""
p
~ ()' CIl
~R~laih~d/
Reagent :., ..
~
Octachlorotoluene
<E'
Octadecane
t
Octane
CIl
ifIOn~al!~~!:I,~lt'~ti;1
Time (c!~y~)
,
I.. ~:
.t.·..... :·,.·? "0"'-""
',;....
•
23
;:l
.., ..,
0l:l lC
N-Octane n-Octane
Octyl Alcohol Oleic Acid Oleum
fuming sulfuric acid spirits ,
fuming sulfuric acid
Olive Oil Orange Peel Orange Syrup
moderJs~ver8 sw~1I an%~ !~Sl! 01 prop. -100
and oil
a ~:
Oronite 8200 Oronite 8515 Orthochloroethylbenzene Orthochloronaphthalene Orthodichlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid Oxygen
no;~~ii~!e 1~~!J_~rvi;;~i1
• unsal(sfactory for:use
0 0 0 0 0
Dow Corn. Silastic (VMQ); molded & oven cured
100 105 115 95 95 100
105 110 125 95 90 105
AO AO AO AO AO AO
Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured
OS 45 type III OS 45 type IV
cold liquid cold
<10
hot cold
Ozone <10
Pacemaker Fluid
lOOT
60 50 55 65
Paint Thinners
A-35 A·25 A-30 A-40
Dow Corn. Silastic (PVMQ); molded & oven cured Dow Corn. Silastic (VMQ); molded & oven cured Dow Corn. Silastic (PVMQ); molded & oven cured
Duco
Palmitic Acid Peanut Oil <10
~
o'
o
::::J
Chemical Resistance - Silicone Rubber
-l>o-l>o-J
~
Chemical Resistance - Silicone Rubber
~
o' o ~
CD
""Change Reagent Pentachlorophenol Pentane (N-) Perchloric Acid
Reagent Note in ethanol
Cone. Temp; Time
POL Rating
Volume
9 2
5
., 23
2 1
(%)
I'C)
(days)
10
24
7
Perchloroethylene 23 24
Petroleum Petroleum Oil
above 250 deg below 250 deg
14
23 23
23 70 70 85 85
100
.'.
24
7 7
Phenyl Benzene biphenylldiphenyl
23
Phenylethyl Ether phenetote
23
diisopropylidene acetone
23
3 molar concentrated
concentrated
.
.. @
Phthalic Acid Phthalic Anhydride
anhydride
~
~
ri' C/)
f?
C/)
t""
0: ..,
.., p
It:
24 24 100 ' 100
Picric Acid
7 7 7 7
23 23 24 24 100 149
Pickling Solutions
lQ' ;:l
10 10 10 10 20 20 45 45 85 85 85
•••
200 200 200 200 , 200 ; 200 ,
po
Dow Corn. Silastic (PMO); molded &oven cured
','
7 7 7 7 1 1 5 5 7 7
6 4 9 9 9 9 6 6 2 4 9 9 7 9
9 9 9 9 9
9,
2~
2 1
23
2 2 1
H20 solution molten
"
not su~able hlr service' unsatisfaCIOry for use not sunable for service
A-l0
45
Dow Corn. Silastic (PMO); molded & oven cured nol sunable for service may cause s1. visible swelUloss 01 prop. unsatisfactory for USe minor 10 moder. effed
,
unsatisfactorylo~use
,.,.
. '•..1.•.....
,
nol suilabl~ ,;, sa,.,ice . unSatisfaClory fo.'
usa
5
A-30
10
A·l0
Dow Corn, Silastic (MO); molded &oven cured
unsalislacto~;or use'
Dow Corn, Silastic (MO); molded & oven cured
C
tinsaliSlactoryloruse norsuitabte 'orseMce tiiiSaffSlacfiiij'iirusa . not suitable 'for seNice
2 1 2 1
Phorone Phosphoric Acid
2 2 1 2 5 2 7 2 1
Material Note
unsalis.factory lor use
6
Phenol
~.
Resistance Note
Hardness· Change .•
2 <121 >1?1
wilh 15% H2O
Te~~I!~ ~J Elongation
6
crude
carbolic acid with 30% H2O
2 1 5 1
,.
% R~talned Slr8l\~!~
~
co
~
~~
unsatlstactolYliir use not suitable !@~,(Vice
,
minor to moder. effect moder. to Severe ell...,1 sample unallected no ellecl
"
. Dow Corn, Silastic (MO); molded &oven cured Dow Corn, Silaslic (PMO); molded &oven cured
..
"
sample unaffected mlnono mod'er. effecl may cause 51, Yisible swel!l!oss of prop. unsallslactory lor usa moder.fseva" swell andlor loss of prop, sample unallected no ellec!
-23 0 0 0 0 0 2 0
61
100
)
AS l
":
'.
,
,
Dow Corn, Silastic (MO); molded &oven cured
~:
<
A-4 AO AD AO A-2 A-2 AO
'.;
Dow Corn, Silastic (MO); molded &oven cured Dow Corn, Silastic (PMO); molded & oven cured Dow Corn, Silastic (VMO); molded &oven cured Dow Corn, Silaslic (MO); molded & oven cured
..
Dow Corn, Silastic (VMO); molded &oven cured
-,
~.
" Dow Corn, Silaslic (MO); molded &oven cured
.
',:
",."
Dow Corn, Silastic (VMO); molded &oven cured
... unsatisfactory fot use' '.' not su~abie for service unsatisfaclory 'or use
..:.
I
"
not suiteble tor servlca
@ ~
$:i ~
0IJl
tl
IPine Oil
white
tE-
I
white
(\) IJl
;:l
t"'
0: .,
.,
IPinene
p
\t::
IPiPeridine Plating Solutions
chrome others chrome
" others
Pneumatic Service Polyglycols
Polystyrene Polyvinyl Acetate Potassium Acetate
Dow BO-6
5 5 5 5
o
expandable emulsion
A-5
Dow Corn. Silastic (VMO); molded & oven cured
A-5
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MOl; molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
A-5
A-10 105
110
AO
60 80
90 85
A-20 A5
Dow Corn. Silastic (VMO); molded & oven cured
AD
Dow Corn. Silastic (MOl; molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
Potassium Chloride <10
-
Potassium Cuprocyanide
<10
-
Potassium Cyanide
<10
-
Potassium Dichromate
<10
Potassium Hydroxide saturated solution
10 25 25
-10 -5 5 0
A-5
Potassium Nitrate <10
Potassium Salts Potassium Sulfate
-
<10
Potassium Sulfite Producer Gas Propane Propane Propionitrile Propyl Acetate
l~
o' 0
::::l
CD
Chemical Resistance - Silicone Rubber
~ .j:l.
CO
~
Chemical Resistance - Silicone Rubber
Cf)
01
o
o' o :::J
I
~eageht.
R~agent Not~
I
Propyl Acetate (No) Propyl Acetone Propyl Alcohol
Conp. ~)
.~.
Temp~.::·1 Trme
r~c~~~g~ 1;;%Ret~lned P~I; I. Volume" :1-;i~~~~lon~atlon
23
-4
I-propanol
23
.~
23
Rohm and Haas
7
2
1 1 1 3 3 1
6 4 6 ·2 "2 2
li1
1
2
121
1
~,
71
121 t Pydraul10E
,,:
hydraulic fluid; Monsanto
,23
hydraulic flUid; Monsanlo
23·
hydraulic fluid; Monsanto
Pydraul 29 ELT Pydraul 29ELT Pydraul30E
23{:
23' "2(3;.....
8 8
hydraulic fluid; Monsanto
23
2" 1
hydraulic fluid; Monsanto
23·
p
...,
<10
-
, unsatisfactory. lor use .no.1 S~~~bl~ for-selVice
8
hydraulic fluid; Monsanto
23.
8 . -2
......
23 ~.:..
23
Pyrrole
. 're¢~rrilT\endiidloiuse
;
<10
H!tI~!M,f(AAt~evere, .c0i'd, Taye,ause RM?ge
<10
... rec~mrileiided for use ., Iilllefllo ell~ct;~ev&;a cori~. ~ay t8U~e change unsat1Sfactory foi use
n6tsult~blti)or s~JVi¢e'
2 1.,
6"
23 RJ
1; Mll-F·25558 B
23
:,
, ....
/I\I,t~~~:~:I::~~c:
... ; minor tomode<, elfei:,
.m~l9auS~S(VISibJ;;~W!11I10SS0f. prop.·
'··8 ::1
.riol.Ju!lahle f~rS'rv;¢e .
"2' . 23
'lilllefno afteii,-severa cond.illay i:~tisa thllnge
.unsatisfactory for use '. ,nofsuhable forse.rvice ...
8
Transformer Oil. GE oil
l'I!WM'!!~~i~~~ii~:h:.i~~;~:~;~:i~~ge ... .'. jriofsu~iilile;lorsei'Vke
<10
.
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
• •. "t~sli;lsfaciory for usa
8
en
0: ...,
A-25
"'recommeoded lor usa
23
en
t--
A-20
~~~~tis;atloiy for u~e··
hydraulic fluid; Monsanto
Ipyranol
""::."" .;...:.;,....: ...;..,.-....
"". .'iji!sat($faCl6ryI6{tise " ~~Isuhabie forserY;ca
8 1 2.\
Pydraul90E
Dow Corn. Sitastit (MO); molded & oven cured .;..::".;",..;?.
A-IS
2
Pydraul65E
;:l
.... ,..:,c,.
::~S~~:~~~!};rl~ir~e
1
Pydraul 540C
Ramjet Fuel Rapeseed Oil
20
8'
hydraulic fluid; Monsanto
~
A-20
A-IS
. d~\ertora'ed
2 1 ,1
2~.
Pydraul312C Pydraul 312E Pydraul50E
lfi'
150 15 30 15
2
Pydraul 230E
:/
r~?S~,~Ifacwyf05 use not suitable for ser.ite
4 '2
Pydraul 115E
tl
-.
u.nsallslactoryIO( use..
1
24/'
71 .. "
r;'
Material Note
.~;-
.+: not'~~ii~blelC;i seivi~~'
1
11
71.
Pyridine
.
2
23"
~
Note
=i::~S::i:~~rl~~;:~:t:
1 2
Propylene Oxide
S"
~e~i~::;~e
'<
;,\m~!~R~;\~i~~~~i;;~i~f:~~t;;~~i~8~Mge
<10
<2·;;.':..
Propylene
'tl
~bl!"g!!:
8
23
@
Hardness
2
methyl butyl ketone
Propyl Nitrate
PRL 3313
:~tr~~~!hl,
. }'<:) , (deys) RatIng. t .
·····)nU~s:~~~i;~~·f::ztC:· . . ,
@
'i:l
~ ~
n'Vl
~eagent
~
Red Oil
16'
RJ 1 RP 1
1"....
#,;··,·" ~IS1:,:h~f:I~~;"
~
.,0.,>:l
"23.
<.c::
2
23 ?4 24 24
Tectyl502C Tectyl511-M vinyl plastisol
Salicylanilide Salt Brine Santicizer 141
in 2 B ethanol
10
23 24.
9 If
0 0
7
:"1'1"
105 105
10
spry shortening
A-5 AO A-5
Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
may causesl,vi~ibJe:~w~II!l~~~~llr~p,
6'
7
9,
5
ul)satisi~cIOiy
""""'fS(f""'"
2.9 2.9
Dow Corn. Silastic (PMO); molded & oven cured for use
2
" deteriorafed
2 B
f. )" ',','
g.: :~:
Dow Corn. Silastic (PVMO); molded & oven cured -:i.:;
Dow Corn. Silaslic (VMO); molded & oven cured
.,recommended for uee /, •
)ill!,~no e1!eb~l::~~]t~~i:;;i~~b~~S'~'c~~~r
.,..~
6
Delco
105 95
.~.:
6minoiio,,!c!~er;.effe~
23 Standard Oil
Shortening Silicate Esters
14 14
'"~.,
~Ol stiita6til ;~rse"'ice
2
150 Santosafe 300 Sea Water Sewage Shock Absorber Fluid
_.... : : ... ~::>
~~:
l
chlorinated
Monsanto
/;{
x..
1
MIL-R-25576
RX 1099 Sal Ammoniac
Mate~iaINdt~
, 2'tine~\lsla~orrlotuse;
MIL-F-25558 MIL-H-25576 C
Rust Inhibitor
~~~~~;
2~' '"
MIL,H-5606
Vl
;:l
,i.......
,:;;
;:;:.:
..71"""""3 150 0.04 150,' 0.04 177 0,04 177 0.04 7 150
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
23 23 Silicone Oils
Monsanto; hydraulic fluid
23
.: •.•
Monsanto; hydraulic lIuid
-
Skydrol 7000 solutions
baking soda
:::J
~
'( ...., (ecommendedlot use :.~:- ,-. -- -,:';": .:":), ::::..--:<../:.;:::. : ",:(\:> "", . . :.-:-~: -.-;/- .:--:.... :
< 101!!!!~m911nIl9!;MYllfllSM~,m~Y9i!MitBMI'We '.
~~~i)s~:~:s~~~t~;~olll::~·~f.·;r~p, ..
1
Dow Corn. Silastic (PMO); molded & oven cured
6
8 B 1
23
B'
-
-
,23,. ~3
.. ',ecQiiimei\dlidto(use
< 10
lillie/no
effecl-sev~rec~nd_ .may cause change· u~satistactory lor use
2
23
no\s.uil~tiie lor se!"lce
8
... rec(iI)qi.nBed ·fOr use .
< 10
"Iittle/no
efl~ct.;~~i;&CO~d, ~ay cause change:
8 r e c o . m i n e n d . a . d for use B•.. '
<1 0
: .
<1
Sodium Borate
en o' o
._
moder ;~eyere sviell andlor loss oJ prop,
23
23 -
Sodium Acetate
~
-
23 . 150 150
Soda Ash
Sodium Bisulfite
4
B' .;
Skydrol500
Sodium Bicarbonate
4'
23
-23
Silver Nitrate
:>oap
-
~
1!t.t!~!n9;!I!~9t~~~~r!~~rd.itl8¥AA~~~SMt\gel
0!;:;i;r~~;1!~~~:~~f:~::/~a~s:,·~~r~~~t\6'
.p-
Chemical Resistance - Silicone Rubber
Ol
......
Chemical Resistance - Silicone Rubber
en o' o
.j:>.
c.n
ru
::l
CD
Reagent Sodium Carbonate
Reagent Note
conc'ITemp'l Time (%)
('C)
2 2 2
24 24 24
7 7 7
23 24 24 24
7 7 7
23 24 24 24 24 83 83 24 24 100
10 10 10 10 25 25 50 50 50
7 7 7 7 7 7 7 7 7
-
Sodium Hypochlorite
Sodium Perborate Sodium Peroxide
u::
':';ecorJjmendeiHi#use . ':lil'WQ~~1!~ct-sev~re '~ond, ~ay cause change .
9
o o o
A-5
-10 10
A-5
o
A-5
8 8
23
8
8
:14 r~3 •••••• "\;..
.
:'~
)~:;
23
'" :";":';::::/\:'.:.-
~'
recommanded'1o( usa no~ suitable for service recommarlded for use. :~
<10
.littl~/'19~ffect-uvere
condo may ceUSa changa . recommended lor use
Dow Corn. Silastic (VMO); molded & oven cured
::;~~:.
50
urisiifiSfllCio'iyJo(.iis.e
nol sUii~~!e}~f~~;"i2e unsatisfaplo.1Y liiruse
8 . . , . ••••••••••••. 8 < 10 )i'IW(\R.!!~k~.W.FR!!
23
aqueous
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
8
.--
"
A-5
8
--
fuet
A-5
iilinoriomodei. efi8Ci'; may causesl. visi~'.eswellJloss 01 prop, unsatisfactory' for use .,•• not sUitabl;;·I~,service.· minor tomodaf:Laff~ rnaycause~l,visjb'H~flliJ6ss 01 prop.
1
-
Dow Corn. Silaslic (PMO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
15
2 1
tribasic
solvent (Union Carbide)
mirarto moder. ellec1 may causesl.visibte.'s,;·elliloss of prop. A-5
2
Sodium Sulfide Sodium Sulfite Sodium Thiosulfate
<10
5
2
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
A5
o
8 8 9 7
Dow Corn. Silastic (PVMO); molded &oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
AD AD
9
9
Material Note
recommendeclliiflise little/no elleet-severe carid. may'cause change
6 6 9
mono
C/)
t"'
o o o
1
23
..,0: i=l ..,
A-5
9 9 9
dibasic
Sodium Salts Sodium Sulfate
C/)
o
6 6
23
;:l
AD
6
23 23 -
Sodium Nitrate
~ tEo
o
6 2
23
n'
A5
<10
9
Resistance. Note recommandeq for use
o
8
8
-
Sodium Hydroxide
~
9.
~?~~~l~IEIOngauonl H~~~~~~SI
8 23
S'
8 9 '9
% Retained
8
Sodium Cyanide
'il
Volume
.'
soda ash
10 10 10
@
POL
(days).Rati~g
Sodium Chloride
Sodium Phosphate
I
% Change
@
,
•..'0
% C~ange .•
'1:l
i:i ~
Reagent
Reagent Note
ri'
en tl en
Stannous Chloride
(1)
<E' ;:l
~
POL
Conc. Temp. Time ('C) (%) (days) llating
23
.queous Stauffer
7700
Steam
., .,>l
0'
tt::
100 psi
.. .. .. ..
50 psi 65 psi 80 psi
.......
.........
'
,
I
l l
! l l
.'
.. .. 65 psi 50 psi
.. 100 psi .. .. ..
:;;
,
':.'-,
minor 10 m.od~r•. effect?,,,,,,
Yi~J~!!~~~IIf!~~~~IRI9IM'
uns.tlsfactory f~i.·u~e •.
0.67
.• 6
0
70
125
A·l0
1
. 6.
5
60
90
A-10
1
8
0
75
105
A·5
1
9
-2
89
98
A3
1
9
-2
89
98
A3
1
7
5
75
90
A·5
1
5
5
70
70
A-l0
1
6
5
60
90
A-l0
-4
75
90
A4
-4
75
90
A4
,
3
7
0
65
95
A-l0
3
5
10
40
80
A-10
3
5
70
95
A-5
,~
-'-;
-;;-
Dow Corn. Sil.Slic (MO); molded & oyen cured
" Dow Corn. Sil.slic (PVMO); molded & oven cured "
Dow Corn. Sil.slic NPC40; molded & oven cured
,
Dow Corn. Sil.slic NPC80; molded & oven cured Dow Corn. Sil.stic (VMO); molded & oven cured
'.
" "
,
"
Dow Corn. SiI.slic NPC40; molded & oven cured Dow Corn. SiI.stic NPC80; molded & oven cured Dow Corn. Sil.slic (PVMO); molded & oven cured
,
Dow Corn. Sil.slic (MO); molded & oven cured
,
3
7 6
5
50
75
A-5
3
4
10
40
60
A-10
,
5
6
5
60
75
A-5
7
7
5
70
90
A-5
7
7
5
70
90
A-5
7
8
0
90
90
A-5
7
3
0
25
25
A-20
..
7
5
5
70
75
A-20
Dow Corn. Sil.slic (MOl; molded & oven cured
7
5
-6
65
74
A6
7
5
-6
65
74
A6
7
6
5
65
85
A-5
Dow Corn. Silaslic (MO); molded & oven cured
7
8
0
85
85
A-5
Dow Corn. Silaslic (PVMOl; molded & oven cured
, ..
..
,'~
Dow Corn. Sil.slic (VMO); molded & oven cured
.." .." Dow Corn. Sil.slic (MO); molded & oven cured
.,
Dow Corn. SiI.slic (PVMO); molded & oven cured
"
Dow Corn. Sil.Slic NPC40; molded & oven cured Dow Corn. Sil.slic NPC80; molded & oven cured
"
7
6
5
65
80
A-5
5 psi
7
8
5
85
105
A-5
7
8·'
0
90
110
A-5
Dow Corn. Sil.slic (PVMO); molded & oyen cured
7
8
0
75
105
A-5
Dow Corn. Sil.stic (MO); molded & oyen cured
50 psi
7
5
5
35
70
A-5
Dow Corn. Sil.slic (VMO); molded & oven cured
65 psi
7
4
5
35
50
A-10
80 psi
7
4.
5
25
55
A-10
10 psi
14
6
5
60
80
A-5
14
6
5
65
85
A·5
Dow Corn. Sil.stic (MO); molded & oven cured
14
8
0
90
90
A-5
Dow Corn. Sil.slic (PVMO); molded & oven cured
.. ..
..
..
, "
Dow Corn. Sil.slic (VMO); molded & oven cured
'.
"
.." ..
,.
", ,
,
": ..
~
14
7
0
80
85
A-5
..
14
6
5
55
80
A-5
Dow Corn. Silaslic (MO); molded & oyen cured
14
5
5
55
60
A-5
Dow Corn. Sil.slic (VMO); molded & oven cured
..
14
7
5
70
85
A-5
14
7
"
14
20 psi
.. ..
,
5 psi
<149 >14~
<177
>177' Stearic Acid
~.:
may cause sl.
7
l
Material Note
Resistance !'iote
6 6···· 2
7
20 psi
Steam
Elongation Hardness
3
10 psi
"
J
~!I~ng~~.Ch~n!le•.•
3
50 psi 80 psi
% Retained
. Tensile
,
100 psi
.
..
Volume
....
.2~.
8
l
5
65
90
A-5
0
95
110
A-5
" Dow Corn. Sil.slic (MO); molded & oven cured
--
Dow Corn. Sil.slic (PVMO); molded & oven cured
4 1
moderJsevere swell andlor loss of prop.
2 2 6 6
unsatlsfaclory for use
nOI su~able for service
.
mlnorto model. allaet
'"
.<
, ••
may cause sl. visible swell/lo$s of prop. .' \
~
o'
o
~
CD
Chemical Resistance - Silicone Rubber
.$:>0 01
W
Chemical Resistance - Silicone Rubber
~
~ (Jl ~
o' o
::I
'.,.,.
CO
Reagent
Reagent Note
Cone. Temp. Time (days)
('C)
(%)
Stearic Acid
100-
POL Rating
7 7
100
Stoddard Solvents white spirits
,23 24 24 24
" " " Styrene
Sucrose
monomer
"
100
solutions solution
8
"2
23 121 199
7 4
dry Iiquidified; under pressure weI dry liquid moist dry gas
liquid
'"t l (1)
tEo '"
;:s t"'
0: .,
.,
~
A-l0 A-20
55 115
Dow Corn, Silastic (PVMO); molded & oven cured
" recommended lor use
.'"
W!!Iilfno eif~~I-s~~erec~nd. iii~~S~.~~~c~ai'lge ullsaHsfaCiory toruse nOl.~uilable for service
<10
!
A-22
unsatisfactory lor use moder, to severe effecl recommended for use moderJsevere swell and/or loss of prop, sample unaflected
minor 10
9 9 9
Sulfur Trioxide 20% oleum 3 molar concentrated dilute fuming; 20/25% oleum 20% oleum concentrated dilute
" "
a a a
A-5 AO AO AO
5
. ti...··
,~
..
20
23 23 23 83
" minor 10 moder. eifect may cause sl. visible swelllloss of prop.
i;
a
Dow Corn, Silastic (VMQ); molded & oven cured
AO AD AO
0
a
" " minorto moder: efleet' may cause sf. visible swelllloss of prop.
Iln~~tiSfll.ci~iil~r·~~e··
2,'"
.::..,
II ,""
'~:.;
9
,l !.
i -5
90
95
AD
I
":... .
'~':."
......
"2 2'. 1 1 1 1
Dow Corn, Silastic (VMO); molded & oven cured Dow Corn, Silaslic (PVMO); molded & oven cured Dow Corn, Silastic (MO); molded & oven cured
I
"2
i
~.
"
6 2"
:~
I
elleet
may cause sf. visible swelil1os$ of prop,
6 " 23
mo~er.
"
9 9 9 9
1 2 3
Dow Corn, Silastic (PMO); molded & oven cured Dow Corn, Silastic (VMO); molded & oven cured
. ...... .deteri~rat!d modiir:iose'iiire efJiici' moder,[severe swell IIndior loss of prop.
6 6
23 150 199 199
Sulfuric Acid
"
2 4 8 4 9 2
6 6
Dow Corn, Silastic (MO); molded & oven cured Dow Corn, Silastic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
not suilable for service
6 6
Sulfur Hexafluoride
Dow Corn. Silastic (PMO); moided & oven cured Dow Corn, Silastic (MO); molded & oven cured
unsatisfactory lor use
6
7 7 7 7
.........
A-15 A-20
150 160
6
" "
~
~,
44
23 23 23 24 ;14 24 24-
Material Note
~hange
1
.
liquors molten
23
o'
Resistance Note
Hardness
unsatisfactory lor use not suilable.for service not recommended lor use
0.04 0.04
Sulfur Chloride
S"
.
2
2 2 1 4 2
23
"
"tl
slr~~~l~
8
molten
@
... TenSII~IEIOngaIiOn
no ellect sample un~lIected:
2 3 2
23
Sulfur Oioxidll
Volume
"
9 9
7 7 7
Sulfite Liquors Sulfur
% Retained
1
monomer 23 24
0/0 Change
:
'::J:<"}
:,:c::
," no1 suilable for service
. "
Dow Corn, Silastic (MO); molded & oven cured
@
'.'
."
,.. Change
'i:l
P ~
n'en ~ en
Reag~nt
~.
,Reagent'Note,
.;::.
Sulfuric Acid
tQ'
concentrated
;:l
" "
s:.,
0-
.,
P
Cone. Temp. Time
POL
('CI
Rating
(%1
, ...:.: ...:.;,:
8~ <' 93' ,
20 30 95 95 95
24 24
24'
(days)
7 0.08 7 7 7
7
,
Tannic Acid 10
Tar
1 1 28 28 60 60
toluene diisocyanale
7
23' .,23" 23;·····
0>
lelramelhylene oxide
23 23: • , 25
1
23
;
Toluene
Toluene Oiisocyanate Toluene Oiisocyanide Transformer Oils
TOI
7 7 7 14
105 105 110 130 90 95
23., 24
uilsali$facIO.ry lor uu ntifsti"allieltir service ~-~.
AO AO AO
Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silaslic (PVMO); molded & oven cured
"
AD
Dow Corn. Silaslic (VMO); molded & oven cured
AO AO
" :"
Dow Corn. Silaslic (PVMO); molded & oven cured
;
may causa sl.• vis)bla swalllloss of prop, minort~ moder. effect
"
:;,.
.
may cause 51. visible swelllloss of prop.
10
AO
Dow Corn. Silaslic (PMO); molded & oven cured recommendad lor U$8
)\\l'~/no ellacl'se~are
condo !11aY'9i'H~!sM!\ge .no(suitabjelorserv'ce;·;····
<10
" ..-.: . unsallsladory lilr use not suilable lor se'rvt~e
.,,,." 260
..
Dow Corn. Silastic (VMO); molded & oven cured
,
unsalisfliclory lor use nof suitable for seNice . ...
2 2 2 2 2 1 2 1 1 2 2 5
unsailsiactoiY lor use"
" "
i"'
...... "
"
not su"able for service ..
205 150
A·20
50
A·l0
urisatisfactory I(lr use nol su"able .Ior service
•
•••••
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silaslic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silaslic (PMO); molded & oven cured
not recommended for use' .
1 . use
2 2
Pyranol
Inerteen (Weslinghouse) • chlorinated
100 100 105 105 100 95
" Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
minor to
1
Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Titanium Tetrachloride
vapor
,. :'.:
2 1
23
23 24 24 24 24 23
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
1·
Tetralin lelrahydronaphlhalene, Dupont
AO AO
2 1 •. 1 1
23 .
Tetrachloroethylene Tetrahydrofuran
.',"
". J
0 0 0 0 0 0
Material Note
':''::~.
";.
decomposed
6"; 6 6 9'8 8 1
Tartaric Acid TOI Tetrabromoethane Tetrabromomethane
Resistance Note
6 6
'"
23 lQO..
85 95
Hardness Change
1
9 8 9 9
bituminous
"
Elongation
1
2 1 .' 9 9 ••
23
tannin
75 80
I
'1'"
23" 24, 24 24 24 24. 24·' .;,
TenSile' Strength
-10 0
8
Sulfurous Acid Tab Concentrate
'V~lume
.::,
% Retained
3
".'
W
minor to moder. elfect
6 6 6
~ayc~use'sCvisibJe svi~lIiiOss 01 prop. 15
85
85
A-l0
;"
;.;'''''
Dow Corn. Silastic (PVMO); molded & oven cured ~:.,
~
o' o
::J CD
Chemical Resistance - Silicone Rubber
~ (J1 (J1
~
Chemical Resistance - Silicone Rubber
~
0')
o' 0
,
=:l
CD
I
'Reagent Transformer Oils
I
I
Reagent Note
(%)
Inerleen (Westinghouse) chlorinaled Wemco C
Askerol (Monsanto) • chlorinated
Wemco C
Transformer Oils
Icone; Temp. Time (days)
Rating
24
3
8
24
3
24
3
24
3
24 24 24 2470,
7
8
10
90
95
'4
40
A-20
5
35
A-15
Dow Corn. Silastic (MO); molded & oven cured
3
2
45
35
7
10
80
44
7
10
60
7
10
7
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured
90
85
A-5
90
85
A·5
10
90
80
A-5
70
14
6
15
80
80
A-5
28
7
10
85
85
A·5
7~
38
7
15
85
85
'79
365
3
40
7
A-5 A-35
25
6
15
75
90
A-l0
115
3
6
15
75
95
A-l0
121
I
7
20
85
85
A-5
3
7
20
85
85
A·5
15
85
85
A·10
20
90
85
A-5
50
55
55
A·15
Mobilgas WA200; Type A
"
AD
6
"
Dow Corn. Silastic (VMO); molded & oven cured .~;:
A·30
3
GE
'"0'
85
115'
Wemco C
,
A·5
nit>'
Inerteen (Westinghouse) • chlorinated
Dow Corn. Silas tic (MO); molded & oven cured
95
Inerteen (Westinghouse) chlorinated
Univo1l35
Material Note
90
70'
A·l0
Dow Corn. Silas tic (PMO); molded & oven cured
x
:~.
i' 121
Transmission Fluids
A-5
I
Resis.tanee Note
10
Pyranol (General Electric) chlorinated
Askerol (Monsanto) chlorinated
Transil Oil
IElongatiorilH~r:9!!~~S I
POL
(OC)
150
177
;J;lh;
;i,~l:i
-
3
3
3
5 ~
::~::.
3
'1
l
Dow Corn. Silastic (PVMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
'~~'
40
75
80
A-15
55
70
85
A-30
30
75
85
A·15
Dow Corn. Silastic (MO); molded & oven cured
~;'
140
A·55
35
A-20
50
A-30
3
'4
3
.2.
2.9
7
;.:
10
A·l0
I
5
i
40
A·l0
35
A-l0
35
A·l0
",
Dow Corn. Silaslic (PVMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
type A type A; Esso
Texamatic "A" type A
Transmission Fluids @
Texamatic A, Texaco
65 ?
Socony Mobil type A
121
"
12
::9
Texamatic C, Texaco
$:l
~
"
ri'
Texamatic Fluid 3528, Texaco
'"
~
Socony Mobil type A Texamatic C, Texaco
cEo '"
Texamatic A, Texaco
~
Texamatic C, Texaco
;:s
., .,
0" $:l
u::
"
1
1.21 121
";'1%' \12'1'~}
f;~:~ ,
~~
1
5
I
5
1
t
:::. ,.:<;
5
45
2.9
7
25
7
;: '; <~. ~;:; )~:
7
~:
,:,;?'
100
35
A·l0
40
A-20
65
15
35
A·30
.• '·5
25
70
90
A-20
("ISO.';
2.9
(, 3
25
40
75
A·25
'" 177
4.2
30
60
100
A·25
.. 5.
Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastlc (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
A·15
Texamatic A, Texaco Sun 109
Dow Corn. Silastic (VMO); molded & oven cured ,~
A-l0 105
2.9
j\150.}
2.9
f.i
..
Dow Corn. Silastic (VMO); molded & oven cured
f·:
Dow Corn. Silastic (MO); molded & oven cured
0',
Dow Corn. Silastic (PVMO); molded & oven cured
:~~ :~:
Dow Corn. Silastic (VMO); molded & oven cured
en o' o
Chemical Resistance - Silicone Rubber
.j:>. (]1
co
:::l
CD
'Y. Change Reagent Ucon 50HB5100
Reagent Note lubricant lubricant (Union Carbide)
I
.conc'ITemp'l Time POL (%) I'C) (days) Rating
,150 lubricant water-soluble lubricant (Union Carbide)
150 15,0 150.
Ucon 50HB660
lubricant lubricant (Union Carbide)
Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 UDMH Unsymmetrical Dimethylhydrazine Varnish
o
AO AO AO
3
8 9
o
A-5
Dow Corn. Silastic (VMO); molded & oven cured
9
o
A-5
9
o
AO
Dow Corn. Silaslic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured
9
o
9
o o
AO AO AO
3 3
3 3 3
3 3 3
lubricant
a a
unsymmetrical dimethyl hydrazine unsymmetrical (UDMH)
C/)
recommended lor us~ .
o o o
t-'
0: ..,
..,
~
It::
"
AO AO AO
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MOl; molded & oven cured Dow Corn. Silaslic (PMO); molded & oven cured recommended for use
23
" nol
1
2
su~able
lor service
unsatiSlactory lor use •..
not su~able Illr service
1
.' . !econllnendeillor ~se
8'
23 200 200 200
a 1 3 7
may caus~ 51. Vlsib,te si>lelVloss o(prop.
5 5 5
70 60
75 55
A-5
20
25
A-5
1 7
monovinyl acetylene
8 8 9 9
.';'~'<
.. :.~ ..
moder. 10 severe elleCi'~'~ '!'Oderlsevere swe'II'and/or loss 01 p'rop. recommended lor USe '. ' .. little/no elleRt·severe cond:lllay cause change
<10
o o
95 95
100 100
AO AO
Dow Corn. Silastic (VMO); molded & oven cured • /)llnor to m'odeL eltect
.8
;~':';.'6
23,
Dow Corn. Silastic (VMO); molded & oven cured
AO
4 4
23
24
6 6 4
may cau,s6
~I. visible'$weluidssol prop.
recommended lor:use
drinking salt water
':{ :{'
tEo ;:l
Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PMO); molded & oven cured Dow Corn. Silastic (VMO); molded & oven cured
2
'1:l
1?
9
a a
23, 24..
Water
reeomri).end.ed fo( ~sil>'
8
@
C/)
9 9
oil
Versilube Versilube F50 Vinegar
Vinyl Acetylene
9
Dow Corn. Silastic (MO); molded & oven cured Oow Corn. Silastic (PMO); molded & oven cured Dow Corn. Sitaslic (VMO); molded & oven cured . recommended lor use
a a
lubricant
Krait
~
o
8
150 150 150
Material Note
recommended for use
o
a lubricant gear oil (Union Carbide)
Resistance Note
9 ·9 9
Vegetable Oils
r;'
I
3 3 3
23
S'
I
8 150;'
.150 150.
Ucon Hydrolube J4 Ucon LBl145
~
Ten..• . . . • .I.•.I•.e. Elongation Hardness S!rel1gth .' Change.
a 150 150
Ucon 50HB55
Volume
.%Reiained .
" ~
<10
cold 7 7 7
o 5
o
95 95
95 90
AO AO AO
Dow Corn. Silastic (VMO); molded & oven cured Dow Corn. Silastic (MO); molded & oven cured Dow Corn. Silastic (PVMO); molded & oven cured
@
"I:l
S" ~
n°VI tl
Water
7 7 7 3 3 7 7
('l) VI
tOo ;:l
t""'
0: '"1 P
Pii Whiskey
.'.
& wines
scolch
3 1 1 28 28 60 60
White Oil
105
A-5
Dow Corn. Silaslic (MO); molded & oven cured
95
110
AO
Dow Corn. Silastic (VMO); molded & oven cured
0
90
95
A-5
Dow Corn. Silaslic (PVMO); molded &oven cured
0
95
95
A-5
0
95
85
A-5
0
:., 2
Dow Corn. Silaslic (VMO); molded & oven cured
AO 80
120
A-5 AO
Dow Corn. Sitaslic (VMO); molded & oven cured
5
A-5
Dow Corn. Silastic (MO); molded & oven cured
5
A-5
15
A-15
9 9' '.'/' 08 "9'0 0 9 ,
!1
0
100
95
AO
0
100
105
AO
0
105
120
AO
0
95
110
AO
0
90
105
AO
5
90
95
AO
Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Sitastic (PVMO); molded & oven cured Dow Corn. Silaslic (VMO); molded & oven cured Dow Corn. Silaslic (PVMO); molded & oven cured unsatisfactory lor use nol su1tabl~.tor s~rvice
2
.,
:
23
recomin°ended foiuse'
Wolmar Salt Wood Oil
····iiii~~!W!~S!?iy'loiiise
• not~ilji~~!~ for service
.}ecomm_eii~8~16fiiset unsausfacioiy'forUSll"
Xenon Xylene Xylol
not suilable for service
2.3 24
0.01
4
40
A-20
24.
0.02
~
45
A-25
24 2( :' 24
Xylidine
Dow Corn. Silastic (MO); molded &oven cured
~:':"
5
",/8
~'.
24::,.
95
5
..
'"1
II:
5 0
0.04
2
60
A-30
0.08
1
80
A-30
5
1
135
A·35
'8
<10
Dow Corn. Silaslic (VMO); molded & oven cured
mixed aromatic amines di-melhyl aniline
Zinc Acetate Zinc Chloride Zinc Salts Zinc Sulfate
\213?
<10
{IIlltolno effect;severe
c;ri~om~Y~l!~~W~h~ijij~
~
o' o :::J
CD
.j;:>.
Chemical Resistance - Silicone Rubber
01 CO
Chemical Resistance - Fluorosilicone Rubber
"'TI (f)
"10 Change 'Reagent
Reagent Note
conc·ITem p., Time (%)
('C)
Acetaldehyde
2 1
23
8 8
glacial
23 23 24
glacial
2
-
Acetone
23 24
Acetonitrile
--
~
n'
'~" ';:s" 16' ~
.,
c:r
., >l
(FO)
Dow Corn. Silastic (FVMO); molded & oven cured minor to moder. eltec!
(FO)
5
23
1
Acetylacetone Acrylonitrile
23
2 2 1
23 --
8 8
e
'>167 " 150'2.9 150 i 2.9 5.8 \50 15.0 . 5.8
6
23 150 ':::~
23"'"
Alkazene Aluminum Acetate
3
e' e"
6
'23
2 1
......
23 ;,.;
,. ~3'"
recommended fO[ use
..
not suilabte lor service recol1lmendOd 10' USe .ljll\eI9~ . effe~k~er~fe • fp~~"meYfMM • f~ange:: . iecommeMeii!oruse~~ mOde,. 10 severe eltecl
<10
".
recommended IOf use ml!\Or 10 ~~d·;i;.eHecl
-
<10
75 50 68 31
A·5 A-3 A-II A-8
70
125
A-l0
~,(':
.... ~.-..
Dow Corn. Silaslic (FVMO); molded & oven cured
(FO)
Dow Corn. Silastic (FVMO); molded & oven cured recommeildad·!or use lillleino aHecl-seva,e~o~d. may caus~ change' minOr to mo~er' effecl ' unsalisfactory;tor,use nol sUitabl~ lor service ,ecoli'mendedJO( use
,
.'
.
<10
Il11lelno elfect-s~vere cond. may ceuse change. ,ecommended lor use
<10
littl~!!Re!I~~MM!!~£29~;m.~~.··~~Ps~.~M~g,
8 B
91 74 76 29
··~liYCiius~sFvi$ililfls\iiellilO~sOijlioi>.
10
8
8 8
(FO)
'litlle/no eltect·sev~re con* may cause change unsatisfactory for use
<10
7
~"';>
--
Aluminum Bromide Aluminum Chloride
disintegrated lo("se nol suitable fo, service unsatisj~clory
5 4
3 6 5
Dow Corn. Silaslic (FVMO); molded & oven cured
A-20
8 4 4
'<1~
denatured
25
o 8
No. 35
15
2
8
Aero Lub,iplate
unsatisfactory lor use not suitable lor service unsatisfactoryloiuse not suita61e'lor service 180
23
Aluminum Fluoride
unsatisfactory lor use not sUita,ble lo.r service recommended lor use littlelno aflecl-sever.e condo may cause change unsatisfaclory for use
20
i
-
Alcohols
Material Note
nol suitable 10' service may cause sl. visible swelVloss of p'op.
9
-
Aircraft Turbine Oils "1:l
7 0.83 7
Acetyl Chloride
@
<10
1
24 150
Adipic Acid
E"
6 7 6
Resistance Note
Change .,.'
2 f '2
23
Shell, A Shell, B Shell, A Shell, B
,.ElongaIlOJl.'·1 Hardnessl
6
Acetic Anhydride
Aircraft Turbine Lubricants
T~n~lIe
Slr,mi!h
1
5 30
Aerolube Aerosafe 2300 Aerosafe 2300W Air
"10 Retained
2 2 2
hot, high pressure glacial
Acetophenone
Volume
Rating
23
Acetamide Acetic Acid
I POL
(~aY$) .
~
0>
o
(FO)
@
% Change
'1:l
p
en .....
Reagent
Reagent t-lote
en
t:J
(\)
en
Conc. Temp. Time (%)
(;.
Aluminum Salts Aluminum Sulfate
I'C)
::.., 0P
..,
8 8
23'
Amines Amino Acids Ammonia
<.c:
mixed lactams cold hot liquId
anhydrous gas, cold gas. hot 300 lb. pressure
Ammonium Hydroxide
.
"
23 ... ,23'····
"
Resistance Note
Tensile Elongation Strength.
re~m'mended
'.
<10
Material Note
for use
(FQ)
Ilt1le/no ellect-severe condo may cause change
2 2
unsatistactory for use .
8
.' iecoirimeitd~tl lor use .
2 .2 2 2
·unsatisfactory for use
1
not suitable lor service
23 1.)0
1
23 24
7
Ammonium Salts Ammonium Sulfate Amyl Acetate
2 6 6 7 .4
deteriorated miiiiiii6iiiOdei>efieci :may cause sl. ~isible swell/loss of prop;' 5
55
95
moder. to severe ellect
8
rec~!"I1f~.n~M.f9q!~~,.
23 23
8
23
6 6 6
· unsa!lsii!eto!yloru$8 .. nol suitable for service recommendedJo,,:use UW~I~o~'t~p!;severe. condo may cause change' minor 10 moder. effect
8
Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene
<10
.. m~YF~9~ .•,.,;F·t%~I~.'!)'!~IIII~Hllrp(llp· .iecomiiieiidedliir uSe
8
23
8
di·ester
<10
little/no effect-severo tond. may cause change minor 10 moder. eflect
6 6 6 6
"
" dyes oits
". "
moder. to severe effect
4 4
dyes
23 23 24
Aniline Hydrochloride 23 lard
7
6
may cause 51. visible swetUloss of prop.
4
modei./~evere swell and/or loss of prop.
7
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ) Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
A-5
2 1
Amyl Alcohol
Animal Fats
Volume
1
concentrated saturated
Anderol L744 Anderol L826 Anderol L829 Aniline
~DL
Rating
'" IHardness Change
8
'7
tEo ;:l
(days)
·%Retalned
5
70
85
AO
Dow Corn. Silastic (FVMQ); molded & oven cured 'minor to:mOder. efleCt
6 6
(FQ)
may. cause~l.viSi~le sVielvl9ssolprgp, ·rocomirieitd.tlforuso
8 8
lard
Animal Oils Ansul's Ether
23 23
lard oil ,.
Prestone
CJ)
little/no ellect'severe c.ond. may cause Change;' 'recomme~dedforiise
. . ,!,o~er. 10' sev.ere ~ffect
~p.
'4 :'8""
4
23
11
<10 <10
8 :~.:
23 .
Antifreeze Aqua Regia
8 8
4
....
mode~;/se~er~. s~ell. ~.nd/o~toss .oj prop, reciiiririi.iid8dfoi;ii~e::·:·'·
.
moder, to severeeffecf ....
',. m~derJSeVere. s'!(en ~ndlorIO;S~fp(op:
Chemical Resistance - Fluorosilicone Rubber
~ (J)
.......
.,s::..
Chemical Resistance - Fluorosilicone Rubber
"Tl
en
0>
'" % Change!\;'% Retained IReagenl'
Reagent Note
CQnc·lfem p., Tiri.\e J PD~ (%1 ('C!; (darslRating
Argon Aroclor 1248 Monsanto
23
Monsanto
8 8 8 8
23· ., '23"
Askarel Asphalt '<.23
."
ASTM Oil No.1 150
3
150
2.9
lS0
7
<10
!inl~i~~,II~~kM~!l1:!·AA~p,.,l11aXHH~!'9!\Bnge :
reco.mmended for us~·
miiior10 mOdGi. 'efleet
.
l11~t~.use.sl.~is~le~~e~~~S?1 prop. minono moder. effect recommended for use
o
A-S
'. 9
100
86
AO
9
101
87
A·2
95
95
A-S
90 75
110
A-5
90
A-5
83
85
75
105
A·5 A-5
40
105
A-l0
01 prop. (FO) Dow Corn. Silastic (FVMO); molded & oven cured ~
.Il. 8
150
8 7
.: 150 ••••
1 3 7
lSO '
14
150;.
21
150,
28
7 . ·6 S
7
.~~
5 5 5
5 5 5
15
80
75
105
A·l0 A-l0
7
5 5 5
60
105
A-l0
14
o
60
90
A-25
'177'"
3
::~~~\;
7
15
60
70
A-5
40
70
A-20
ASTM Reference Fuel B
-~~"
7'
····4
10
80
80
A·5
20
45
65
A-S
5
20
60
70
A·5
15
100
70
A·l0
15
50
60
A·S
30
40
65
A·20
'3.:
ASTM Reference Fuel C ASTM Test Fluid 101
3
L
7 14
,. .•••
6'
Barium Chloride
5
3
" 3
3
2
,
:'::~
7 2 4
di (2-ethylhexyl) sebacate, (plexol-201 )
"~'
'':-;.,
.:~
y.:('
'{;:;;'
Dow Corn. Silastic (FVMO); molded &oven cured
t recommended for use
a\ 1
3;
@
"ll
l-
"""!""'
25
3
\t:
'Ilttle/no ellect·severe·cond. may' cause change
8
7
isooctane, also TI-S-735 type I
... : .. ,
:~:
~:.
\ :~;.t;:i
deteriorated
'ml/iOi l~riibiler,
6 5
93
89
A·4
10
75
75
A·l0
.
iifl"cC;·'
:~
a> a,. S.
d81~r~;~·;.;j
>::'*
<10 recommended for..use , , }!!!.'e/noellect·se.ere·C9n'tL··mar·caus'&··c"'!\J!l!;;: ..~:
<10
(FO) Dow Corn. Silaslic (FVMO); molded & oven cured
',$". ,.
f
"\"2( :.;::.;
.23
(FO) Dow Corn. Silastic (FVMO); molded & oven cured
8
aqueous
Barium Hydroxide
01 prop.
<10
]~·):N)~- >
ASTM Oil No.4 ASTM Reference Fuel A
..,0: ..,~
~lsible ~elVkiss
recommended for us;e
may cause sl. vlSibfe. swelVloss
110
150
t"'
.•" minor 10 moder. effect
may cau~esl.
95
ASTM Oil No.3
;:l
causest~lsibles~ef~~ssol.prop.
8 lubricating oil
~ 15'
may
100
ASTM Oil No.2
(FO)
"'Y:':';-;~':;':~""i>'
6 6
9
Material Note
..
. minor I.O.llIodel. effect
6 6
23
CIl
..:.~
6
23
Arsenic Acid
CIl
Resistance Note
Hardn,ess,I.· Chang~ .•.•
6
Aroclor 1260
;:;.
Elongation
6 Monsanto
~
'~!!engt"
61:: 6
Aroclor 1254
E"'
vOlumej~nslie
:-~
@
'S"" ~
~eagent
f?
Barium Salts Barium Sulfate
n'IJI IJI
<E' ;:l
~
.., ..,
C!'
P
\C
Reagent Note
'. j)Dl.
Rating
% Change
% Ret"ined
Volume
Tens!'e Elongation Strength
I
IHardness
Resistance Note
Change
Material Note , Dow Corn. Silastic (FVMO); molded & oven cured .~.
ellect.s~;~i~ condo ma~ caus~ch~rige'
aqueous
<10
iiii,elno
aqueous
<10
·.Pll'~!~B • ~!f~SI1~~Wi(.~cOl\d;·.maY~.i!~.~~nge
Barium Sulfide
0"
;·'recommencl9dOior use
..recommericl&d}o!use .•.•..
Beer
o
A-5
Beet Sugar Liquors
Dow Corn. Silastic (FVMO): molded & oven cured (FO)
<10
Benzaldehyde Benzene Iigroine
<10 20 23
50
60
A·l0
78
85
A-17
Benzenesulfonic Acid
Dow Corn. Silastic (FVMO): molded & oven cured (FO)
Benzochloride Benzoic Acid Benzophenone Benzoyl Chloride Benzyl Alcohol Benzyl Benzoate <10
Benzyl Chloride Blast Furnace Gas Bleach
solutions lime bleach solutions
<10
Borax SOlution, sodium borate
Bordeaux
mixture
Boric Acid <10
Brake Fluids
automotive Delco Girling Mopar non-petrOleum Wagner 218 Dow Corn. Silastic (FVMO); molded & oven cured
Brines
"en
<10
(FO)
~
Chemical Resistance - Fluorosilicone Rubber
0> W
Chemical Resistance - Fluorosilicone Rubber
II
en
~
en ~
Reagent
Reagent Note
Bromine
anhydrous
% Change
I
conc'ITemp'l Time P~L I (%) ('C) (days) Ratmg
Volume
% Retained
I
I
Tensile Elongallon Hardness' Strength Change
6
Reslsta\1ce Note
Material No~e
minor to moder. effect
(FO)
6
anhydrous bromine water
23 23
Bromine Pentafluoride Bromine Trifluoride 23
Bromobenzene
Bunker Fuel C Butadiene
8 4
0.92
1
23
6 6
23
2 1
butanol butanol
23 24
7
23
8
1
23
8 8
'2
Butyl Cellosolve Union Carbide
t
Butylene
.,
It:
4
6 23'
;:l
~ p
1
~3
Butyl Ether Butyl Oleate
Butylamine
AO
.T'noi iomOd~I .~l!~ft .
. <10
'2 23
6 6
2~
S:, '::.
g~/': .... ; ..::.:.
23
'f
2 1
'" ,6':
6·
& oven
cured
"may cause sl. visible swelUloss of prop. 10
'8
Butyl Catechol (tert-)
~
9
Dow Corn. Silastic (FVMO); molded (FO)
.iecomme.ndeiffoiuse
6
23
C/)
A-S
unsailsfiiCtoiYioiuse not suitable lor service minor to moder. e!fect may cause s1. vis,!,le swell/loss 01 prop. unsatlslil~ory for use 1J0t~uit,M~·IOI service
'8
Butyl Butyrate Butyl Carbitol
<E'
o
6
Butyl Benzoate
Butyl Stearate
<10
8 8 6
Butyl Alcohol (tert-)
C/)
9
23
Butyl Acrylate
~
may cause sl. visible swelUloss of prop. . recommended for use ;Iiltlelno eHect-severe condo ma.y cause change mOder. lo.severeeffect recommended for use
'2
Butyl Acetyl Ricinoleate
r;'
",[.-.---
iiifnoilomOde{.e!teCf·.
8
70
Butyl Acetate
P
<10 <10
6
2-Ethyl liquid
"tl
"
not suitable for service minor 10 moder. effect recommended'lor use \li\!I~!!lReff~ck~'Y't~$9Q~·.mar:c~~~lc~ange
'8' ,23
@
unsatisfactory'or.use
6 23
Butyl Alcohol
'2 '2 8 8 8.
23 23
Butane Butene Butter
may cause sl. visible swelUloss 01 prop.
1 6
mono bromobenzene
lueloil
6 6
<10
lI\ay cause~l.
.
visiblti$wetW§~~8!pr9P'
•rtigoiiimeOiided lOr use
IItIle/no effact'sevare condo may cause change recommended lor USe u'nSatislaclory for use not suitable for service riCdmmeiiiled for use l.i.ttl~J~o ..e~ec!~seve.r~.ColJd, . rn~i~.~.~.~.~ ~~ange
.'. unsiilisiiiCtory lor use .
..
not suitable for seryipe moder.)? sever. effect minor to ·m~er. effect may causesl, visi!lle,swelVloss C!'prop. mlnor:to moder.' effect may cause si. visi~!e swelUlo~; of prop, unsatisfactory lor use \:. .,. nor~iii\8~le Jor service .iiiliiOdomiidei.e!tect , may \;!~~,~I!rj~\!l!,!J@!¥~~~9!1l(9P' ,
Dow Corn. Silastic (FVMO); molded & oven cured (FO)
@
';,:"
.
'0
I:i ~
IRe.a.gent
Reagellt
~ote
r;'
'"tl
IButyraldehyde
'"
ICalCium Acetate
~
ICalcium Bisulfite
I:l
ICalcium Carbonate
(~aysLRaflng \
Cone. Temp. Time \PDL
('i)·ee)
,
Volume'
<
Tensile
Elongation
'••••§)J!.nglh
";~'i;;;
Res;si~llb'~~N~te . ,: .':;~:~L:?~W): ,:.\~:. .
Hardness'l Change
...
;:l
.., ..,
0\C
Material Note '.
"'n~i~J:~;~qi~;~~~{:e5> .
·ii: 1.}'
<1l
~.
~ cha~~i·.···.,~'Re~,ned
(FQ)
~i!;~;~~~o~~;£i~e~\•..
o~~~!~~~!;~ki~lf~~~;~~;\~~~;~~~~~~~ge
<1
.8f&commena8ii%iiisii~~~"
Calcium Chloride "all;lum Hydroxide "alClum nypochloride
Calcium Hypochlorite
.. minOi!el)1~e!;~f1ect
." ....
. . . . . . .' of prop.' -~~-recolnnlindiid.toitise.i.··'·
2~<maycausasl.
Calcium Nitrate <1
'il
Calcium Salts Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Caliche Liquors Cane Sugar Cane Sugar Liquors Caproic Aldehyde Caprolactam Carbamate
,23
O'\\\IWM~~~~!;~~~~E~~~jj~;;ffi~YMi#ij~Mil~~ "'~"iecomm&ridid'lofu$e7 'Ii ":::: -~~: .;:.
J
8
<10
iiicommeiidiii!"!oi'!ise"
8
~::::,:::::
.8
IIil ::~
8
liquors
23
monomer
24
3
. ,23"
Carbitol
8 8 2 8 8 :".8:'
1It11e[no eflecl.seYer;·~ond;~~yca~se change r!comme';~;dt~r 6s~ tinsatisfaCl?ry (or use
<10
o
80
100
A·5
Calgon
~i
phenol
23
8.
<10
Intl:;n~:~~ilt~~if~~::~I*~iS:~Jse.c~,I~ge
23
8
<10
~llleJiio e(fecl:sev;r~~!iff~;';'aycause change
"·S,··:·· 6
molded & oven cured
(FQ)
recommend$'d'loitise·
dry
.6
wet
.:6· 23
8
minor to moder.,elfec\
.. :. ::~,:: :::
.11t1!~t~f*.• ~ll~~\;~~¥~!~:.ffin!!j;m~tElw~~ • .~M~~~.
<10
,,'
8
Carbon Disulfide Carbon Monoxide 23 23 24 49'.. .·
'".,
•••.•..•• 8.•• '.\
«04:'· .: 7 5
i;·..:/;
·".'iec~iiiiiiii@~in§Qi$e
"
iiiinoiioiriOdiiiiiilfecC: ,co':<, may cause 51. viSible:~~lIilos~ 01 prop; "
6 .6
Carbon Tetrachloride
20 20
55
70
A·5 A·l0
, .. ,_ .• ~
• • " . , .• ,:
',.,>,<,.' ••" " '..: •. ' ' '
,.,,,-'''''.:;'
mOd,erA!1~~s7fl~~W?ij::~Of pi~p. '
i'f/8 ".,'
Carbonic Acid 23
il!. . .
i 23
8
Dow Corn, Silaslie
(FVMQ):
molded & oven cured
(FQ)
<10
·······8)1
Castor Oil
en
(FVMQ):
..••. .; ltIi?p' 10 m~~~t e/le,1 may cause'sl, visibl~::swelVlo~s, of'prop.
Carbon Bisulfide
"'T1
Dow Corn. Silastic
.,!iWe!9?etl~:\:::~~i~~~~~;lb~¥:a:e:~:n~~..
<10
'6'
Carbolic Acid
Carbon Dioxide
viS[llJ~$W.eiiiloS5
<10
'Jeco"l"W~~,e~Jci!vse'
.
Iit1lel~o el!MI1~~Y~!@;&n~'lm~y .~a~sec~~n~l
~
Chemical Resistance - Fluorosilicone Rubber
en
01
Chemical Resistance - Fluorosilicone Rubber
"en I. IReagent
Reagent Note
, v ~%Chanae
,
Conc~ Temp. rime (%) ;"
.•. ('C)
.
.
Chlorine
Chlorine Dioxide
Union Carbide Tenneco Chemicals, phosphate esters
1!3
·· .. 1
23
4
6
minor to moder. effect
2
6
hexadecane
mode~;to;~;v~re e{Iecl
,
mino....o moder. effect.
6'"
dry weI dry wet dry wet 8% CI as NACI02 in solution
8 ~/
"
'.":.>
8 6
8
23 23.•
minor tomoder. effect.. lillleino eflect.seve;~ cond.may cause cpange· o:n~y. ~au$e. ~\"'~i~I~~~j~!§M:!1t~ro~, '.." "miiiOilomiXieEeffecI
<10
6 6 6· 6 6
"..may .cause. sf'visible sIYeWloss of prop. milloi!o modSi: effeCt .
.model,/seve(e~~ell~ri4(n!~~~P!piiip,·.··
4
'uimmsfiCtoryfoiusej> . not suitable for'serv)ce ,
2
1
23
Chloroacetone
~i1sali.sf~~o'Y,forys8 , not suitable f9r service minor 10 moder. effilct,:'· '.
2.(,
23
1
mono
mono chlorobenzene
6:i
©~"t
55
7
60
.nnn~:~ 10 m~~~T;'I~:~.f:tl.:-
may "'::UICA d· ui~i),,11ll
6 7
'I
25
55
50
A-l0
10
80
80
A-5
7
p-
5
~ m tEo ;:l
t""
0: ... p
...
Chloronaphthalene (o-) Chloronitroethane Chlorophenol (o-) Chloroprene Chlorosulfonic Acid
,;' Dow Corn. Silastic (FVMQ); molded & oven cured
30
;::!l"';; l·chloro 1-nitro ethane
Dow Corn. Silastic (FVMQ); molded & oven cured
iittl:;~~'effl~~l;:~S~~::~~f:afiaus&:~~~~~&; '~~~;~l~~7?i::::~ibb::;
Chloroform
m
.....
(FQ)
. ", ...
(FQ)
l·chlorodecane
<10
n'm
Dow Corn, Silastic (FVMQ); molded & oven cured
A-5
6""
2~:;,
2.4
-.
"6.·
>23' Chlorobromomethane
(FQ)
.~
~'
23'
~
Material Note
.• urisg.IISfilcl9'Y lo(use . r;otsuitabl~:for $~[Vice i '. unsallsfactory lor use • nOI~uif(;bleioi'serviCe moder1severe SWe!f,an;ll0\ IO~~Ol prop.
{("
Chloroacetic Acid
@
R~~tst~nce No~e .
2
23
Chlorobutadiene Chlorodecane Chlorododecane
';:1:"
'Tensile Elongallon Hardnessl; Strength Change'
2~
Chlorine Trifluoride
Chlorobenzene
Vo.luma
..'
Union Carbide
Cellosolve Acetate
Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents
I
\~
Cellosolve
Cellulube
PD~;
(days) Rating .
"'
\".
% Retained
.j:>.
0> 0>
100
100
'".""'" f·!·..·;··,,·· .. '~..:;"...
A-l0
: lI)i#(IO m,~e.i. ,e.~e.i:",:r'\"
.,
:(.: " ":,;:~S:~:~~~:~;~~:~:;li' minot to moder effect .
chlorobutadiene
s..
~
,
m~ycause si:vGlble eIUIO~S ~f~rop. '.' •. ..'
unsatisfactory for irse
(, ,(i+ ;;;ot i~illi~iejo(-s~,~16e
(FQ)
: Dow Corn, Silastic (FVMQ); molded &oven cured (FQ)
Ii
@
'"
p
~
n'V>
tl
If\eagent
~.
;:l
t
...0-p ... It:
T;ns.lI."...•. 1 Stren~lh. "...
Change
Chromic Oxide Chromic Acid
aqueous solution
0.88
--
6
23
4
4·.
ICitric Acid
8 23"
'Clorox
B
-
:i8
L
23 . 23
.:.:.·.;:::;.·!h.:.:::·· 8
--
2N
:, 8
23·· "'24 24.i 24
-
Coconut Oil
)'8'
1 28 60
23.
-
Cod Liver Oil
23
Coffee Coke Oven Gas
121 177
-
Copper Acetate
-
3 2.9
-
....~,
23.
-
Copper Cyanide Copper Salts Copper Sulfate
<10
8
-
f~tle/no eff.ct'severeco~il:i11~i~~~M.cMnge
8
<10
1~!leJno eff.ct.s~Y~i; cond.maY cause change.
iecommendedl~r-~f~
8
3
23
Creosols Creosote
coal tar wood coal tar
23
Creosylic Acid ~I
m.thyl phenol
8
4
... ~3.
90
A1
88
86
A-3
unsa'ilshiiiloaY for us. not S~l!~~I~';o/service "niioll1ll1endedfo; use .
<10
·8
8 '8
101
. . . mlMiiomiide{'el!ecf
<10
<10
.8
-23
Cottonseed Oil
(FO)
recommended.lor us. )llino!: to·moder. effe.ct' . · may cause sl. visible sw'1!W~M~!jjtM;
:8'
'.~
Corn Oil
cured
!iiinoi·iomOde(.el!ect '''9' ·6
10 50
.'
& oven
reciimmeiiilildiiii'use'.
,6
8
23
Dow Corn. Silastic (FVMO); molded
AS AD AS
8 8
23
-
100 100 95
105 110 95
'9
2
-
(FO)
fi\@ljlo .ffect.severecjm~;rn~i~~W~FMnge
<10 0 0 0
9 "'9'
Material Note
'reco!iill1endiid foi'use
<10
23
Copper Chloride
..
::::Y.
.' mayca~slst~ls~i"~~tl!IQs~Qip'rop, ·'!~!IMj~ • eff~§!i*~riii~.##pp·jMY§~~M.#Mrge ; feciimmendedlii,·use······'
"";15
---
Monsanto r.frig.rant, Monsanto Monsanto r.frigerant, Monsanto
<10
8:
-'23
Coolanol Coolanol35 Coolanol45
Resi~tand~.Note . ..·c· :
Ii
~
Cobaltous Chloride Coca Cola Syrup
<~..:.
minor tO~cxl~;?~itect J1)ay cau~.e sl. visiblt·i~elVIQss 01 prop. .minor'to mode;,"effect •mOder. to sev~re effect'· moderJs'ev~'re swellllniiio(IOSS of recoll1ll1eMMJor.use ii. .li~'~!~.!l;:~!I~~i,~~Y~r~.c~;;ii:.m~y.ca.u.s.e •.~id;;ge
,,:
'~3
Coal Tar Cobalt Chloride
en
-.:.:
IChlorotoluene
Chlorox
11
%Re~a,l.n~a
E.I~ng.ilon IHlIrdness
R~agent Note
<1l
V>
% Change.
:~;""
WtW~Q~ff~~!l,~#~~re.CO~d_rn~Y~a~s.c~~nge
ie9pmm~r?~~'for use fitlle/no .ffeCI·~tY~r~$?ri~, may cause change recommen~~d.for use.. little/no elfect·sev~r. co~~,may cause change recommende'd lor U§e
8.
,;
8
"
<10
.8
8
<10
littleJno.~ffe¢t.severe condo may cause change reeommende{!iir us~ . little/no effect-sev.re cond.'·may cause change
6
fflil1C\iIOMMeMe!!ec t
8
recommendedJiihise
8 6 6
Dow Corn. Silastic (FVMO); molded & oven cured (FO) Dow Corn. Silastic (FVMO); molded & oven cured (FO)
..
~ ;;:t~{
<10
little/noeltect;se)(eric.~ii.di';'~Y
cause change ,; .minoito mlidlii".ffec! rnay~usesLv\S\liI~'~~W!~&S 01 prop_ -l'>o
Chemical Resistance - Fluorosilicone Rubber
0>
.....
Chemical Resistance - Fluorosilicone Rubber
"'TI
en
~
0>
(»
,Jleagent
Reagent Note
% Change % Retained ' · Cone. Temp. Time PDL Tensile IElongallon IHardness ,Change I I'C) IId~Y$d Rating Volum. ,Strenglh
Resistance Note
Material Note
may cause Sl, "isible swelVloss 01 prop. minor.lo moder, etlecl
(FQ)
1%)
Cresylic Acid Crude Oils
6
;;~.
7 API
24
14
9
315 API
83
14
-2
5
7 API
83
14
315 API
135
14
9 9 5
7 API
135
14
7
Cumene Cutting Fluids Cyclohexane
6'
23
-
isopropylbenzene CUlling oil
--
Dow Corn. Silastic (FVMQ); molded & oven cured
5 5 5
30
A-5
55
A-l0
mi"orJc)~ooer_~t1eci 6111~y~~se ~~,~#fli!~ffl~WlqM~!R{~p· 8 ··:tecoliifuen~no.r:usc·
6
23,'''.
--
..
8·/\~\" ""'·~·
2
-
Cyclohexanol Cyclohexanone
7
.
maycauss sl, v~ibl';~elVloss of prop.
6
23 . 24'
(FQ)
15
.
8 r e c o m r i ) e n i f e d lor use
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
23'""
'23--
\'yclonexyl Alcohol Cymene (p-) isopropyltoluene
-23
23'
'8 8
< 10
23,.
:
<
;23
8 8
<10
Decalin Dupont Decane Detergents Developing Fluids Developing Solutions Dextron Diacetone
solulions photo
8
< 1o
6 :",.23 :;:
Dibromoethylbenzene
10~~II!m9~!!;;lt~;~~~:';~;;;l\*;~~U8~ange:
8 23
Diacetone Alcohol Diazinon Dibenzyl Sebacate
, . rsco~de:~ for use. .~ 'Iiltle/no effect-ssvsre cond. may cause change
<;" ~:
23 \:.: :::::.
"23
,
, ~'.,~~Si~::~~~~{lflr;~~:e<· 2 . u n . s a l [ s i a c l o r y l o l lise
ln~'s~i~~i~f~,~elvice minoIJo..inoder, e.ltee! ' 4 moder..10 seven effecl
6. 4
mOderjstV~~e;$;ijl ~orioss pi prop.
6
..'~ltOiii~~r .. ~fl~~t ...•
6
Dibutyl Ether @ '1;l
p
~
ri'
:; Dibutyl Phthalate Dibutyl Sebacate
IJ>
t:l
ell
Dibutylamine
CIl
15' ;:l
..,
p
Ie
.23 [ -.~-.-.
/'23' 23
Dichlorobenzene (p-)
6
6; ~
2 '1
.• rn.ar~l\useJI;vl~&IH~~!!!~~~!\!~(9P,
-,-~~i;js:~'~;4~~~~~'~;~tPmp. 'm~de;;~~~~~=e'~&;~i~~-~, ~i~p. ,..
' . mlrloNO'moder. effecl
.may ~aus~:~I:'~I~~ies~:;~~ss of ~rop_ >'uMatlslacwY'···~--
..
nOlsJilab,I~:f91
l r i i i j O ( f o l1)O(lli~.e~.cl 8 may caus! St~I~lf1I{~!e!i!!OSSolprop. 6 "minor;\(!.(l1oC!er,)f1eel 6,
Dichlorobenzene (0-)
t"'
0: ..,
: )
. .., '·'recom~n~M9t~e, .lillie/no eiiecl:seye!~~6~~m~r~~~~£~ange . "ieeommenlJeif"lor'use' " i tillIe/no ef1ecl.se,,;er~co'iid:. may:cause.change . . '';;inor';o~er. ~ffecl
:~:"-::
6
. "\;~~~~.: ~ ::r;::: :'"::~<
I
@
~
>:l
~
IReagent
Reagent Note
lor-)
r:;'
I I
conc'l Temp. Time
% Change'
eD~
.Elongatlon Hardness' Chang~;;
Volume
ldays)!lating
('C)
Resistance Note
Material Note
~\.
(J)
tl
~ (J)
15' ;:l
~
0-
.... >:l ....
It::
mOderJs:::r:~i~eit;~J:t,lfi~BlJnRM
,,23
IDicyclohexylamine
(·><2 .'
IDiesel Fuels
unsalislaclli'ry'foi' use .nOI suitable lor's.flrvlce
:.1
23
diesel oil
. i;'co~m~Medior use
8' 8
23
Diethyl Benzene
little/no ellect-s
<,0
23
4 4·
23
4
7
24
Diethyl Sebacate
;. ,"~~u~.~~ere.S!!11~1W~r@~~,.R!"I'(RI':
moder:ioSevereeiiectr'.
moderJsev9re sWell ~n.ljIor IDs~:pl prop.
3 6
50
60
55
A-'O
~
.. mlnoitomQdei,eli.ecl : '~ ....f)1 aiBU..s!.S.I,. v~~le.:!!e~!~S.S.9IPI9P,~, .' }- unsallsriC,:liiryloiusfl·······y~ '" oo.t. sultabt~ !or$~rv!ce.:
6
23."
Diethylamine <,0
23]
•••. ..-.,moder.los8vere'efieei.'--:-' .'
,1
Diisooctyl Sebacate Diisopropyl Benzene
:I;;m9~eI4S.e~ere:~~e~·e~«9rk~;.il!'Pt9~\
i'" ,t;';
.~
6'
,.
"6"'·
23
Diisopropyl Ketone
...;.
23
Diisopropylidene Acetone Dimethyl Ether
1..
may ~
::~::.~ ,"':\:;< :.: ,~. .:: 1ltt1~~~,oelteCI;se
<,0 ;~
Dimethyl Phthalate
'
·6 6"
.
Dimethylformamide Dimethylhydrazine Dinitrotoluene
unsymmetrical
23 .
nol suliiltii.'IQI $Irv~e .,."", . ' .~elei~.(~l~:.. 00';,.'. . ...I~;:·::;.;~:;.;;::;-;: v:~:;;.;~; :~:::,:::':.~~,; linsaifiifiiCloifl riol sUitabi(11l1 minor to.I)101leteffeciT fIl,ay eause-sI.Yis~I~"~eWloss 01 PrQP.
2~" "; 24,,,
,
24 .;
4
23
}.2 h
Dioctyl Phthalate Dioctyl Sebacate
23.'
6
150':'; 2.9
7:
.:., ".:
. 7
87
87
A·9
mOde'i.ls;~r~;;;1~~~~;;~.~'~(9P~·
4
23
4'
23
2 'I
mOdeZ::J~;~'1~~lt~~~!~:S~1 ,:;~~:~t~l~'~~;~~:~"
Dioxane Dioxolane Dipentene
L "T1
en
23'
>';;,.
*?;;;::.-unsailsr~oryftir use
/ ?, ; DNT
"
::A!1e)':AA.~;I~r;~,;~~~~;9!l!t9.P,.
~
DMF
.:~,:
~:S:::~Ot~':~~:8
Dimethylaniline xylidine
>(,
" ::~~ ,:'\, , <~:~::~::
::':, ,
,23:n
~:,~i~:~t~~~lil~~i:;~p:.
"
·~1f:!~:~t~9;~t;~;:~;:··········
i:~
23\:
methyl ether, monomethyl ether
Dow Corn. Silaslic (FVMQ); molded & oven cured (FQ)
;ii~la/no ,e'ffe.c:~:~;~a;~~~~e.~~angef
Diethylene Glycol Diisobutylene
.~M~ge
.' , moder. iCl'SeV'@elleci
A
Diethyl Ether
(FQ)
minor to:moder. effecr'
'6
Dichlorobutane Dichloroisopropyl Ether
'•.•...
~I;rJs::;ir~:~~t=jo~~:::
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
Dow Corn. Silaslic (FVMQ); molded & oven cured (FQ)
:rop:
01 prQp.
~
Chemical Resistance - Fluorosilicone Rubber
0>
co
.::>-
Chemical Resistance - Fluorosilicone Rubber
."
en
......
C>
IReagent
Reagent Note
conc·ITem p• I'C)
(%)
>
Diphenyl
~~R:~~9
@
~
Dow Corning 220
(I)
Dow Corning 33
n' t:J
to' ;:s
l:
0"1
~
"1
It::
I
IHardness Change
I
Resistance Note
Material Note (FQ)
diphenyl ether
23
6 6
may cause sl. visible
iriiii6d6iriWet)eMCl
8 9
24
o
90
100
AO
5
70
A-5
o
55 85 90
90 85
AO AO
105
95
A-5
24 ·24·· ·24'
3 3 3
5 8 8
2~
7 7
9 9
o
7 7
9 9 9
100 105 100
100 100 100
A-5 A-5
7
o o o
7
9
o
95
100
AO
7 8
15
o
85
95
A-5
3
4
25
70
3 3
8 6
40 85
10
3
8
o
150 150 150 150
7
8
5
7
8
,
24 24. 24 24 24
100
silicone fluid, 60,000 centistokes silicone fluid, .65 centistokes silicone fluid, 100 centistokes silicone fluid, 3 cenlistokes silicone fluid, 60,000 centislokes silicone fluid, 10 centistokes silicone fluid, 100 centistokes silicone fluid, 1000 centistokes silicone fluid, 12,500 cenlistokes silicone fluid, 60,000 centistokes
150 150 150 150 150
o
o
AO
A-5
70 75
90 90 100
A-l0 A-5 A-l0 A-5
85 95 90 90
AO AO AO AO
85
A-5
7
9
7
9
o
95 120 105 105
150
7
7
o
75
silicone fluid, air-exposure silicone fluid, butane gasexposure
121 121
62 62
9 9
silicone fluid, nalural gasexposure
121
62
9
silicone fluid, 1000 centistokes
260'
0.67
9
-3
silicone fluid, 6000 centistokes
177
2.9
6·
11
84
80
A-l0
177
2.9
6
8
87
79
A-l0
2
8 ·9
10
AO
4 9
A-5 A-II
.~. '
:.*:
silicone grease
noelle<:t
( ":';...
3
6'
177
3
'7
Dow Corning 4 Dow Corning 5 Dow Corning 510 3
6 6
<:\:
,.
:{;
:~~.>~
" '(
(FO) Dow Corn. Silastic (FVMQ); molded &oven cured (FQ) Dow Corn. Silastic (FVMO); moided & oven cured
~~
.iecommetididliii USe
8 150:,.}
:~:'
recoitlmend8d.lor use'
6
silicone fluid
Dow Corn. Silastic (VMQ/FVMQ); molded & oven cured recommended lor use
8
25
Dow Corn. Silastic (FVMQ); molded & oven cured
o
o o
150·
s~ijiii~~s ~f prop,
recommended for use
8
silicone fluid
(\) (I)
~
minor to mode,. effeci may cause sl. visibl.~ swell/loss of prop,
"tl
~
Ten.. .•. u e Elongetlon StrMgth
6 6
silicone fluid, 60,000 centistokes silicone fluid, ,65 centistokes silicone fluid, 3 centis tokes silicone fluid, 60,000 centistokes silicone fluid, 10 centistokes silicone fluid, 10,000 centistokes silicone fluid, 100 cenlistokes silicone fluid, 1000 centistokes silicone fluid, 12,500 centistokes silicone fluid, 60,000 cenlistokes silicone fluid, .65 centistokes
Dow Corning 210H Dow Corning 211
Volume
23
Dow Corning 11 Dow Corning 200
Dow Corning 210
•.~ Retained
biphenyl/phenylbenzene
Diphenyl Oxide
Dow Corning 200
0/0 Change
-.
(FQ)
" -;~
o
90
85
AO
Dow Corn. Silastic (FVMQ); molded & oven cured
~
~?C:b~~a~:i'~ Ret~Jbel
@
'tl
p
~
![F\eagent
Reag~nt,Note
ri' VI
t:l
. . ,p.'. (jnc:lre~p'l . .. (~)
.-..
pneumatic grease
VI
t-'
...0:p ... u::
RatlRg .-{..
.;\:~~:.:
".'.
(,.:.
Re~lstance Not~
Hardness Change
.1
recommended for use 4 9
. ·1!iO· ,!
Dow Corn. Silastic (FVMQ); molded & oven cured
Dow Corn. Silastic (FVMQ); molded & oven cured
(FQ)
3
0
95
85
AO
3
0 0 80 10
100
85
AO
30 45
110 55
A-20 A-20 A-l0
i;~'?
.;
14 7
silicone compound
7~"
silicone grease
177
2.9~':'"
16
101
94
A-17
177
2.9
6
89
72
A-6
7
6
..
oil lIuids, Dow Chemical
• Dow Corn. Silastic (VMOIFVMO); molded & oven .
.. rec6riimendedi6iu$e
may
;~
. . . . . . :.riilnoilo'riioiler:'efti,ci"
6. '..;:
may c~~se sl. vlsibles"e,i,ioss of pi~p. rec~~"!~n~~c1'107use '. unsatisfactory for use
8 2. ·2' 4
organic esler 23
2 ·1 ,2 -
23
.1
23
2 1
Ethyl Acetoacetate Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol
" modeL .to severe el1ec\
'23 ;12}~'
.,•• 7
2.9
un~~\Wactory for use not .~@able lor service unsatisfactory lor use nol suitable lor service unsatislactory for use . not suitable for service
~.
i
unsatisfactory lor use recommended lor use n9t suitable for,service J.iltl~/ng ellect-severe cond. may cause change •
2 . 23
8. '1' '8
<10
t
5
70
85
AO
. ."
-; ;.-
~
Ethyl Benzoate 23
Ethyl Bromide Ethyl Cellosolve
\
8 8 8
<10
liJl!e!!19.eff~cl-se~e(e.cg~~,maY:H~HM~ge
<10
liltfel;'O~ffecl;;evereC;"pd,.micause·cbange
23
-;-. ~;;;\;
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
, ., ·.ieCOmmend~c1loiiise'·
. •.•. . •.• teC6riiineiid~.16i use" 7unsa(lsfaCfoWi6Fiise
8.'
Union Carbide
.
••.•. refominend~~ lof use.
8. ···"23
'A":
det.erior~fed
2(:
Ethyl Benzene
(FQ)
ca~se,sl. viSibleswe'¥'oss of prop.
'may cause sl. visjble swetVlossPI"P(9P,:' unsatisfactory lor tise ... n~1s~ilabl.e·for.se:~i-~e
6
mono ethanolamine
cured
minor to mode;: elle'''-t~-.
.,~ .
23
Ethyl Cellulose
j~
6 6 6
., 23
Ethane
.,
6
23
Epichlorohydrin
Dow Corn. Silastic (FVMQ); molded & oven cured
8 :."
'23
Dowtherm A Dry Cleaning Fluids
Ethers Ethyl Acetate
(FQ)
::;-,:;:..
silicone lIuid
Ethanol Ethanolamine
(FQ)
A-5 A-ll
Dow Corning 710 'Dow Corning nOR Dow Corning FS1265 Dow Corning FS1281 Dow Corning FS1292
Materlat Note
"
,}
silicone lIuid
Dowtherm
,
, '.;,. ".... .
1?', . .
Ethyl Chloride <10
"en
, ••
• ';',".' .
8
1'1-7
Dow Corning 550
.",<·Strength: .'.
8' },
3 3
:\. 25
tE· ;:l
-,
~:.:.,
IDow Corning 55
(1)
Time 1,;ePo.~;.. V~I~~~ '.Te~~i1e·.EIOngell ..~n
(·C)· (days)
w.
not~~itab'e for service
unsa,tislaclory lor· use nol s~itable'lorservi~e
Iecoinm~~ded fot use
.~!llei~ie.~~.f\;eeY~!~ • ~i~~, • maifaHf~;$M~.~e •. .$>.
Chemical Resistance - Fluorosilicone Rubber
--..,J
~
.,.,
.,........
Chemical Resistance - Fluorosilicone Rubber
(fJ
N
Reagent
Reagent Note
Ethyl Chlorocarbonate
6
23
6 1
23
4 4
Ethyl Ether Ethyl Formate
8
Ethyl Hexyl Alcohol Ethyl Oxalate
6
23
8 8 8
Ethyl Silicate Ethylcyclopentane Ethylene
8
23
4 4
23
6 6
Ethylene Chloride Ethylene Chlorohydrin Ethylene Dibromide Ethylene Dichloride 3
23 24. 83.
7 7
23
2'4
7
Ethylene Trichloride Ethylenediamine Ferric Chloride
t
aqueous
90
90
95
105
AO AO
100
25
40
8
<10
aqueous
23
s'
<10
8 8 6
<10
6 9 9
o
65
1 7
(Fa)
(Fa)
unsaiislacioryior i'si not suitable lor service recommended for use lillie/no eHect'seve're condo may cause ch,enge :! recommended for use ii.W~/~o eHect-severe coM,meY8e~ecMnge • iecommeMedldiiJse lill!e/!to",effeo.l;~~Ye!e,.,S~~~;m~Y • ~,e*e.cMnge ........ 'iecommeiidedidiuso lillie/no eHecl·~evere cond.maYo.ause~~8nge minor to model. "eHect may cause sl. visible swelVloss 01 prop_
<10
8 '8
24
molded & oven cured
moderJ~~y~rel!!elleW!Wfg~~o.!p.ro.p·
23
23
(FVMa);
Dow Corn. Silastic (FVMa); molded & oyen cured mOder.lo severe enecl
aqueous
FC·75 (3M)
molded & oven cured
(Fa)
Dow Corn. Silaslic
A·15
8.
Fluorobenzene
(FVMa);
"t·
unsalisi8clory for use; nOl suitable for service
8
23.
Ferric Sulfate
Fluorochemical Fluid
o
o
1
lJl
....0P ....
<10
9 ·9
2 23
;:3
8
1 2
Dow Corn. Silaslic recommended lor use little/no eHecl·severe cond. may cause change·
4 4
23
f?
moder./severe swell and/or loss of prop. A·l0
50
2
Ethylene Oxide
(FO)
··modiidii severeeliiict,( moder ./se¥e!e~!!~I\Il!\ll!orlp~~o!pro~. minor yiiiiodEifettiicf may cause sl. V;W!I!e~!!eW!o~~Htp[OP' moder. to severe ellect
8
50
16'
5
minor to mocler. eHecl may. cause. sL~i~i~JMW~!J#9M~tpi~p~
.ljtt!elPgeffeck~eYeteS9Nbmey<:ausec~~nge
<10
4 4
Ethylene Glycol
Fish Oils
<10
4
23 24
lJl
<10
8
23
Material Note
l11iJ1oito·modiii~iiffeCl
6 23
Resistance Note
not suitable tor service moder. to severe effect moclel./severe swell and/or loss of prop. recommended for use little/no effect·sever~ condo may cause change recommended for use minor hi moder. eltect '•. may,.cau~e,.,~,',,¥~~!~ • ~,~~!,!lpH'9J.,Pr9P; . rninor tomodkilffect may cause.sLYisibl!'S'l'~W'9~~~tpr~p, recommended for use ·,lill'e/no effect·seyere condo may caN~ech,ange recommencled for use
6 6
Ethyl Pentachlorobenzene
;s~ n'
s~~;;~I:~.1 Elongation IHq~:~~~~
8 23
Ferric Nitrate
% Retained
8 23
"1:l
Volume
6 23
Ethyl Chloroform ate
@
% Change
I
conc'ITemp'l Time POL (%1 ('CI (clays) Rating
5
AS AO
Dow Corn. Silastic (FVMO); molded & oven cured
@
0/0 Change •.. 0/0 Retained
'i:l
S ~
Reagent
tl
Fluorolube
n' en en
;:l
t""'
&: ....
I:l
....
Cone. Temp. Time POL (%) I'C) (days) Rating
Fluosilicic Acid Formaldehyde
23' 23
23 Freon 11 23' 24
3
23 23 24
6
3
Freon 12 '23 24
3
Freon 13 Dupont
23
6 2 ·'·4 4 2
25
45
2 I
3
1
205
#6
8 8 8 8
23
<10
Iltll~m()~"e¢@~Y~@MM. may cause 9h/lnge
<10
Iml~!M. ellect:severe. 9<)ryl,l/n1!lX9!l\!~~B~ange
23
Stauffer Chemical
8 2 2 4
29
6
10% ethanol/90% no lead gasoline 10% methanol/90% no lead gasoline 10% ethanol/90% no lead gasoline 10% methanol/90% no lead gasoline
62
Esso Golden super Shell
<10 21.5
63
81
A·18
24
I
3
27.5
53
65
A·19
24
7
4
21.3
63
84
A·16
24
7
3
25.9
51
74
A-19
·24
14 28
3
26.6 24.4
52 50
74 74
A·20 A·21
8' ,~;.
6
cured
& oyen
cured
"
1
3
& oyen
(FQ)
recommended for use lillie/no eflecl·severe condo may' cause change good resistance Dow Corn. Silastic (FVMQ); molded
8 8 4
t~4
(FQ)
moder./severe sweil and/or loss of prop. minor to moder. effect
8
23 121 24
cured
unsalislac10ry for use
8
mixture
& oyen
(FQ)
recommended ioi use
8
Fumaric Acid
(FQ)
Dow Corn. Silastic (FVMQ); molded minoiiomOdei: elieci reeommendeifioruse
6 acidic
(FQ)
Dow Corn. Silastic (FVMQ); molded & oyen cured lIns@M@\oifloillse . not s9ii~~i~ for service '. minor to.moder. effect . unsatislacto,y lor use" not suitable for service
6
23 24
Material Note
Dow Corn. Silastic (FVMQ); molded unsalislactoiyloiuse . moderlseyere swell and/or loss of prop.
;1
Freon 1381 Freon 22
I
Dow Corn. Silastic (FVMQ); molded & oyen cured unsalislaclory for uS,e not suitable.for..ervice minor to moder. effecl may cause sl. visible ~'~eiVloss ot prop.
6 ..
minono moder. ellect may cause sl. visible swelUloss ot prop. not suitable.Ior service unsatisfactory for use, not suitable for service moder. to seyere'effect mode!i~~Y~(~s~~H~m!!~tloss <)Jpfop. minor to moder. effecl' may cause sl. yisible swelVloss of prop.
30
I
Freon 114
"en
6 6
\
2
Freon 113
Gasoline
..
t 4 4 6
Formic Acid
Gases Gasohol
Resistance Note
t· 2
It:
Furfuryl Alcohol Furyl Carbinol Fyrquel Fyrquel150 Fyrquel220 Gallic Acid
• TensllelEIOn gellonlHardness I St~ength . Change
6
23
Freon 31 Fuel Oils
Volume
6 Occidental Chemical
(\)
15'
Reagent Note ...
rM?mmended for use .. ~j#~r to moder. effect
(FQ)
~
Chemical Resistance - Fluorosilicone Rubber
"-I
~
Chemical Resistance - Fluorosilicone Rubber
-n U>
~
-..,J
~
.. ..-.
r"
- -
,Reagent
Resistance Note
Reagent Note
recommended fufuse moder,/severe swelf~ndjor lo~sof prop. inay cauS-e SI.~rs1ble ~weiIIlOS~ .oiprop...
Gasoline liquefied, LPG producer
~;3
,~3
<10 20 20 21
2;3 24
;3
.25
1 1
25
-
Texaco 3450
Material Note (FQ)
lhtleln~elfe~t'sev9;~~ond,mal'(.t;e~h.nge. 59
61
70 70
A-5 A·12 A-12
Dow Corn. Silastic (FVMQ); molded & oven cured
(FQ)
recommended for use
2;3 23 2;3
8
Glues 23
Glycerin
glycerol
---
8
8 :.
23
Glycols
8
8
23<,
Greases
Keystone j87HX light grease Shell Alvania j2 SunDco; all purpose
racom·mand.ed lor use" <101~tl~!99::~~~~k~'¥W~~i\;i~.: l1lay cause changa
8 8
ieeommeiiiieii.lo(use
<10Imle/noeffacl's,yer~c09dnrar~~~!~Al!~nge '... rac@l1\Wriilid1oiiiSei <10 fittla/no elfecl.s4!~!~c~~ckm~Y~ausa changa racomme)l,deiUo! use
•.
8
::~~: '.
8
8
--
Green Sulfate Liquor
• mloorto mOder)ellac!"",.
6
6'rnat~~se~~'¥isil1I,~~~WJo~;
23
1'1 prop.
.~
;:>.'
~ .\.~
.. , 23 '."
..2L;.;,: N'Heptane
:('
60<:
Hexaldehyde Hexane
N·Hexaldehyde n·Hexaldehyde N·Hexane-l
,
23
-
@
po
~
0(J>
~
(J>
lEi' ;:l
t"
0: ..,
..,
l=l tt:
HEF 2 Houghto Safe 271 Houghto Safe 620 Hydraulic Fluids
"8 8
23
--
)llll8/no elfect·seveia cO'~d.'m,ai;~~~se~h.~'nge"
<10 <10
-,,\::" minor 10 mode"'iilfecH ' - -..-, ,,' may cau~.sL ,Vj~I~';;~iVio;S~f prop, • ,.
6
,>
6
high energy fuel water & glycol base Sunsafe; fire resislant Univis 40 Oronite 8515 (Chevron) SkydraulLD·4 (Monsanto) Pydraul60 Pydraul A·200
~·~····'···iecOmmen~~!et.~·-)
~..
23 i ,)
"c
use not ~iJil.. ~iilQf ;e;"i~e
.. 8.",., '.,
23;'
n-Hexene-!
t1nsatisfa~toIY l~r
2 1 '-:,... :
Hexene Hexyl Alcohol
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
7
minor '1~,in~er.~;I~e:1
6·
:~ S·." 8, 1 1
..
;~:
'c.:- .
o 1
68
105 18
105 32
AO A-24
2<1
3
8
5
A·S
'" "24
3
...........~ ....
o
A-5
u~~:, :·:x:::~.~rL ...
~-
.
Dow Corn. Silastic (FVMQ); molded & oven cured
@
% Change
"1:l
E" (I) .....
Reagent,
Reagent Note
('C)
(%)
n'
POL
Cone. Temp. Time (dayS)
Volume
Rating
% Retained Tensile Strength
Elongatlonltt@r~n!lSSI
I
Resistance Note
.>qbJ~llge
.
Material Note
(I)
Hydraulic Fluids
Skydraul LD·4 (Monsanto)
70
1
1
87
15
27
A·29
Aerosafe 2300 (Stauffer)
70
2.9
2
18
3
38
A-49
tE·
Oronite Hyjet (Chevron)
70
2.9
2
24
21
159
A-25
;:l
Skydraul LD (Monsanto)
70
2.9
1
108
13
29
A-37
t
Dronite M2V (Chevron)
1Iio
7
8
2
100
84
Pydraul60
121
3
7
5
0C1l (I)
.,0' P .,
; lZ{""
3
,.150
3
Pydraul F9. Monsanto
: ,t5O ' \
3
8;, 8
.. 150 :~" ..150·
7
7
7
2
:\l~;;
1
Oronite M2V (Chevron) Pydraul150 Pydraul A·200 Oronite 8200 (Chevron) Oronite 8515 (Chevron) Pydraul F9, Monsanto
~"~~d)~/i
Oronite M2V (Chevron) Oronite 8515 (Chevron)
Hydraulic Oils
'S·
Pydraul A-200 Dronite 8515 (Chevron)
petroleum base
~:
A·3 A-IS A-5
5 5
90
90
A·5
5
95
105
A-5
4
78
88
AO deteriorated
"
A-5
5
.8
3
.7
5
90
90
A-IS
3
is
10
60
95
A-l0
-10
40
85
A·l0
5
66
62
A-4
15
5
60
A-45
3
..
7
'6
5"
':~
:.;
3. \i.
3
Dow Corn, Silastic (FVMO): molded & oven cured
,
rec'oii\l"en~dJoruse .
,8
(Fa)
PRL·high temperature petroleum base
}723'····'
anhydrous
'\24"Uj
Hydrazine Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
8
23 ",..,
t
1 3
3
t··
petroleum base
<10 "·not ,~uitabtefol's~rv(ce
·v·····
.'8
.:~
'. ". ..:~~SIl~slve~.'!Ig!l
' Dow Corn. Silastic (FVMa): molded & oven cured
i~mrriG#!ledl()i)lSe
(Fa)
40 40
Hydrocarbons Hydrochloric Acid
saturated 3 molar concentrated in perchloroethylene
5
1
10
10
7
0
75
18
3 3
0
18
10
concentrated
36
7
10
cold
37
hot
37
cold
37
hot
37
t ;~~:.'. ');~2fi;i~
anhydrous
",. 23":,,:
cold, concentrated
80
90
AO
65
90
AO
55
70
A·5 minono madel,.effect ... , unsatisfactory. lor usa"'"
2/' ,:.
.,'2~/
Hydrofluoric Acid
A·5
,~
...~.:>::
Hydrocyanic Acid
.~
A·15 85
~;
6"" ,.
may cause sl. visible swel\lloss 01 'prop,
4
moder.lseve;e sweW'e';;VOlloSS 01 prop.
' 6' (I;
....... 6, ...
'1' ,':0:':",'1
V may
<;
Dow Corn. Silastic (FVMO): molded & oven cured
(Fa)
cau:i='\~::~'e~::~~ of pro~j: not' iUil~~f~1~[~erVice'"
hot, concentrated
II
U>
hot
<65
cold
>65
hot
>65
unsatisfactorY lor use
~
Chemical Resistance - Fluorosilicone Rubber
....... c.n
.po.
Chemical Resistance - Fluorosilicone Rubber
"'TI (J)
......
0>
,I I
Reagent
Reagen~Note.
- I
I · , 'O/OCha!'lge
I I'
! (days) Rating poL • • ('C)
co.nc·lrem p Time (%)
Hydrofluosilicic Acid
Hydrogen Fluoride Hydrogen Peroxide
Hydrogen Sulfide
gas, cold gas, hot gas anhydrous
HTP dry, cold dry, hot wet, cold wet, hot wet, cold wet, hot
23
90 90 90
65
7
moder.lst.vere sweiiandlor loSS o,prop, ~aj,~alislactO;Y lor use fecom'mend$.d for use minor 'io m~der. eftect may caiJse sl.vlsibl~swelliloss of pro),>
8
5
80
85
moder. 10 severeiiUecl= . :~
/.
····23 23
4 4" 4 4
23
2 6
may cau~e ~i,visjbl~'sweJVloss 01 prop.
8•
recomm~~~e:d lor use
.,
" moderlse"ereswell and/or loss of pfOp. If-";
unsatisfaCtorY/oiuse
~ns~lisf~cl~ry lor use not ~ujtable for service ... inlriOiiomOdiFerlei:f
2 1
23
6 6 8'
may c~US~,S!,;~i~I~SwelV1oss 01 pr4~. recommended lor use
"
23
8 8 8
23 '
2 1
':"
ketone
Isopropyl Acetate
2
Isopropyl Alcohol
6 6 6
isopropanol
23
Isopropyl Chloride
6 4
@
23
'4
• •.·'·.?4'·.... 7 JP 4, MIl-J-5624F
t"-
o:., ., ~
\t:
1
9
1
a
3 7 7 7
6
6
n'
;:J
,'54
;-;;;;;::.
JP 4,
JP 8 MIl-J·5624F
JP 5, Mll·J·5624F JP 8 JP 4, Mll·J·5624F
14 21
.
~ ::(,.;
.
1j\1.le!90.e!I~S\,se~e[e.f9~d·· miyS.~.~.s~;f~'~nge
<10
uiisaiislacioryior use
not stitable for service '" unss.tis!aeiQiyloi use not s~@tileJo/~ervice minor,1~.mr'~(- eUecl .
...
6
23
Isopropyl Ether
'" 1? tE· '"
.~
23
1
~
Dow Corn. Silaslic (FVMO); molded & oven cured (FO)
AO
8
Isophorone
P
(FO)
4
;(
Isobutyl N-Butyrate Isododecane Isooctane
Isopropyl Nitrate Jet Aircraft Fuels
unsalisfacto,y for usa
'mOdiii:iil severeeiiei:i ....
4"
Swan Finch
Isobutyl Alcohol
"1:l
Material Note
4 4
II 6 6
23
ResistanceN~te
n~t sUi~bl~fo~servi,ce
2
Hydroquinone Hypoid SAE 90 Iodine Iodine Pentafluoride
,.
I
.Tens·lIe. Eiongatlo.n Hard/1essl $1rtnglh Change
2 1
23
Hydrogen
Volume
0/0 Retained .
;2 200 0 10 3.7 10 10 5 4.6
10 10
.."
90 80 92 65 80 85 87 80 70
100 50 100 80 50 100 94 50 45
A-S A·5 A·9 A·5 A·S A-5 A·9 A·5 A·5
~
maYt:ause sL'!~!ble~ellllo~sof llrop: minor to moder. effect '\'ay CaQS~SI:yisibie s~ell/IO~S 01 prop. moder. 10 severe elfect model .Is~~~re ~W~!! l1nd/df loss 9f prop. '<;, ........ ; '. ':<;...'0')
";.:<,.
.., . .; Dow Corn. Silastic (FVMO); molded & oven cured
@
'p"o ~
% Retained
Reagent
Reag~nt Note,
Jet Aircraft Fuels
JP 4, MIL,J-S624F
Tensile Elongation IHardness S1rength Change'
0' CIl
~ CIl
24
15'
Ie
5 4
121
,'3
177
;:l
t: 0.., ..,>:l
115
200,
~32'
Jet Aircraft Oils
Mobil Jet II Oil
25,
Stauffer Jet II Oil
150 '177
15Q
177>"
17.,7.'(
10 15 20 25 30 20
70 45
45
A-5
60 60 80
A-5
, Reslstailce Note
Oow Corn, Silastic (FVMO); molded & oven cured
A-20
35 35 20 10
90 80
A-35
3 10 10
120 105
65 65
AD AD
12 12 9
75 81 27
79 64 67
A-8
A-25 A-45
A-9 A-IS
..
Kerosine
Material Note
(FO) <10
Lacquer Thinners Lacquers lacquer solvents
23;( Lactic Acid
cold hot cold hot
<10
Lavender Oil Lead Acetate Lead Nitrate <10
Lead Sulfamate <10
Light Oil' Ligroin
oTE petroleum ether of benzene benzine/nitrobenzine
<10
Lime Bleach Lime Sulfur <10
Lindol
hydraulic fluid; phosphate ester type hydraulic fluids, Stauffer Chemical
Linseed Oil <10
Liquid Petroleum Gas Liquimoly Liquors
Lubricants
"T1
CJ)
LPG Tia Maria
o o o
90 85 75
105 120 95
AD
Dow Corn, Silastic (FVMO); molded & oven cured
A-S A-5
H2; high viscosity U4; high viscosity
(Fa)
.j:>.
Chemical Resistance - Fluorosilicone Rubber
...... ......
Chemical Resistance - Fluorosilicone Rubber
"Tl Cf)
~
---J
00
I,
Reagent Lubricants
Lubricating Oils
Lye
I
Reagent Note
Iconc·ITemp·1 Time I PDL I'C) Rating (%)
Swan Finch EP90 TL 3450 Mobilube GX-90 Hypoid EP Swan Finch EP90 TL 3450 di-ester petroleum base SAE10 SAE 20 SAE 30 SAE 40 SAE 50 petroleum base solutions
121
::~ 149 150 150
..
;
3 3 3 14 3 3
I
..
ketone
& ..,
..,p
u:
6
minor 10 moder_ eftect recommended tor use
may cause c~ange minoiiomOdlli:'Illtllcf' little/no efiect-severe cond, may cause c~.~~gl:
8
<10 <10
recolnTfiidlldfeirusll .. • liltle/no effect-severe. condo may cause change I recommended lor use
<10
1i1tl~!n,?,~fjecMt¥~!tcont\" maycau~~change
"
.... rllcominllnded .lor use • minor l!!mGder. efie~t recommended tor use
.!ittle/no ... ftect~se¥I!~5R!l~;ml!y·c~,~s.e ..change . unsatislectory tor use not sUilable for service
<10
23
6 6
23
2 1 2
9'ay•• ..,.a.~.~I,·~I; • ¥i~\!l)~.,f~~1Jt19M9{.pr9;,· . unsatisfactory for use nol suilable lor service unsatisfactory for use
23
2 1
not suitable.lor service
"
'inlnor tei moder. eftecl
~~satisfaclory lor use
23 25
~il\~uitable lor service
I
methanol
8 8' 8 14
6
8 8 2 23
1
23
6 2 1
Methyl Carbonate Methyl Cellosolve Union Carbide
(FQ)
},i)n~/~R~!!~~kS~¥~!~FRnd.
<10
2~
Methyl Benzoate Methyl Bromide Methyl Butyl Ketone
Methyl Cellulose
deteriorated·
2 1 1
@
(J)
Material Note
deteriorated
2
melhanol
I
Dow Corn. Silaslic (FVMQ); molded & oven cured
2 2
6 8 8
23
t'"
A-20
8
Methyl Acrylic Acid
;:l
90
8
Methyl Acetoacetate Methyl Acrylate
<E"
lOa
8
Methyl Acetate
C1l
a
8
23
tI
2 7
8
Methacrylic Acid Methane
n"
A-l0 A-5
8
23
(J)
lOa 95
6'
Magnesium Sulfite Malathion Malic Acid
.....
30 95
8
23
(J)
-10 5
Resistance Note
8 23
Magnesium Salts Magnesium Sulfate
."
IHardness·1 Change
8 8 8 8 8
23
p
Tensile Elongation Strength
8
6
23
Methyl Alcohol
% Retained
Volume
(days)
•
Magnesium Chloride
Mesityl Oxide
% Change
,
2
rllcommendiidlor uSIl <10 4
little/no ellect-severe condo may cause change 66
89
A-12 recominende,dforuse
.
tor
unsa@iMiory use not s@~~itwservice minor to mode'.. efteCI unsatisfactory (or use nol suilable lor sen/ice unsatisfactory for use
Dow Corn. Silaslic (FVMQ); molded & oven cured (FQ)
@
'il
po ~
Reagent
CIl
tl (1)
Time (days)
I.'.,
r;'
;:I
t"'
0: ..,
..,~
<.c::
Volume
Methyl Chloride
mInor to model. effect
23
CIl
15'
IRating. POL' I'
Methyl Chloroformate Methyl Cyclopentane
may .•••
k..·:
cau~;;:;I.~i$oble
(FO)
swelVtossot prop;
.
'min'or to mOlle·r.eflecl .
may~~s.S;~~~~le . . . . . sweiVloss . oi pJQP . .•
23
ill1i;ioi: 1?lllod~t. ~fjecl
Methyl D·Bromide Methyl Ether dimethyl ether/monomethyl ether
<10
methyl ether
<10
Methyl Ethyl Ketone
MEK
Methyl Ethyl Ketone Peroxide Methyl Isobutyl Ketone Methyl Isopropyl Ketone
MIBK
•.
,~,e'~?e[~!t~~I;~~:I:ai:;~;~se C~~nge
ri~{;Ji~~18c tor serYH;e
MBK
... uri~aiISrae1oiy.loru~~
Methyl Methacrylate
~t;~i~~l~
104
',01
$~~ice Dow Corn. Silastie (FVMO); molded & oven cured
Methyl Oleate
(FO)
Methylene Bromide Methylene Chloride
<10
70
Methylene Dichloride MiI·H·5606 Oil
(FO) Exxon univis J·43
(71
American Oil PO 4226 Exxon univis J·43
Mobil XRM·139A; oil Exxon turbo oil no. 15
····/·7
5
6
5
}7
70 70
90 85
A·10
90
85
A·10
92
84
A·6
10
65
90
A·10
:171
7 6 5
5 6 10
50
90
A·20
1~7
5
10
45
105
A·20
200
4
15
15
115
A·35
177
6
10
o
85
100
A·5
5 10
100
100
A·5
85
100
A·5
10
65
90
A·10
5 10
60
90
A·15
40
100
A·20
15
30
85
A·30
15
5
55
A·45
5 10 ·5 10
20 75 5
40
A·5
75
A·10
10
A·5
40
65
A·15
71 121
MiI·L·23699 MiI·L·7808D Oil
1S0 150 .
,.vf!~
"\~.;~, ,~ .. ..
'.177'.' 'l77X' 177
MiI·L·7808E Oil
BrayeD 8800 Siauffer jet I Brayeo 8800 Stauffer jet I
MiI·L·7808F Oil
amendment 2, PO 8365 Brayeo 880G
"Tl
CJ)
Dow Corn. Silastle (FVMO); molded & oven cured
5
A·5
Dow Corn. Silastle (FVMO); molded & oven cured
A·15
, . 2"
8 10
91
76
A·8
70
80
A·15
,~
~
Chemical Resistance - Fluorosilicone Rubber
~
<0
~
Chemical Resistance - Fluorosilicone Rubber
"'Tl
en
ex>
C>
'Reagent MiI·L·7808F Oil
Reagent Note Gulf synthetic lube no. 2 Royco 80BGF Stauffer jet I Royco BOBGF Staulfer jet I
MiI·L·7808G Oil MiI·O·6085 Oil Milk Mineral Oils
I
conc'ITemp'l Time POL (%1 ('CI (days) Rating 150' 150 150 177 li7
2.9 2.9 2.9 2.9 2.9
6 5
150. 17:1
2.9 2.9
,6
177
14
4 8
Univolt .35
Motor Oils
Esso SAE oil no. 10; Sunoco HD Texaco 10W·30
30
24 150
3 3
150. 177 177
3 15 15
177 177
30 30
Naphtha 23 24
---3 23 23
Naphthalenic Acid Naphthenic Acids Natural Gas
-
Neats Foot Oil
-23 23
23 -
Neon Neville Acid Nickel Acetate aqueous @
'l:l
S' ~
n'
'" 16' tEo '"
Nickel Chloride aqueous
Nickel Salts Nickel Sulfate aqueous
Niter Cake 3 molar
;:l
concentrated
~
dilute inhibited red luming; IRFNA
.,0.,
l:l
\t:
23
-23
-23 23
Nitric Acid
4
8 8
24
.,~:
Naphthalene
4 4
% Retained
Volume
Tensile Elongetlon S1rength
I
Hardness Change
15 10 10 15 10
70
55 75 40 40
85 85 75 80 65
10 10
75 40
75 65
A-l0 A·l0 A-l0 A-20 A·15 A-l0 A·15
10
30
85
A-20
ijesistance Note
reCOml1)end~d· fOf
. o o
9
o
8 ,;,.,9
o
95
7 5
2 9
67
4
3 1
5 6 .6 8
8 8 ·8 8 4
100
100
AO AO
Dow Corn. Silastic (FVMQ); molded & oven cured
A5 . recommend~d lor use
65
100 92 110
A·5 A·4 A·16
24 48
20 42
A·9 Al
(FQ) Dow Corn. Silastic (FVMQ); molded & oven cured Dow Corn. Silastic (VMQ/FVMQ); molded & oven cured Dow Corn. Silaslic (FVMQ); molded & oven cured
minor to moder:efiecl
(FQ)
may cause sl. visible swell/loss of prop.
10
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
..... 'recomm'ended lor use ....
<10 <10
.Iitlle/no
ellect.sev~r~~R~~,m~Vs~~~~h~nge: recommended"lor uSe moder. to severe effeci
moder.lsevere ~~~!!~i1W9JA9M9!W9P' -recommended foruse
, :4
8 8
(FQ)
use
'lillie/no ellect·severe condo may cause change
<10
9
9,.
Material Note Dow Corn. Silastic (FVMQ); molded & oven cured
8 23.
Mineral Spirits Molybdenum Disulfide
6
% Change
<10
Iitlle/no effect-severe con~, maycaus.e change.
8
recommended for use
6
mInor to moder. elleet"
6
may cause sl. visible swell/lo~~p!'Rr9p.
2 1
unsatislactory for use not suitable lor service
8 8
recommended lor use
<10
H!lle/no·,,~"~,c\J,~W~.!a.PP~~,.maY.c
<10
lillie/no ellect·severe c<).Od,may ceuse ... . .-., _---
8
•
8 8
8 8 4 2
6 2
,
~
recomiMiiifedtCi'us8 .
<10
lillie/no
~hange .. '
elfect.sev!!:~HWkmaycaH~a9~ange moder. to ~evere effecl unsatisfactory tor use minono moder. elfect unsalislacto~tor USe
~" ,
@
~ ~
Reagent
Reagent Note
o'
'~" '"
'::
% c~~pge
(
:;:;::
;: \
"tl
Nitric Acid
JConc.ITemp;..• . •..t. ,m.: . > e' ~p~ .I.e: . (%) .'. ('C)· ::(~~rs)
R~~!Og'
red fuming; RFNA inhibited, red fuming
~.
10
;::J
0-50 50 50 70 50100
t
.,c:rp
.,
concentrated
\C
23 24 23 24 I.:.: ' 65
24 23
Nitrobenzene Nitrocellulose Nitroethane
" .24
-.
Nitrogen
7 3 3 7
2 2
2
c.2~
8 8
(FQ)
AO may cause sl. visible. swelVloss of prop.
Dow Corn. Silaslic (FVMQ); molded & oven cured (FQ) Dow Corn. Silaslic (FVMQ); molded & oven cured
moder./severe swell andlor loss of ~foP.
(FQ)
AS A-l0
AO
unSaliS!~~I~irfDiuse· "nOI sult.~,~i9i serVice .. A-25
65
Dow Corn. Silastic (FVMQ); molded & oven cured unsatislactoly for use .not suitable lor.service
(FQ)
unsalisfacloJY'or use • .recommended lor use 1I111.'no effect·savere condo may cause change not suilable.lor service
<10
6
urislilisfi¥,IOIy lor use ellect '1lllnoilomOde(:etlecf may cause 51. visible'swelVloss of prop. r.ej:ommanded lor use little/no effect'severe condo may cause change minor to moder. effect
23
6
m~yp~~s.·:sb·i!sf~le;s".ll!1Q.ss::QI·.PJ9p;
23
6 6
iriirioi!omodei:' effecl 'may causa 51, visible swe,IVlossot'prop.
6.
minor 10 mp.der. 'effeci .•. . may cause sl. visiblii'swelVloss 01 prop.
nio~er;@~eYere
4 (;
6 8 8
.:.:
<10
23
---
6
23 24 24 24
8
<10
1
8
5
28
8
o
60
6 8 It 6 4
5
24 23 24
recommanded lor usa
8
Oronite 8200 Oronite 8515 Orthochloroethylbenzene 7 7
6 4 6
Jit!le!!)oeffe~ks.Ye(.~9M~ 85 85 65
105 105 85
';ay cause ch~~ge
AO
Dow Corn. Silaslic (FVMQ); molded & oven cured
A·5 A·5
recommended for use
(FQ)
mlriDiio'm~ei;iitfecl
15
45
60
Dow Corn. Silastic (FVMQ); molded & oven cured
A·5 m~YcilusesLV,sibiiis;;;iiiUlossofiitop:
20
55
55
A·5
minor 10 moder, effect
(FQ) Dow Corn. Silastic (FVMQ); moided & oven cured (FQ)
-'6',
OS 45 type III OS 451ype IV
6 6 (~
,recQmmended lor un
.8 <10
"T1
70 70
unsalislaetoly lor usa not suitabla lor service
'2
40
Octyl Alcohol
(J)
60
90
Material Note
unsatisfactory lor use not suilable lor service
-
Orange Syrup
85 20
95
Resistance Note
2 1
23
..
Olive Oil
5 5 5
90
1
---
spirits fuming sulluric acid
o
2
~
N·Oclane n-Octane
IHard"ness Change
"2
23
Orthochloronaphthalene Orthochlorotoluene Orthodichlorobenzene OS 45 OS 45·1 OS 70 Oxalic Acid
6 •• 4
--
Octadecane
Oleum
5
23 ~
with 60% dinitrotoluene
T.~
.• :.••.n. 511. '1 Elongation Strength.
. .~ " ··,t
23
Octane
9 6 8'
textroxide N204, 1
Nitrogen Tetraoxlde Nitromethane Nitropropane Nitrotoluene Octachlorotoluene
%~~~alned
2 t
23 solvent
voWffie
.::.••. .-
·.MnW~9;·:~.!i~.~.t~~Yei~:@on.!!;.m~Y:i:iiu~~ •.~.~.~.~.~~:. ~
Chemical Resistance - Fluorosilicone Rubber
CD
......
Chemical Resistance - Fluorosilicone Rubber
"T1
en
.$>0. CD
N
I % Change
Reagent Oxygen
Oxylene Ozone Pacemaker Fluid Paint Thinners
I
Reagent Note
Iconc'ITemp_1 Time ('J.I (·CI. (days)
cold liquid cold hot cold
23 23 93·149 24 23 177
solvent lOOT Duco
1 3
Peanut Oil 23
Pentane (N-) Perchloric Acid 23 23 24 107 23 23
above 250 deg below 250 deg crude
Phenol carbolic acid with 30% H2O with 15% H2O
23 70 85
Phenyl Benzene biphenylldiphenyl
23
phenetole
23
diisopropylidene acetone 3 molar concentrated
23
Phenylethyl Ether Phorone
© '1l
i:i til t:l
concentrated
til
<E-
;:s t"'
0: ..,
..,p
<J::
20 20 45 45 85
23 23 100
7
Phosphorous Trichloride
(1)
Phthalic Anhydride
..'.
23 200 200 200
1 5 7
7 6
I
I
Resistance-Note
Tensile Elongellon Hardness'l Strenglh .~~lJng~
<10
may cause sl. visible swelVloss of prop.
5
80
90
A-5 minodomodiii:iiiieci'
may cause ~if~ible sW~IV1oss of p,roprecommended for use liUlelno ellecl'severe condo may cause change:
<10
recomlJlended for use
I
Material Note (FQ)
A-IS
90
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ) Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
•
.HUI~!~0 . ~!'~,~,!:~~¥~,f~,.P9~<4.m~yp~~e ,ph.ange', modei: to sii"iiieiiiiec( . iecol11meii4ed. 101 use !hllelno eUecl-severe.c.ond..may cause change" minor to moder. ellecl may cause sl. visible swelUioss 01 prop.
<10
<10
10 20
A-l0 A-15
Dow Corn. Silastic (FVMQ); molded & oven cured
1
not suitable lor service
8
,·",•. IJl~Y'.F~~J~,~h¥!~\tl!~,sw.ellIloss·ol· pr.op. recommended for use minor to model. ellecI I unsalislactof\l'or use minor to model. ellecI liUlelno ellect·severe co~d. may cause change minor tll mOder. effect
8 8 2 8 8 6 6 6 6 2 1 2 1 6 6 8 6 6 6 8 8 8 9 9 9
I
recommended for use unsatisfactOry for use IiIIlelno effect-severe condo may cause change not suilable forservice unsatisfactory (or use
6
3 1
<121 >12'1
til
':~
I;
Perchloroethylene
..... r;'
7
8 8 8 8 4 8 8
23
Phosphoric Acid
8 2 8 1 2 3
Volume
6 6
Palmitic-Acid
Petroleum Oil
PDL Rating.
I
6
23
Petroleum
I I
% Retained
<10
(FO)
u.
may cause sl. visible s~~Wlo~s.o.lprop, unsallsfectory for use nol suitable lor service "'u,;sailslaciorjfor use not suitable lor service minor 10 mOder. effect
may cause sl. visible swetVloss of prop. mInor 10 mOder. effect may cause sl. visible sweWloss of prop.
-2
92
91
A4
Dow Corn. Silaslic (FMQ); molded & oven cured 'cecomnieiidedfor use effect-severe condo may ca~sec~ange d
<10 0 7 7
,IiW~lno
AO A-2 A2
(FQ) Dow Corn. Silastic (FVMQ); molded & oven cured
@
% Change
"tl
P ~ ;:;.
en tl C1l en
tE·
IReagent
Reagent Note
('lb)
I PDL
(days) Rating
IPicric Acid
solution molten white
L
white
6
23 23
6 6 8 6
23
6 6
Piperidine chrome
<10 <10
&C<:/
23
<10
;..,. . .?~. . . .•.•.
8 6
<10
23
6 6
<10
23
Potassium Hydroxide 23
Potassium Nitrate
8 6 8
23
Potassium Salts Potassium Sulfate
• change
unsails'acloryfDruse not suitable for seriice may cause sl. visible swe\Vloss of prop. unsatlsfactocy loruse ..
8 8
8 8 4 4
-tr:t
minor to moder. eWict
2 1
Potassium Dichromate
not sUllabl~ lor service iei:iiinmeiiaOd loiuse
<10
<10
change recDmmended for use Iittle/nD ellect-severe CDnd. may. cause'change. recOmmended for use .lml~l!!o.:.el'~.~.\isM~(~;99~~,m~Y:S~use:c~nge . ....... . ;;recommended for use )
.lit1le/nD.ellect~se.ere.cond,.·matcause
lillie/no e;i~R\'Se.'~Je£I'mkm"Y~!Hse.c;ange • ' modei; ioseveieelleCl modeUsevere swell 'and/or loss 01 prop, recommended·lor use tmWM~,'ect-severe condo may causa change recommendea lor use
'8 23
8 8 6 6 6 4
Potassium Sulfite Producer Gas Propane 23
Propane Propionitrile Propyl Acetate
<10
l~tle/no·efle~kMYe(i.coM,::ma,Y:'R.a,~ •.:.c.hange . . recommendedliilliS,,: minor to moder. ellact
may cause. sl. visibleswelll10ss of prop. moder. 10 severe ;ellec,l unsatisfactOry tor use
2
. . .!!ol~u.\~~I.e'.l~f . ~.e.'Y.!!:.~
1
23
.... uiisail~(acioiYliirllse !!ot.SUi\~~!e'!.ot Service recommended tor· use
2; methyl butyl ketone
23
1
.
8
I-propanol
23,
•....•.••••••-"1..0••.•••••••.:
.
Propyl Nitrate
<10
·········~t:;········
6;· .
23 49
·'!W.(H9 effict,S8*~r,e ~~~~;m~Y$~~.~~ange " .
J;>i
Propylene
en
(FQ)
1I)~~~~us~sl.t~PI~~~Wi~sf!lIProp-
23
Potassium Cyanide
"'T1
unsalislactocy for use nol suitable for service minor to moder. effect
1~t1e/no·elfect·severecond:'·IJ)"y:·.cause
6 2
Potassium Cuprocyanide
Propylene Dichloride
Material Note
may cause sLvlsiblesw~lVIOSS of ~rop. recommended lor llse
2 1
23 23
Potassium Chloride
Propyl Acetate (No) Propyl Acetone Propyl Alcohol
Resistance Note
Change'
6
23
Pinene
Plating Solutions Pneumatic Service Potassium Acetate
S1r,ngml
6
H20
IPine Oil
% Retained Ten.s,.,e.l'Elongatlon·1 Hardness
2 1
23
t
.,p .,
I'C)
IPickling Solutions
;::l
0-
conc'ITemp'l Time
Volume
55
uns'a.tISfactotY."for lI~e' .
!;,:&~y£~~~!tlri~i~f;::;~~;:~r~p.:
A-I0 ; ............••, }•.• .o'
.
I Dow Corn. Silastic (FVMQ); molded & oven cured
~
Chemical Resistance - Fluorosilicone Rubber
00 C..:I
~
Chemical Resistance - Fluorosilicone Rubber
II (J)
CD ~
Reagent
Reagent Note /
I
1
hydraulic fluid; Monsanlo
'23
4 4
hydraulic fluid; Monsanto
23 23
Pydraul 230E
Pydraul 312C Pydraul 312E Pydraul50E
.(8 8
23:>•..•
hydraulic fluid; Monsanto hydraulic fluid; Monsanlo
23
1
23
8 ·····8
23
Transformer Oil, GE oil
23
pyranol
RJ 1; MIL-F-25558 B
4
23 23
8 8 8 8 8
23 MIL-H-5606
23
'"
;:l
t""
0: ..,
..,
i=l It::
<10
!1!l!~!n.?~ft~~M~l~~~cond.
1 '2
Pyrrole
cEo
<10
Iinsaiislaeioryfor USe not suitable for service unsatis"ctory for use not suitable for' serVice unsatisfac.tory tor use . moder.lsev~(e .... eJ!}n!l!°rl~ss()!RrOP· i1ijl'!M·;~!!~~I;MY~t'.~AA~;.m~i~M~~~ange . recommended ior use . nnlelno.. eflect-severe··S()nf';.ma,rP1W~~~Mnge .
2 23
R.i1
MIL-F-25558
RP 1
MIL-R-25576 MIL-H-25576 C
vinyl plastisol
23 24
t
7
23 23 _ _ 0_..1
150
23
8 8 .8 '8
8 It 8 It '8
ISalicYIII; ACla Salt Drln" Santicizer 141 Santosafe 300 Sea Water Sewage
lj!lWn~~It~S!j~~¥.~(~IAA~~;.ma~·~~AA~.;~Mnge
<10
1
Pyroligneous Acid
C1l
<10
2 23
't"l
<10
8 8 8 .8
Pydraul90E hydraulic fluid; Monsanlo
<10
2
~ :;
Pydraul65E
~
linlelno ellect-sev.i~.~nd_ may~a,use change not suitable. for service unsatist~tOryfoi use recomrpended'fo.r use tinlelno effect-severe co~d_ mar cause change . ullsatisfactory for. use not suitable I~r service recommended for use" li\1lelno effect-severe condo may cause change. recommended for use 'linlelno effect-sevele CCJnd. may,cause change·; ..,:" ... recommended for USe •
<10
8 '1
2
hydraulic fluid; Monsanlo
;::;.
"?
unsatisfactory lor use 'recol1lll1~l1diid for USe
8"
..
23 '·23
Pydraul 540C
p
llns~tisfactoty for use not $uit;lble for $arvice
1 1
·2
hydraulic fluid; Monsanto
'tl
Material Note (FO)
2
Pydraul 29 ELT Pydraul 29ELT Pydraul30E
RX 1099 Sal Ammoniac
Resistance Note
Change
2
23
t'yaraul115E
@
Sli.ngth
' ' ' .'
r-yuraUl10E
Red Oil
)·~~nslle Elongltlon Hardness
2
23·.•
Ramjet Fuel Rapeseed Oil
Volume
conc_ITemp_1 Time POL (%) ('C) (days) Rating
Propylene Oxide
Pyridine
~ge •..••. '.. % Retained
2.9
2 8 8 8
"~
<10
recommerid~lfloi
little/no effect-severe cond..may caus! change:
<10 5
use'
may cause change recCJmmended for ~se .,
A·5
Dow Corn. Silaslic (FVMO); molded & oven cured (FO)
<10
Dow Corn. Silastic (FVMO); molded & oven cured (FO)
@
'i:J
E" ~
.':
;:;. Cfl
tJ
Silicate Esters
~
Cfl
tEo ;:l
~
.,0.,>l
II::
".~~·~!~~;~~:.ri~i1T~~~~~~;~;rt~~:a~~~rf~;~ .---.---.-
Silicone Oils Silver Nitrate
Skydrol 7000 Soap
i2~
solvent B solvent C solvent E Monsanto; hydraulic fluid
4
Monsanto; hydraulic fluid
23".·
" ,4'
. : f ;..;::~
solutions
.8..,
iT, '8','~
.;B·
23'
.23
soda ash
mlleln';effeCI~~~~e;8'c,~nli: in;'f~a';se.cliange·
.~
<10
:IJli~I;;Oeti~Ct;~8V8(ll.C~~~:~lly.~a\iee~llang~~
'8
-
<10
...., ,': _....-;, "J" littlefnp efiee!l~,"ere eond. may c'au~e change'·
<10
~n,~i,~411;;~c,~;~;t~I~~~,~~~:;~~, . c,~~~e·.·
2~
,.::;,.
:.. ?
.....
"ieeomm,iided lo'use'
•i
'< tec,omme~ded.f9r'USe.
.~
6
24
7 7
2~,
'7
B
.,
~;::
0 0
:~.
g3~
Sodium Metaphosphate ,23
~3 _.-.. .~:
-
'~31
55 90
90 105
A·5 A·5
~~y'~~t~l~~!V~:,'~~~:;;~.··qt"P!9P;.·;j~ :;~i~/~.o~ri::.:~~r~~~~,l~lli~:~u:s~ ~Ing,j
·,C.,.
<10
.·.·8.····.•.·.·•·.
<10
:;"', " rec,omm:end~dIO!UUi> . ........,., litllelncieffect:s8vere cQnd: may'cjlln change
<10
r~le;:o e«~:S;t~~!:~t~~~:~~llchange
~
23
( J)
,;,,'
-
",. 8
23
"
n.ot sUi!!lbl, fot' ~ellli.c~ . ',ecommended lo(use"''-
;!I;;I~i~;~~~~;~;¢~~:~~;~a~:~~M'.~~Mge
23
Sodium Sulfide Sodium Sulfite
.
\ '.'
-
Sodium Cyanide
Sodium Salts Sodium Sulfate
.,'>';i,un's~\I!tacjo;YIPi};se;
<10
..
-:
.. :;
8
.... 'B
23
Sodium Borate
10 50
.;:
<10
-
ll··.,.
Sodium Bisulfite
Sodium Peroxide
(Fa)
,no . ' .
baking soda
Sodium Hydroxide
::.::;.::::;::
:~~f~IR9·rff~;I~~~~!::~~4.~a~:~~~~~ge
<10
23
Sodium Perborate
.;"
:W!!~!i~;~"~~t;s~ver$;co,n~; mayc~ue~~Mil$e·
<10
" 8'
23 23·
Sodium Hypochlorite
,~,
. . . . . }mooer.tO$8V~~!~~ect '.. ~~~.~!.J~e~~J~J ... ~II~#!~f!9~~ • 9!.·*9~' .•. )\. .;iiiM,,;tos8vei'· effect· " ";;;odeiJ~'v~!~ ~W.•II andtorloss 9,1 ~rop, .,. .•. ~... "~ml1l6ndedfo"use'·
:';1'23.
Sodium Acetate
Sodium Carbonate Sodium Chloride
"
.;,;~;e;;~~~~;:~.~~~lli~~~~~~e·:~~ge
<10
::~.
Soda Ash
Sodium Bicarbonate
'.
<1 0;inl;!.;I)'~~e~i:~~~8~~~Op,d,"'~ycau~e.~¥~ge
·Jl. i
Skydrol500
Mat~riaINote' "
<10
Silicone Greases
Skelly Solvent
. :::<:":,:; ~~,
·B···
;~
;:@8\i
"II.
.
v'rG?Ommeii}ledOlofUs'e'
·::B
..···,····';8,,/·'·
(Fa)
<10
li!!i.~m~:;;~t!1~~~~;~c,tri~~.mllY.I111!\$IlP~~~g,;
•.
;'ieel1 mm6iid8it°foiU¥e
B"}"
" .j:>.
Chemical Resistance - Fluorosilicone Rubber
ex>
01
.:>-
Chemical Resistance - Fluorosilicone Rubber
"'T1
en
~r
% Chang~ Reagent
Reagent Note
Conc. Temp. 'time" I""' PDL (cr.) eC) (days) Rating
I
I
Sodium Thiosulfate Soybean Oil 23
,.w,
\% Retained
I T.;",",s"I,,1 Elongation Stf~"gl~ .
Hardness'
!..8
<10
8
<10
Resistance Note
Material Note
recommended lor use may cause ch~nge; , iec6mmeOded·'or.usl Jim,!~q.~.'f~.~\;~,r.tlR9~~;m.y"c.\!~e •. c.~.nge· recommendedi6ruse'"
(FO)
qh~ng.f;;. IJl1I~m~e"!~t~,r!!~~9M,
(\
8
8' 23
Stannous Chloride aqueous 100
psi
-
white spirits monomer
l~n.m9~"~~k~'!Y%'!~~~~;m1!YF.~~$tt~nge
<10
'6
-
minor 19. m~er;lft.cl
"7
<149 >149 <177 >177
Stoddard Solvents
·······u'/·········
8 8
23
'lillii/no ellecl'severe c9nd. may cause change '. recommended lor use
<10
8 8
50
Styrene
" , ;,' . \
8'
fuel
aqueous
Stauffer 7700 Steam
0>
8
23
SR 10 SR 6 Stannic Chloride
Voluma ;/
CD
~.::'-'
1 1 ·2 2
o
23
8
23
4
A-5
-,
'. Dow Corn. Silastic (FVMO); molded & oven cured (FO)
urisatlsfactolylOr us.'
,
--' 8 '4
115
not suilable 101 $ervice
-
-
80
. recommended lor use t· . 1I111elno ellect-severe ~;'nd. may .cause c4nga '. modedo 'severe,lfeel
<10
4
Sucrose
solutions solution
-
23
8 6 6 6 4 8 8
23 liauors
23 23
@
dry Iiquidified; under pressure wet dry liquid moist
t"-
o:.., ..,
>l te
23
23
150 199 199
Sulfur Trioxide 23
Sulfuric Acid
<10
8
",
{. \'"tf .",\
minor to moder. ellect
6 6 6 8 6
may cause sl. visible swelUloss 01 prop.
",/.
oleum 3 molar concentrated dilute 20%
mincii10 mOdei.' effeCl may cause sl. visibla swIlVloss 01 prop.
6 1 2 3
recommendeiHoiuse •.....
~;~t1elno e~ect.seveie condo may cause change
<10
ii
~
;:l
2,3
23
E"
~ Vl tE·
,'.
Sulfur Hexafluoride
'1:l
n'Vl
<10
ii
Sulfur Chloride Sulfur Dioxide
moderlsevere sweU and/or loss 01 prop.
8'
9 9 .,9
6 8
'2 4 2 4
o o o
AD
Dow Corn. Silastic (FVMO); molded
A5
AS minor to mOdel. eftect may cause 51. vlslblesweWlossolllrop, unsalislactory lor use moder. to severe ellecl un,satisfaClory lor USB moder. to $eter~c~Jjecl
(FO)
& oven
cured
@
"1:l
S" ~ C:;' Vl
tl
., ..
Reagent Sulfuric Acid
~
Vl
tEo
ReagentNote
~
..,0-
..,>:l
('Jl,)
eC)
50 50 95
23 23 23 24 65 24
20% oleum concentrated dilute
;J
concentrated
Tab Concentrate
24
<.c::
24 24
Tannic Acid Tar
POL
Conc.• Temp. Time' (days),
% Change
% Retaln'ed
Volu.me
Tensile Elongation 'Strength
RatIng
Hardness .Change
I
Resistance Note not suiteble for service
. Material Note (FQ)
moderJsevere swell and/or loss 01 prop. 3 3 7
0 0
95 65
95 85
A5
1 28 60
0 0 0
95 100 90
105 110 95
AO AO AD
Dow Corn. Silastic (FVMQ); molded & oven cured
AO
decomposed
10
(FQ)
bituminous
23
<10
liUle/no elfect,s,ever, c,~nd. ma.y cause ch
<10
\\JlI~!r9~~~~!;~~1(il.re.condo may cause change
Tartaric Acid TOI Terpineol
I
recoll1\nended lor use toluene diisocyanate
..
.·.·?~i····
:::.;
[1nl~!r9• ~,!~~:;;;*'~I~,f~iiS;~HM . ~Mnge
<10
23
Tetrabromoethane Tetrabromomethane
riat SU@§Ill!farsllrvicll
iiMY§~~~'~!;i~i!l'~.·~~~lr!!M~#f#[9P
23
... . ....
mlrior ioiiiOdlli:
lllj~~i
'-;:'-.
may cause. sl. visible.swelfllossotprop•• recommended.for use ./ little/no effect·severe cond. ma~ cauS$ ch~nge' minor 10' moder; el'ect· .,
23
Tetrabutyl Titanate <10
Tetrachloroethylene
may.caus~~l,.1(~\Il!!-!1!~IY'~~~P!P[9P'
Tetraethyllead
blend
. miriortoIilOdei:e!lecC' unsatislactory' lor use may cause sl. visible swelUloss 01 prop.. . riotsuiiiiblelarservicll'
23
Tetrahydrofuran
23 25
letramethylene oxide
1
170
Tetra lin
8 tetrahydronaphthalene, Dupont
23
8
Texamatic Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Titanium Tetrachloride TNT Toluene Toluene Oiisocyanate Toluene Oiisocyanide Transformer Oils
TOI
,.
23 24 23'
7 :./
Pyranol
-n
en
may cause sl. vislbla swelUloss 01 prop.
" minor to moder. 'effect may cause sl. visible swelUloss of prop. 20
50
65
A·10
':,115 ..
3
9
Dow Corn. Silastic (FVMQ); molded & oven cured no!:Sultable"ioiseiViCii" u~~p.!is(actory l~r use
(FQ)
'. recommended lor use
e
·····'8··
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
minor to moder. aflect
8.. 23
Inerteen (Westinghouse) • chlorinated
6 6 6 4 1 2
iecomme"dedloiusll
!mWrgeUect.saverecond,maycause;~~.~rge
<10
6 6 6 6 6 6
23. 23
trinitrotoluene
'
<10 5
"
little/no effec~·sever~ condo may -cause ch\lIige 85
100
AO
Dow Corn. Silastic (FVMQ); molded & oven cured
.j:>.
Chemical Resistance - Fluorosilicone Rubber
CD
---J
~
Chemical Resistance - Fluorosilicone Rubber
."
00 00
(J)
·1 ~eagen!
Transformer Oils
Reagent Note Univolt 35 Wemco
Transmission Fluids
r
'~'~~c~a~g~:'i;~~ei~'!Q;~~: . . \
.... .
c~c. T~.~r·~iE~~~~3~~~~~i=:l~~~fan~allO~ '~~~~h~:r •. • 150.
3 '
c017i.
MObilgt::~;t::~:ype
•.
9
·,~t
3
90
100
AD
80
105
A-5 ;\
<~
GM Hydramatic Fluid (type A)
0
5
)\;~~;'
75
85
90
95
<':::~:::~t!'~::,~t:;;N;):
~~~:
AoU~I~{~6e"e;~~~;t!~t~~~~i:i~f~ji~~:~'h:~ge,
Dow Corn. Silaslic (FVMQ); molded & oven cured
A-5
-.J",.;;';,,' ·)b, "";' t· . ; .
i , ; jtll~~;i;~i1f;1l;!~t~;i;'~j~1\ <.:
2$ " . '
Triaryl Phosphate
5 10
A
Tex::;~~~~~~:aco
Triacetin
....'
"
(F~)
;<';'T~y,~~~~~i;).I:;~~~~:1.:i0;~~~i~iJp:;
·;);ij"l••.; !~::~ . .; ·?:~~~·f~:~~i~t::~~,W!~:fJ1d~F~:·tl~~:;; . {;hF'fu9~~;Js;i~~~~~i\;'i!~il~~~~t~t9P';
Tributoxyethyl Phosphate Tributyl Mercaptan Tributyl Phosphate
;:;i;.·1;.;.:).:~~s~:t:~i!j~~¥~~t:~:1;
'23.:':
;1;~m1\j
Trichloroacetic Acid 23
;.?;;'~
(,0; . .•·:~$~:r~i!;zf;rNi~
ii;:,' ',;,T~ii
Trich loroethane
\, "
t,I.1-trichloroethane
Trichloroethylene
50 50
:l:~: ;~
A-15 A-15
(FQ)
..
23,
·}'2.4'····
1
49· . ·
5
25 20
TEA
Trifluoroethane Trinitrotoluene Trioctyl Phosphate
mino(lo'mode"'effect ~:.".
~
Tung Oil Turbine Oil
~
Turpentine
'"
s:... ... ~
<.c::
60 60
75 65
:"
,
;
.1::·
A-l0 A-l0
Dow Corn. Silaslic (FVMQ); molded & oven cured
china wood oil
(FQ)
#15; MIL-L-780aA #35
;:s
to'
20 20
3 3
.:,::.;::.
(FQ)
solpro.p.
'.....0'"
to· '"
"";/::_:::~:'-
.~,~t.::·:
''X
TT-S-735 Type VII ~
Dow Corn. Silaslic (FVMQ); molded & oven cured
: .', >~~~:J::l,~~?ttrlf;~Ji~]:"
~.
Triethanolamine
"
A- 10 A-l0
Tricresyl Phosphate
@
Dow Corn. Silaslic (FVMQ); molded & oven cured
0.67
Ucon 50HB100 Ucon 50HB260
lubricant
~djor;'se {
,
"i~ir: "
230
/..: Dow Corn. Silastic (FVMQ); molded & oven cured (FQ)
@
'il
S" ~
Reagent
I' poL) (daysj
Reagent Note
Time
r:;'
't"l '"
Ucon SOHB280X
(1)
~.
;:l
~
.,0., ~
u::
Ucon SOHBS100 Ucon SOHBSS Ucon SOHB660 Ucon Hydrolube J4 Ucon LB114S Ucon LB13S Ucon LB28S Ucon LB300 Ucon LB38S Ucon LB400X Ucon LB62S Ucon LB6S UDMH Unsymmetrical Dimethvlhvdrazine Varnish
oil; polyacrylonilrile glycol derivative lubricanl
~ating
%~Change Volume
Tensile
Sire~9ih
8
Material Note
recommended f6r use
(FQ)
8' 8 :6·,'
~'.
lubricanl
:;;
minor 10··modeL.effect recommended lor use
'8
.8 8
.•
8 oil
..
'.
8
'8
8 lubricant unsymmelrical dimelhyl hydrazine unsymmetrical (UDMH)
· nOI~suilable
23
jors~rvlce
~nsatj~f~Ciory;~; Use ' ,..
,"
· minor 10 mOdeii'effec:t . may cause sl. ~~~!~~W~liiiQSS oiprop_ · recommended' lor use" ,r
Vegetable Oils <10
!!!1IMrg~ffM!;~~e(eQl'g\!'mID' ca¥se~~inge'
<10
tinlel,no elfeCI-s$vere condo mi;; ~au~e, C~ailge;
recommendildforus9· .., '
Versilube Versilube FSO Vinegar Water
Resistance Note
rppder. Se~e['~~'Ci;, modeUsev,ere swell. ali(l!@loss·of·prop.
to
',','.:.'
r"c~,m",~nd~d for ilse
drinking sail water
;'::~.
"
~ ~.
u·
cold
Whiskey
1~lIe/lio.etle~l-se~erecond;:may ceusechinge
<10
23 100 150'
3 2.9
o
AO
o
A-5
& wines
scotch
5
o 5
85 85 65
105 115 85
AO
Dow Corn. Silastic (FVMQ); molded & oven cured (FQ) Dow Corn. Silasfic (FVMQ); molded & oven cured
A-5 A-5
White Oil
(FQ)
<10
Wolmar Salt Wood Oil Xenon
"Tl
en
~
Chemical Resistance - Fluorosilicone Rubber
00
<0
~
Chemical Resistance - Fluorosilicone Rubber
"'TI
(f)
co
C)
Reagent Note
IReagent I··
Xylene Xylol
Xylidine
23 24 24 23
Zeolites 23
Zinc Acetate Zinc Chloride 23'··
Zinc Salts Zinc Sulfate 23
'"
po ~
n'V> ?? V>
IQ' ;:l
t'"
0: ..,
..,
~
tt::
3 7
4 4
% Retalne~
Te~s. •.iJe. ·1·Elongauon··1 Hardness.1
St~M~lh
20 20
55 45
Resistance Note
Material N!>te
recomm
(FO)
Change •.
<10
1 8 8
65 60
Dow Corn. Silastic (FVMO);
A-tO
A·l0
unsati~!*f!9o/ lor use nOlsuii~~i~Mr service recomm~g~ellf(liu~~{
<10
2 23
@
8 8
Volume
2
mixed aromatic amines
di-methyl aniline
% change
I
conC'ITemp'l Time POL I (%) (Oc) (~aY$) Rating
1 8 8 B·';;. 8 8
<10
<10
lillle!no
(FO)
.
.
el!~~I-sever~*hnd may£~~~~t~ilnge •
un~il\~!~elpiY·(oiuse ...........•.....~. noi~@ilble(or service re~ommended lor ~se lillle!no e.!fecl-sev.ere condo may'cause change recomnieri~ed lor use
wnelRC\effeBhMWeFl1Rd, may cause c~ange
mol~e~
& oven
cured
491
Chemical Resistance - Styrene Butadiene Rubber
Acetaldehyde Acetamide Acetic Acid
unsatisfactory for use '2
glacial
4
5
6"
30
6 .' '
Ammonium Ammonium Ammonium Ammonium Ammonium Ammonium
Carbonate Chloride Hydroxide Nitrate Nitrite Persulfate
unsatisfactory for use minor to model. effect unsatisfactory for use
2
"'.:,
minor to moder. effect unsatisfactory for use moder. to severe effect minor to model. effect unsatisfactory for use
\.6. 2 4 6 2
Aero Lubriplate
<167
•
2 2 '., 2:·· /: 2,
denatured
recommended for use unsatisfactory for use recommended for use minor to model. effect recommended for use
8 2 8
6 8·
8 \:
8
...........'.' :;. mixed lactams
:"
6 ~.••.••. ; . '
\..: .>
minor to moder. effect unsatisfactory lor use recommended for use unsatisfactory for use
cold hot liquid
recommended for use
8 .8 2
concentrated
unsatisfactory for use recommended for use
8 solution
10
Ammonium Phosphate
2
6 2···..
,.,2,>;
>167
Alcohols Alkazene Alum Aluminum Acetate Aluminum Bromide Aluminum Chloride Aluminum Fluoride Aluminum Nitrate Aluminum Phosphate Aluminum Salts Aluminum Sulfate Amines Amino Acids Ammonia
moder. to severe effect minor to moder. effect unsatisfactory for use minor to moder. effect
. 6 2
hot, high pressure
Acetic Anhydride Acetone Acetophenone Acetyl Chloride Acetylacetone Acetylene Acetylene Tetrabromlde Acrylonitrile Adipic Acid Aerolube Aerosafe 2300 Aerosafe 2300W Air
..'
6.
,
2
..
.::.2'"
,,":
.8 ••...•
dibasic
unsatisfactory for use recommended for use
mono·basic tribasic
Ammonium Salts Ammonium Sulfate Ammonium Sulfide Amyl Acetate Amyl Alcohol Amyl Borate Amyl Chloride Amyl Chloronaphthalene Amyl Naphthalene Anderol L744 Anderol L826 Anderol L829 Aniline Aniline Hydrochloride Animal Fats
.•.•.8 :"6
minor to model. effect
, 6 :, .. 2
,,' ':'..1;" ''-' ;...•;
...
unsatisfactory for use
~ 2
2 2
di·ester
,:.;.:
2 .....:•.•.:•. 2 . ,. minor to model. effect unsatisfactory for use
dyes oils
moder. to severe effect lard
i
,.2.
••••••:.·.• 2· .:..
Animal Oils
© Plastics Design Library
unsatisfactory for use minor to model. effect
lard oil
unsatisfactory for use
. ',
, ," 2 :'.:'.
SBR
492
Chemical Resistance - Styrene Butadiene Rubber
Ansul's Ether Antifreeze Aqua Regia Argon Aroclor 1248 Aroclor 1254 Aroclor 1260 Arsenic Acid Askarel Asphalt ASTM Oil No.1 ASTM Oil No.2 ASTM Oil No.3 ASTM Oil No.4 ASTM Reference Fuel A ASTM Reference Fuel B ASTM Reference Fuel C Barium Chloride Barium Hydroxide Barium Salts Barium Sulfate Barium Sulfide Beer Beet Sugar Liquors Benzaldehyde Benzene Benzenesulfonlc Acid Benzochloride Benzoic Acid Benzophenone Benzyl Alcohol Benzyl Benzoate Benzyl Chloride Blast Furnace Gas Bleach Borax Bordeaux Boric Acid Brake Fluids
Bromine Bromine Pentafluorlde Bromine Trifluoride Bromobenzene Butadiene Butane Butene Butter Butyl Acetate Butyl Acetyl Ricinoleate Butyl Acrylate Butyl Alcohol Butyl Alcohol (tert·) Butyl Benzoate Butyl Butyrate Butyl Carbltol Butyl Catechol (tert·) Butyl Cellosolve Butyl Ether Butyl Mercaptan (tert·) Butyl Oleate Butyl Stearate Butylamine Butylene
SBR
Prestone
unsatisfactory for use recommended for use unsatisfactory for use
recommended for use unsatisfactory for use
recommended lor use
minor to moder. effect recommended for use
unsetisfactory for use
solutions minor to moder. effect mixture recommended for use automotive Delco Giriing Mopar non·petroleum Wagner 218 unsatisfactory for use
mono bromobenzene
2·Ethyl
butanoi
recommended for use minor to moder. effect unsatisfactory for use
moder. to severe effect unsatisfactory for use
© Plastics Design Library
493
Chemical Resistance - Styrene Butadiene Rubber . , .., .... .,.......
.'
" Reagent Butyraldehyde Butyric Acid Calcium Acetate Calcium Bisulfite Calcium Carbonate Calcium Chloride Calcium Cyanide Calcium Hydroxide Calcium Hypochloride Calcium Hypochlorite Calcium Nitrate Calcium Phosphate Calcium Salts Calcium Silicate Calcium Sulfide Calcium Sulfite Calcium Thiosulfate Ca Iiche Liquors Cane Sugar Liquors Caproic Aldehyde Carbamate Carbitol Carbolic Acid Carbon Dioxide Carbon Disulfide Carbon Monoxide Carbon Tetrachloride Carbonic Acid Castor Oil Cellosolve Cellosolve Acetate Cellulube 150 Cellulube 220 Cellutherm 2505A Cetane Chlordane Chlorinated Solvents Chlorine Chlorine Dioxide Chlorine Trifluoride Chloroacetic Acid Chloroacetone Chlorobenzene
Reagent 'Note
Conc.
·Temp.
(%)
C'c)
POL Rating
Resistance:Nol!l
2 -2
unsalisfaclory for use
2 2
:;,
"
.,:8
i
8
'"
8 8 2 2
6
" "
8
recommended for use
;
8 6
"
. ,
minor to moder. effect unsalislaclory for use minor to moder. effect unsatisfactory for use
..
minor to mode.. effect
2-
,
hexadecane dry wet
6
"
2 6 2 6 8"
unsatisfactory for use minor to moder. effect unsatisfactory for use minor to mode.. effect recommended for use
2·"'2 2 2 2 2 2
unsatisfactory for use
"
" " " "
"
2; . '\ 2 2 2 2 2· ,
dry weI
.~
8% CI as NACI02 in solution
mono mono chlorobenzene
..
2< 2 2
" " "
"
2 2. 2_
" " " "
2
"
••••••••• 2
1-chloro 1-nitro ethane
,
'2
2
aqueous solution
0.88
.~
.
'.'
"
8
recommended for use unsatisfactory for use
.",,2
_.
"
.,;
recommended lor use unsatisfactory for use recommended for use
8
8
Coconut Oil Cod Liver 011 Coffee Coke Oven Gas
© Plastics Design Library
" " "
2
8 2 2N
" " "
-2 ,.
" " " " "
2 2'
",'2
Chlorobromomethane Chlorobutadiene Chlorododecane Chloroform Chloronaphthalene (0-) Chloronitroethane Chlorophenol (0-) Chlorosulfonic Acid Chlorotoluene Chrome Alum Chromic Oxide Chromic Acid Citric Acid Clorox Cobalt Chloride
" " "
minor to moder. effect
6
,
recommended for use
" " "
6
.
" " "
"
8'
'
.;
recommended for use
8
dry wet
~x~'
unsatisfactory for use
8 8
6 2 6
>
' .
2 ,.
"
;
unsatisfactory for use
2 8 2 _ ,:
recommended for use unsatisfactory for use
"
SBR
494
Chemical Resistance - Styrene Butadiene Rubber ..
Reagent
,>
PDL"»' "").
.' Rat,'ng'" ,., ·,';r..' Coolanol Coolanol45 Copper Acetate Copper Chloride Copper Cyanide Copper Salts Copper Sulfate
Monsanto
2 2 2 8'
, 10 50
Corn Oil Collonseed Oil Creosols Creosote
Creosylic Acid Crude Oils Cumene CUlling Fluids Cyclohexane Cyclohexanol Cyclohexanone Cymene (p-) Decalln Decane Detergents Developing Fluids Dextron Diacetone Diacetone Alcohol Dlazinon Dibenzyl Ether Dibenzyl Sebacate Dibromoethylbenzene Dibutyl Ether Dibutyl Phthalate Dibutyl Sebacate Dibutylamine Dichlorobenzene (0-) Dichlorobenzene (p-) Dichlorobutane Dichloroisopropyl Ether Dicyclohexylamlne Diesel Fuels Diethyl Benzene Diethyl Ether Diethyl Sebacate Diethylamine Diethylene Glycol Difluorodibromomethane Dilsobutylene Diisooctyl Sebacate Diisopropyl Benzene Diisopropyl Ketone Dimethyl Phthalate Dimethylanlllne Dimethylformamide Dinitrotoluene Dioctyl Phthalate Dioctyl Sebacate Dioxane Dioxolane Dipentene Diphenyl Diphenyl Oxide Dow Corning 11 Dow Corning 200 Dow Corning 220 Dow Corning 33
SBR
unsatisfactory for use
:
coallar wood
recommended for use
8·" 8
6 6 6
minor to modeL effect
2 2 2
unsatisfactory for use
2
2
cutting oil
2
,
2 2 2 2 2
,
2 2
•••
solutions photo
~
,
minor to moder. effect
6
6 unsatisfactory for use
2 2 >2
2 2. 2 .....
'....
~
........•..
2' ,. ",·"2 2 2 2 .. 2 2 2 2
diesel oil
2 2 2 B 2 2
recommended for use unsatisfactory for use
2, 2 2. 2 2 2
2. 2 2 2
2 2
2 2
2 2
B B 8
recommended for use
A' ,
© Plastics Design Library
495
Chemical Resistance - Styrene Butadiene Rubber
Reagent
.~
..
. . . Conc• .:'?.
Dow Corning 4 Dow Corning 5 Dow Corning 510 Dow Corning 55 Dow Corning 550 Dow Corning 710 Dowtherm Dowtherm A Dry Cleaning Fluids Eplchlorohydrin Ethane Ethanol Ethanolamine Ethers Ethyl Acetate Ethyl Acetoacetate Ethyl Acrylate Ethyl Acrylic Acid Ethyl Alcohol Ethyl Benzene Ethyl Benzoate Ethyl Cellosolve Ethyl Cellulose Ethyl Chloride Ethyl Chlorocarbonate Ethyl Chloroformate Ethyl Ether Ethyl Formate Ethyl Hexyl Alcohol Ethyl Mercaptan Ethyl Oxalate Ethyl Pentachlorobenzene Ethyl Silicate Ethylcyclopentane Ethylene Chloride Ethylene Chlorohydrin Ethylene Dibromlde Ethylene Dichloride Ethylene Glycol Ethylene Oxide Ethylene Trichloride Ethylenediamine Ethylmorphollne Stannous Octoate Fatty Acids Ferric Chloride Ferric Nitrate Ferric Sulfate Fluoborlc Acid Fluorobenzene Fluorolube Formaldehyde Formic Acid Freon 11 Freon 112 Freon 113 Freon 114 Freon 114B2 Freon 115 Freon 12 Freon 13 Freon 13B1 Freon 14 Freon 142B Freon 152A Freon 21 Freon 218 Freon 22 Freon 31 Freon 32
© Plastics Design Library
1%)
Temp. I'C)
oil
unsatisfactory for use
mono ethanolamine
minor to modeL effect
recommended for use
unsatisfactory for use organic ester modeL to severe effeci unsatisfactory for use recommended for use unsatisfactory for use
minor to modeL effect unsatisfactory for use
recommended for use unsatisfactory for use
minor to moder. effect unsatisfactory for use minor to modeL effect unsatisfactory for use recommended for use unsatisfactory for use
with 50% stannous octoate
50
minor to moder. effect unsatisfactory for use recommended for use
unsatisfactory for use moder. to severe effect recommended for use unsatisfactory for use minor to moder. effect recommended for use unsatisfactory for use recommended for use
unsatisfacfory for use recommended for use minor to modeL effect recommended for use
SBR
496
Chemical Resistance - Styrene Butadiene Rubber .,
Reagent ~
. ) ..,
-'.
, .,
....
'.
Freon 502 Freon SF Freon C316 Freon C318 Freon MF Freon TA Freon TC Freon TF Freon TMC Freon TP35 Freon TW0602 Fuel Oils
.
{
,
.
,
~.~
Rllagent Note ,.
.. ....", ',,,,
. ,.".
" ,'i" .,.'
I;~on~, (%}
.
. . ,'. '
./"
Temp. I> POL ('C)
...
,'Rating
"'1
8 ~2~·
',.
,
8
-::~,~. 2.
unsatisfactory for use
8·
/
"
4
moder. to severe eUect recommended for use minor to moder. etfect
6 ,'." "'~,2
unsatisfactory for use .~>
".2 .,.
" "
Green Sulfate Liquor Halothane Halowax Oil Helium Heptane Hexaldehyde Hexane Hexyl Alcohol HEF 2 Houghto Safe 271 Houghto Safe 620 Hydraulic Fluids Hydraulic Oils
2 2
SBR
minor to moder. eUecl unsalis factory lor use
2
Texaco 3450
:~.
" " "
'2 8
recommended for use unsatisfactory for use recommended for use
2 8 8 .,.,8
glycerol
"
"
8.'< Keystone #87HX light grease Shell Alvania *2 Sunoco; all purpose
"
· '2
'"
unsatisfactory for use
2·
." ....,.
"
2
"
2 6'
'.
" minor to moder. eUect unsatisfactory for use
.2 '2 8 .-.'.2· ,2
N,Heptane N·Hexaldehyde ,.
N·Hexane·t
" recommended for use unsatisfactory for use
"
.2
,
2,
" 'co
"
'8
recommended for use unsatisfactory for use recommended lor use
'.. 2,
high energy fuel water & glycol base
':8 ., ·8 2,
" Sunsafe; fire resistant Univis 40
.~:::
.,
petroleum base PRl·high temperature
i
I
2
"
2',,"',
)2",
" "
8.
recommended for use minor to moder. eUect unsatisfactory for use
;,2 2 '2
" saturated 3 molar concentrated cold hot
37 37
cold hot cold hot
<65 <65 >65 >65
" .2,*,,':':""
" "
4
moder. to severe effect unsatisfactory for use minor to moder. eUect unsatisfactory for use
.'
::,.
2~,
· 6',..· ',,6 " '2
minor to moder. eUect
2 , 2"
" "
..
-:~
"
2",."
6
::', ~:.
" "
..:,:'2. L:. :<.
,
" unsatisfactory for use
6
petroleum base
40
Hydrocyanic Acid Hydrofluoric Acid
"
6 2. 2
.;. .,..:
Hydrocarbons Hydrochloric Acid
"
ll,. '.'
Hydrazine Hydro-Drive MIH 10 Hydro-Drive MIH 50 Hydrobromic Acid
" " " "
2 .:>
.,
Gear Oils Gelatin Glaubers Salt Glucose Glues Glycerin Glycols Greases
recommended lor use unsatisfactory for use
8 2 2 2
Esso Golden super Shell
".".".,
recommended for use minor to moder. eUect
8
furluran
,. ~;.
"
.": i(' Fumaric Acid Furan Furfural Furfuraldehyde Furfuryl Alcohol Furyl Carbinol Fyrquel150 Fyrquel220 Gallic Acid Gasoline
Resistance Note ,.,:, recommended for use unsatisfactory for use recommended for use
::..
· '6 ..,.,6
#6 acidic
.F?
"
.,
" unsatisfactory for use
© Plastics Design Library
497 Chemical Resistance - Styrene Butadiene Rubber
;-. ~:
RJjgent···· ;-<:;..;:::,.' "
.
:.}:.
."
Hydrofluosllicic Acid Hydrogen
minor to moder. effect gas, cold gas, hot
Hydrogen Fluoride Hydrogen Peroxide
anhydrous
Hydrogen Sulfide
dry, cold dry, hot wet, cold wet, hot
unsatisfactory for use minor to moder. effect unsatisfactory for use
90
Hydroquinone Hydyne Hypochlorous Acid Hypoid SAE 90 Iodine Iodine Pentafluoride Isobutyl Alcohol Isobutyl N·Butyrate Isododecane Isooctane Isophorone Isopropyl Acetate Isopropyl Alcohol Isopropyl Chloride Isopropyl Ether Kerosine Lacquer Thinners Lacquers Lactic Acid Lavender 011 Lead Acetate Lead Nitrate Lead Sulfa mate Li ht 011 Llgroin Lime Bleach Lime Sulfur Lindol Linoleic Acid Linseed Oil Liquid Petroleum Gas Llquimoly Lubricants LUbricating Oils
Lye Magnesium Chloride Magnesium Hydroxide Magnesium Salts Magnesium Sulfate Magnesium Sulfite Malathion Maleic Acid Maleic Anhydride Malle Acid Mercuric Chloride Mercury Mesityl Oxide Methane
© Plastics Design Library
recommended lor use unsatisfactory for use
minor to moder. effect unsatisfactory for use Swan Finch minor to moder. effect unsatistactory for use minor to moder. effect unsatisfactory for use :.: f"-.,:.-
ketone minor to moder. effect unsatisfactory for use
cold hot
recommended for use unsatistacfory for use recommended for use unsatisfactory for use
DIE
recommended for use minor to moder. effect unsalis factory for use
petroleum ether of benzene recommended for use unsatistactory for use hydraulic fiuid; phosphafe ester type
LPG H2; high viscosity U4; high viscosity
recommended for use
di-ester petroleum base SAE 10 SAE 20 SAE 30 SAE 40 SAE 50
unsatisfactory for use
solutions
minor to moder. effect recommended for use minor to moder. effect recommended for use minor to moder. effect unsatisfactory for use
minor to moder. effect recommended for use vapors ketone
unsatisfactory for use
SBR
498
Chemical Resistance - Styrene Butadiene Rubber
· "'.,.",.")
~.' · ~(· · .mC' .••,'.T.·, •.
Methyl Methyl Methyl Methyl
Acetate Acrylate Acrylic Acid Alcohol
•.,·.)""
.
poL . i""". ·""",""/i· i; ,~~sist~ric~.~,~~~':.:i "'.", ' .... v.
..,.
.~ailng-t'
'2 2
unsatisfactory for use
2 '8
methanol
recommended for use
e Methyl Methyl Methyl Methyl Methyl Methyl Methyl Methyl Methyl Methyl
Benzoate Butyl Ketone Carbonate Cellosolve Cellulose Chloride Chloroformate Cyclopentane D-Bromide Ether
2
2 2
"'~',."
minor to moder. effect
,:."., 2."" .':'.'
unsatisfactory for use
''':'''2',
2 2
I monomethyl elher
minor to modeL effect recommended for use
6'
8
Methyl Ethyl Ketone Methyl Ethyl Ketone Peroxide Methyl Formate Methyl Isobutyl Ketone Methyl Isopropyl Ketone Methyl Methacrylate Methyl Oleate Methylanlllne Methylene Chloride Methylene Dichloride Methylhydrazlne Milk Minerai Oils
unsatisfactory for use
2
"
MEK
unsatisfactory for use
MIBK
monomethyl aniline
monomethyl hydrazine
minor to moder. effect recommended for use
Univolt #35
2
unsatisfactory for use
'. 2
Motor Oils Naphtha Naphthalene Naphthenic Acids Natural Gas Neats Foot 011 Neon Neville Acid Nickel Acetate Nickel Chloride Nickel Salts Nickel Sulfate Niter Cake Nitric Acid
Nitrobenzene Nitroethane Nitrogen Nitromethane Nltropropane Nltrotoluene Octachlorotoluene Octadecane Octane Octyl Alcohol Oleic Acid Oleum Olive 011 Oronlte 8200 Oronite 8515 Orthochloroethylbenzene Orthodlchlorobenzene OS 45 OS 45-1 OS 70
SBR
2 2 2
Esso
2 4
mOdeL to severe effect
2 8 '·2. '2
unsalis factory for use recommended for use unsatisfaclory for use
8""" e , 6" 8 3 molar concentraled dilute inhibited red fuming; IRFNA red fuming; RFNA
2. 2 2 2 2
recommended for use
minor to modeL effect recommended for use unsatisfactory for use
[ minor to modeL effect unsatisfactory for use recommended for use
lexlroxide N204. 1
moder. to severe effect unsatisfactory for use with 60% dinitrotoluene
40
'.,' "'2 ;'2 •. >.
N-Octane
2
j'T ": ' ;
minor to moder. effect unsatisfactory for use
fuming sulfuric acid spirits
.
~'<: .' '·2
".".£; ""'2' ". OS 45 type fff OS 45 type IV
2 2
2 .'
© Plastics Design Library
499
Chemical Resistance - Styrene Butadiene Rubber >:
.::
-:: :,
Reagent
-,;.
:~.
"
.. ,
,
,-
,.
,
'.
Oxalic Acid Oxygen Ozone Paint Thinners Palmitic Acid Peanut 011 Pentane (No) Perchloric Acid Perchloroethylene Petroleum Oil
::.".,
:,:ij:~.:~J~:;~~".
·i:·:··~::
,
. 1(;;
i
. CQn~;' '......,,(%)
•
cold liquid cold
...
POL} / . Ratliig .. '
. Y;mp. (Oc)
:
unsatisfactory for use
2 2
" "
6
minor to moder. effect unsatisfactory for use moder. to severe effect unsatisfactory for use
,;'2
85
Pinene Piperidine Plating Solutions Pneumatic Service Potassium Acetate Potassium Chloride Potassium Cuprocyanide Potassium Cyanide Potassium Dichromate Potassium Hydroxide Potassium Nitrate Potassium Salts Potassium Sulfate Potassium Sulfite Producer Gas Propane Propane Propionitrlle Propyl Acetate Propyl Acetate (N-) Propyl Alcohol Propyl Nitrate Propylene Propylene Oxide Pydraul10E Pydraul115E Pydraul 230E Pydraul 29ELT Pydraul30E Pydraul312E Pydraul50E Pydraul 540C Pydraul65E Pydraul90E Pyranol Pyridine Pyroligneous Acid Pyrrole
© Plastics Design Library
"
2 2
" " "
'.
" "
2
"
2 6 2 6 2 4
3 molar concentrated 20 45
Pine Oil
"
2
2 2 2.
70
" minor to moder. effect unsatisfactory for use minor to moder. effect unsatisfactory for use moder. to severe effect unsatisfactory for use
:i' ':·2
H20 solution molten
" "
2'
.".,
white
6' 8
minor to moder. effect
2
unsatisfactory for use
2
" " " "
"
2 2 chrome others
2
~.
a
recommended tor use
2
unsatisfactory for use
2 8 8 '<8
" recommended for use
,.
,
minor to moder. effect
a
recommended for use
"
8
"
(\
minor to moder. effect
" unsatisfactory for use
" " ','.
,
~.' 8. 2 2 2 2
.'~'2: ..
2 ·2 2·
2 2 2 ';:;2 ,;;::
:.
2 ·2 2
"
" " recommended for use unsatisfactory for use
2
oil
"
"
·.'6 6
6 2 2 2 2
.'>:
"
·,4
crude
Yi;1
"
2'
Phenol
Phosphorous Trichloride Pickling Solutions Picric Acid
":':':'"
2 ·2" 2
<121 >121
Phenyl Benzene Phenylethyl Ether Phenylhydrazine Phorone Phosphoric Acid
.:/
.'....
minor to moder. effect
Duco
with 30% H2O with 15% H2O
';;
,,8 .. , :
93-149
.'.
...~,;:.=~jC:S:;i;~~f:;,F~
..~
.;~
..
'
" " " "
" " " " " " "
" " " " moder. to severe effect
SBR
500
Chemical Resistance - Styrene Butadiene Rubber .'...
,.
Reagent
,.
,
Rapeseed Oil Red 011 RJ 1 RP 1 Sal Ammoniac Salicylic Acid Salt Brine Santosafe 300 Sewage Silicate Esters Silicone Greases Silicone Oils Silver Nitrate Skelly Solvent Skydrol 500 Skydrol7000 Soap Soda Ash Sodium Acetate Sodium Bicarbonate Sodium Bisulfite Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide Sodium Hydroxide Sodium Hypochlorite Sodium Metaphosphate Sodium Nitrate Sodium Perborate Sodium Peroxide Sodium Phosphate Sodium Salts Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Soybean Oil SR 10 SR 6 Stannic Chloride
".
.". . .':
.
:":':':{:":'
",'
\.:
I!#'
·'<2'
I· ''." I~i;i\< ;I·', .'.." I : ./.:, . . , '. Cone' Temp: PDl.? .
iii
~8'ag~nt Note
::.;' "
.•..
"('1{
" " "
2 8 8 2 2 6 2 8 '::". 8'
recommended for use minor to moder. effect unsatisfactory for use
" minor to moder. effect unsatisfactory for use recommended for use
" "
Le solvent B solvent C solvent E
unsatisfactory for use
2
",,:..~
" " " "
.,. 2 2
solutions
2 6
baking soda
8 2 2,.
minor to moder. effect recommended for use unsatisfactory for use
"
e soda ash
, /
'ft'
6 8 8 8 8 4 8 .6 6·.'····
recommended for use minor to moder. effect recommended for use
" .~:
~::'1
..
.,
e 8
e'
fuel
"
2
"
"
" " " "
recommended for use
>177
2 "", "."",
Sulfur Hexafluoride Sulfur Trioxide Sulfuric Acid
SBR
solutions liquors molten
2· ",., 2
unsatisfactory for use
minor to moder. effect unsatisfactory for use
" "
e.,
recommended for use minor to moder. effect
6."" 6,
"
2
unsatisfactory for use
."., 2 ?
" "
,4,.
'2 6,
i}'
." :"; ~ '
moder. to severe effect unsatisfactory for use minor to moder. effect unsatisfactory for use
'.2,. 20% oleum 3 molar concentrated
" " "
"i' 2.'dry liQuidified; under pressure wet
<
"
6 .. monomer
unsatisfactory for use
~
e·
'.2
" " " minor to moder. effect
.... 8 8 2 . <177
moder. to severe effect recommended for use minor to moder. effect
recommended for use
8·
.6 6 6 6 2 2
"
"
" "
6 ",. 8·.·,
,2
Sulfur Chloride Sulfur Dioxide
,
i"
dibasic mono tribasic
. ; ".!:'t~A>{\
unsatisfactory for use
2.
chlorinated
. . . ,"q.,'t .\& ,.. ,.,:, ."',' ""'.,:,\{;;'
.<
i~,~'
MIL·H·5606 MIL·F·25558 MIL·R·25576
Stannous Chloride Stauffer 7700 Steam
Sucrose Sulfite Liquors Sulfur
:.i'.
';/;CI,Raililg
50
Stearic Acid Stoddard Solvents Styrene
"<'7C .?
" " ••'.,.;"
moder. to severe effect unsatisfactory for use
© Plastics Design Library
501 Chemical Resistance - Styrene Butadiene Rubber
Sulfurous Acid Tannic Acid 10
Tar Tartaric Acid Terpineol Tetrabromomethane Tetrabutyl Titanate Tetrachloroethylene Tetraethyllead Tetrahydrofuran Tetra lin Texamatlc Fluid 1581 Texamatic Fluid 3401 Texamatic Fluid 3525 Texamatic Fluid 3528 Thlonyl Chloride Titanium Tetrachloride Toluene Toluene Diisocyanlde Transformer Oils Transmission Fluids
bituminous
.~
unsatistactory for use minor to moder. ellect unsatisfactory for use minor to moder. ellect unsatisfactory for use
blend
Pyranol Mobilgas WA200; Type A type A type A; Esso Texamatic llAu
Triacetin Trlaryl Phosphate Trlbutoxyethyl Phosphate Trlbutyl Mercaptan Tributyl Phos hate Trichloroacetic Acid Trichloroethane Trichloroethylene Trlcresyl Phosphate Triethanolamine Trlfluoroethane Trinitrotoluene Trloctyl Phosphate Tun Oil Turbine Oil Turpentine Ucon 50HB100 Ucon 50HB260 Ucon 50HB280X Ucon 50HB5100 Ucon 50HB55 Ucon 50HB660 Ucon Hydrolube J4 Ucon LB1145 Ucon LB135 Ucon LB285 Ucon LB300 Ucon LB385 Ucon LB400X Ucon LB625 Ucon LB65 Unsymmetrical Dimethylhydrazlne Varnish Vegetable Oils Versilube Vinegar Vinyl Acetylene
© Plastics Design Library
2 ·2
moder. to severe ellect unsatisfactory for use minor to moder. ellect unsatisfactory for use
·'···2 2 2', 2
6
minor to moder. ellect
2 2
unsatisfactory for use
2 China Wood Oil
2
_15; MIL·L·780BA #35
lubricant
recommended for use
oil; polyacrylonitrile glycol derivative lubricant
lubricant
oil lubricant minor to moder. ellect unsymmetrical (UDMH) unsatisfactory for use recommended for use minor fo moder. ellect monovinyl acetylene
SBR
502
Chemical Resistance - Styrene Butadiene Rubber
Water Whiskey White Oil Wolmar Salt Wood Oil Xenon Xylene Xylidine Zeolites Zinc Acetate Zinc Chloride Zinc Salts Zinc Sulfate
SBR
drinking salt water & wines
unsatisfactory for use recommended for use unsatisfactory lor use recommended for use unsatisfactory for use mixed aromatic amines recommended for use
unsatisfactory for use recommended for use minor to moder. ellect
© Plastics Design Library
503
Chemical Resistance - Alkyd Resin . ,
,.
J":
Reagent
, J
" ... ;
..
,.
.~.
,",
'"
.;;:;:~{:.
,:.
. i~:::··
,. ,
..;
~;
Reagent N,ot~ .. ,
. -.
.. 'f
'",~
.,
.
"
POL'
"
~atlng;<
:;:~.
;>
...
ReSIstance N"ote .,>-.
:
"
.. .....-. .. ::':":~'" . "
."
Acetaldehyde Acetate Acetic Acid Acetone Acetylene Acids Air Alcohols Alkaline Alum Aluminum Borohydride Aluminum Chloride Aluminum Fluoride Aluminum Sulfate Ammonium Bicarbonate Ammonium Chloride Ammonium Hydroxide Ammonium Nitrate Ammonium Phosphate Ammonium Sulfate Amyl Acetate Amyl Alcohol Amyl Mercaptan Amyl Phenol Aniline Animal Fats Animal Oils Arsenic Acid Asphalt ASTM Fuel A ASTM Oil No.1 ASTM Oil No.3 Barium Chloride Barium Fluoride Barium Nitrate Beer Beet Juice Beet Pulp Benzene Benzine Benzoic Acid Black Liquor Blast Furnace Gas Blood Blue Vitriol Borax Boric Acid Brewery Slop Brine Bromine Bromine Pentafluoride Bunker Oil Butyl Acetate Butyl Alcohol Butyl Cellosolve Butyl Mercaptan Butyric Acid Calcium Bisulfite Calcium Chloride Calcium Hydroxide Caliche Liquor Cane Sugar Carbolic Acid Carbon Bisulfide Carbon Disulfide Carbon Tetrachloride Castor Oil Catsup Caustic Lye
solvents
..
~, 9 1 9 7 1
9 9 1 7 1
dye
isooctane
benzoil
excellent resistance
"
do not use material with reagent good resistance do not use material with reagent good resistance do not use material with reagent good resistance do not use material with reagent good resislance
1 7 7 7 7
do not use material with reagent good resistance
9 7 1 7 7·
excellent resistance good resistance do not use material with reagent
" " "
good resistance
" " "
7 7 1 7
do not use material wilh reagent good resistance
.7,,··
"
1 7 7 g.'
7 7 1 3 1 1 3 7
or cane juice
,
excellent resistance do not use material with reagent excellent resistance good resistance do not use material with reagent
7 1 7 1 7
7.' 7 7. 5 7 7 9 7 7 7 1 3 7 7 7 7 1 7 7 1
beer wort
poor resistance
1 3 7 9 7 7 7
"
" " fair resistance. limited service good resistance
" excellent resistance good resistance
" " do not use material with reagent poor resistance good resistance
" " " do not use material with reagent good resistance
" do not use material with reagent
"
good resistance
"
excellent resistance good resistance
" do not use material with reagent poor resistance do not use materiai with reagent
" poor resistance good resistance do not use material with reagenl poor resistance good resistance excellent resistance good resistance
" "
••
© Plastics Design Library
Alkyd
504
Chemical Resistance - Alkyd Resin
~ea~ent
.,
Caustic Potash Caustic Soda Cellulose Acetate China Wood 011 Chlorinated Solvents Chlorine
good resistance
chlorine water do not use material with reagenl
Chlorine Heptoxlde Chlorine Trifluoride Chloroacetic Acid Chloroform Chlorosulfonic Acid Citric Acid Coal Tar Coconut Oil Coke Oven Gas Copper Ammonium Acetate Copper Chloride Copper Nitrate Copper Sulfate Copperas Corn Oil Cottonseed Oil Creosote Cresol Cresylic Acid Cyanide Cyanogen Diacetone Alcohol Diborane Dlbutyl Phthalate Dlethylenetrlamine Distiller's Slop Enamel Essential Oils Esters Ethane Ethers Ethyl Acetate Ethyl Cellulose Ethyl Chloride Ethyl Ether Ethyl Silicate Fatty Acids Ferric Chloride Ferric Sulfate Ferrous Chloride Ferrous Sulfate Fluorine Formaldehyde Formic Acid Freon Fruit Acids Fruit Juices Fuel Oils Fuels Fun us Furfural Gasoline Glauber's Salt Glucose Glue Glycerin Grease Green Liquor Green Vitriol Hafnium Hydroxide Hexyl Alcohol Hydrazlne Hydrobromic Acid
Alkyd
fair resistance, limited service do not use material with reagent oil
good resistance excellent resistance good resistance
green
poor resistance do not use material with reagent good resistance excellent resistance good resistance
dibasic
do not use material with reagent poor resistance do not use material with reagent poor resistance do not use material with reagent poor resistance lair resistance, limited service excellent resistance poor resistance fair resistance, limited service do not use material with reagent good resistance
glycerol lair resistance, limited service poor resistance good resistance do not use meteriel with reagent good resistence do not use material with reagent
© Plastics Design Library
505 Chemical Resistance - Alkyd Resin
Reagent Hydrochloric Acid Hydrocyanic Acid Hydrofluoric Acid Hydrofluosillc Acid Hydrogen Hydrogen Peroxide Hydrogen Sulfide Hydrosulflte Hyposulfite Inks Iodine Pentafluoride JP 4 Kaolin Slip Kerosine Lacquer Solvent Lacquers Lactic Acid Lard Lead Acetate Lime Chlorate Lime Chloride Lime Milk Lime Water Lithium Chloride Lubrlcatln Oils Magnesium Chloride Magnesium Hydroxide Magnesium Sulfide Manganese Chloride Mercuric Sulfate Mercury Methyl Acetate Methyl Alcohol Methyl Chloride Milk Mine Water Mine Water Acid Minerai Oils Molasses Mustard Nickel Chloride Nickel Sulfate Nicotine Sulfate Niter Cake Nitric Acid Nitric Oxide Nitrogen Nitrogen Tetroxide Octane (n-) Oils Oleic Acid Olive Oil Orthophosphorlc Acid Oxalic Acid Oxygen Ozone Paints Palm Oil Palmitic Acid Paraffin Petro leu m Ether Phenol Phosphate Ester Phosphoric Acid Photo raphlc Developers Picric Acid Pink Liquor Potash Potash Alum Potassium © Plastics Design Library
good resistance
of soda
do not use material with reagent poor resistance do not use material with reagent good resistance do not use material with reagent good resistance
do not use material with reagent excellent resistance good resistance do not use material with reagent
poor resistance good resistance
fair resistance, limited service excellent resistance methanol good resistance do not use material with reagent
good resistance
do not use material with reagent
excellent resistance do not use material with reagent good resistance do not use material with reagent good resistance do not use material with reagent good resistance excellent resistance good resistance do not use material with reagent good resistance excellent resistance do not use material with reagent excellent resistance do not use material with reagent good resistance do not use material with reagent poor resistance good resistance liquid
do not use material with reagent
Alkyd
506
Chemical Resistance - Alkyd Resin
R~agent'
Potassium Bichromate Potassium Carbonate Potassium Chlorate Potassium Chloride Potassium Cyanide Potassium Hydroxide Potassium Nitrate Potassium Sulfate Producer Gas Pyridine Pyridine Sulfate Pyrogallic Acid Pyroligneous Acid Quenching Oils Rhldolene Rosin Sal Ammoniac Salt Cake Salt Water Salts Sea Water Sewage Shellac Silicate Esters Silicone Oils Silver Nitrate Soap Liquor Soaps Soda Carbonate Sodium Sodium Cyanide Sodium Hydrochiorlte Sodium Hydrosuifite Sodium Hydroxide Sodium Iodide Sodium Metaphosphate Sodium Metasilicate Sodium Nitrate Sodium Perborate Sodium Peroxide Sodium Phosphate Sodium Plumbite Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Suifite Sodium Thiosulfate Solvents Soybean Oil Sperry Oil Stannic Chloride Stannous Chloride Starch Stearic Acid Strontium Nitrate Sugar Sulfite Liquor Sulfuric Acid Sulfurous Acid Tallow Tannic Acid Tanning Liquors Tar Tartaric Acid Tetraethyllead Tin Tetrachloride Trlbutyl Phosphate Trichloroethylene Urine Varnish
Alkyd
good resistance
do nol use material with reagent good resislance
excellenl resislance
9" ".
f' ",
do nol use material wilh reagent
7, '.' '9
good resistance excellent resistance
.,
9 "....•.
solution
.. 7,'/ 7 7 ,,7
good resislance
1 1
" 9
'l
do not use male rial wilh reagent good resistance excellenl resistance good res islanee fair resistance, limited service good resislance
liquid
do not use male rial wilh reagent good resistance
do not use malerial wilh reagenl good resislance
do nol use material wilh reagent good resistance
excellenl resislance good res islanee
do not use malerial with reagenl good resislance poor resislance do nol use material wilh reagenl good resislance do nol use material wilh reagent good resislance do nol use materia' wllh reagent excellent resistance good resislance do nol use materia' wilh reagent excellenl res islanee
© Plastics Design Library
507
Chemical Resistance - Alkyd Resin
oil
good resistance do not use material with reagent good resistance
oil emulsion wi glycol
Whiskey White Liquor White Vitriol White Water Wines Wood Alcohol Wood Pulp Wood Vinegar Xylene Yeast Zinc Chloride Zinc Sulfate
© Plastics Design Library
poor resistance good resistance poor resistance good resistance excellent resistance poor resistance excellent resistance xylol good resistance
Alkyd
(J1
Chemical Resistance - Diallyl Phthalate Resin
CJ
» ""tl ,Re~ge1'l!
Acetaldehyde Acetate Acetic Acid
:/
Re~gent
NQte
I
C.o(%1" . !l.9.",ITem. p'lJime P.. D ...l. ,,·IW~!9h\ ('$1 (daysl Rating
little or no,ellect unsatisfactory resislance "xcellen,t resistance,
j::.,
27
t::l
C1l
fJl
;:l
t'"'
0: .,
.,i=l
(t:
9 ,,8"
,"
9 "',. ., 27
tE-
,9,
'1:",' 27
'.'
',;
23,' .'
23 '23
27
""'23"
27 27
"\23 ,'23
27
23
i!
7
8'"
0,37
7
8
0.32
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs
0.41
Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs
0,24
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
7 7
,
9
Cosmic (orthophthalate); asb. IiI.; 3.2x50.8 mm discs
7
0.26
Cosmic (orthophthalate); orion IiI.; 3,2x51 mm discs
7
0,15
Cosmic (orthophthalate); sht.gl.fib.; 3.2x51 mm discs
28
0,68
27
28
-0,2
27
28
0.44
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs
27
28
-0,29
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs; dried 2 hrs. @120C
27
28
0.76
Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs
27
28
0.48
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
Cosmic (orthophthalate); asb. IiI.; 3.2x50.8 mm discs , Cosmic (orthophthalate); asb.lil.; 3.2x50.8 mm discs. dried 2 hrs. @120C
27
28
0
Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs; dried 2 hrs. @120C
27
28
-28
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs; dried 2 hrs. @120C
27
28
0.54
Cosmic (orthophthalate); orion IiI.; 3.2x51 mm discs
27
28
-0.18
Cosmic (orthophthalate); orion iiI.; 3.2x51 mm discs; dried 2 hrs. @120C
27
28
0.36
Cosmic (orthophthalate); sht.gl.fib.; 3,2x51 mm discs
27
28
-0.24
Cosmic (orthophthalate); sht.gl.fib.; 3.2x51 mm discs; dried 2 hrs. @120C
Ammonium Bicarbonate Ammonium Chloride Ammonium Hydroxide 35
Ammonium Nitrate Ammonium Phosphate Ammonium Sulfate Amyl Acetate Amyl Alcohol Amyl Mercaptan Amyl Phenol
-
t !
;;.x
Aluminum Fluoride Aluminum Sulfate
n-
Aogers AX; sht.gl.fib.
gOJ)dfesJ~!an~e
10
fJl
surfacuttac.ked. '
,1i~Sa\istactorY r~sistance
Acetonitrile Acetyl Chloride Acetylene Acids Air Alcohols Alkaline Alum Aluminum Borohydride Aluminum Chloride
~
~ollo;X~m~;:rla;'Wlthr~agent '/~~~d resista;\~e
11
~
Mater'iaLNote ",':'
.;:~)' :.. -:~(:. .. unslifiSlac:lo;yiiislslance ",
glacial
Acetic Anhydride Acetone
"1:l
ex>
\;~
. solvents
10
@
o
@
'S"" ~
~~:
fleagent
I
Reagent Note,
Time PD!"I Weight (days) Rating'
ri'
'~"
'" to' ;:s
~
., .,i=l
0-
Aniline Animal Fats Animal Oils Aqua Regia Arsenic Acid Asphalt ASTM Fuel A ASTM Oil No.1 ASTM Oil No.3 Barium Chloride Barium Fluoride Barium Nitrate Beer Beet Juice Beet Pulp Benzaldehyde Benzene Benzoic Acid Benzyl Alcohol Benzyl Chloride Black Liquor Blast Furnace Gas Blood Blue Vitriol Borax Boric Acid Brewery Slop Brine Bromine Bromine Pentafluoride Bunker Oil Butane Butyl Acetate Butyl Alcohol Butyl Cellosolve Butyl Chloride Butyl Mercaptan Butyric Acid Calcium Bisulfite Calcium Chloride Calcium Hydroxide Caliche Liquor Cane Sugar Carbolic Acid Carbon Bisulfide Carbon Dioxide Carbon Disulfide Carbon Tetrachloride
dye
: ,:'.
isooctane
beer wort "
'"
benzoil
do not ~se mat,rl;d -..:i.III, reagenf· ,"
.~:
.
~":". ".> ':::;:, ::::~.>;~: :~:'::/ \:~>~
·~~cell~~lr~~isl!'~cer.··
.
'~~t:!~t:~~af~::~t'i;l~l
d~.·~~~~tt;;~~~~!~~:::::::nl;
':dollDlusematerial '!!t!> reagent not likely lobe resistant .' ~dre$lsla~~il
J~tel~nl resl~lance
or cane juice
0.1
o
» "'U
Material Note
Rogers RX; Ing.gl.fib. 01
Chemical Resistance - Diallyl Phthalate Resin
a co
01
Chemical Resistance - Diallyl Phthalate Resin
o
» -c .R~agent
Reagent Note
Time
".:.:,~
Carbon Tetrachloride
23'",. :';,23"
~;~£t
Castor Oil Catsup Caustic Lye Caustic Potash Caustic Soda Cellulose Acetate China Wood Oil Chlorinated Solvents Chlorine
,5~t
I POL
(days)
Rating
7 7 7 28 28 28
9·
a 9 9
.~
0.06 0.08 0.11 0.14 0.13
8
Material Note .
I Weight
a
9
-0.25
a 0.25 -0.25 -0.8 -0.5
-0.03 -0.06 -0.05 -0.07 -0.07 -0.13
good IInal
'.'
" 7.
7
rea;~ht
do nOI use . axcellent reslslllnce)"\{ do not use;"aterial ;;l;~;riaj~n(;
1 9
J
:9
chlorina water
do'not8:::I;;fe:i~;~~~;~.~~~*1~J
1
l .,.,2 . 1. 6
plastics cleaning compound, MIL-C-18767A
waler·base. alkaline, pH12, MIL-C-25769
plastics cleaing compound, MIL-C-18767A plaslics cleaning compound. MIL-C-18767A plastics cleaning compund. MIL-C-18767A powder, alkaline-steam, ted. P-S-751
@
waler·base. alkaline, pH12, MIL·C-25769
~
r;' Ul
~
<E' ;:l
t""
0: ..., l:l ..., u::
Coal Tar Coconut Oil Coke Oven Gas Copper Ammonium Acetate Copper Chloride Copper Nitrate Copper Sulfate
,'gooel"
7'
8
8
'1,'. '8
'1:l
~~S~~:;~~1r!:~~I~~~I~ unsalistic
7'
pOWder, alkaline-sleam, ted. P·S-751
po
:do'
2"
10
Cleaning Compound
Cosmic (orlhophlhalale); dac. til.; 3.2x51 mm discs Cosmic (metaphlhalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orlhophthalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); dac. til.; 3.2x51 mm discs Cosmic (melaphlhalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); Ing.gl.fib.; 3.2x51 mm discs
9
Ch IOrineHeptOiide Chlorine Trifluoride Chloroacetic Acid Chlorobenzene Chloroform Chlorosulfonic Acid Chromic Acid Citric Acid Cleaning Compound
~
o
011
8
a
0.25 0.3 0.3 0.25 0.31 0.27 0.25 0.29 0.23
a
-0.02 0.02 -0.03 0.03
·0.25 ·0.76 -1.03 -0.51 -0.74
0.03 0.03 -0.05 -0.02 0.05
0.42 0.66 0.54 0.46 0.57 0.5 56 0.66 0.49
a
0.02
-0.02 -0.5 -0.02 -0.5 -0.75 -0.51 0.25 -0.5
a
-3 -0.51
-0.05 -0.03 -0.02 -0.03 -0.04 -0.03 -0.02
.
H
Cosmic (orthophlhalale); dac. IiI.; 3.2x51 mm discs Cosmic (mataphthalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); Ing.gl.lib.; 3.2x51 mm discs Cosmic (orthophthalale); dac. til.; 3.2x51 mm discs Cosmic (metaphthalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalale); dac. IiI.; 3.2x51 mm discs Cosmic (metaphlhalale); Ing.gl.lib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); dac. iii.; 3.2x51 mm discs Cosmic (metaphthalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalale); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalala); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iii.; 3.2x51 mm discs Cosmic (metaphlhalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
Cosmic (orthophthalate); asb. til.; 3.2x50.8 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.tib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); orion iiI.; 3.2x51 mm discs Cosmic (orthophthalate); sht.gl.fib.; 3.2x51 mm discs
o
» -0
01
Chemical Resistance - Diallyl Phthalate Resin
-'-'-
01 ......
Chemical Resistance - Diallyl Phthalate Resin
Cl
» '"'U
N
Reagent
Reagent Note
conc'ITemp'l Time (%)
... eC)
45
23
45
'~~
(~aY$)
:.-;::
IRa!ing POL
Res!stanc~
Not!!
'."
Mater!.al "ote
'~
Ferric Chloride
45 45 45 45 45 45 45 45 45 45
,.23 .., 23'
JJ "'··23;
i~<';
}:
0.26
Cosmic (orthophlhalale); asb. iii.; 3.2.50.8 mm discs
-0.48
Cosmic (orthophlhalate); asb. iiI.; 3.2.50.8 mm discs, dried 2 hrs. @120C
0.22
Cosmic (orthophthalale); dac. iii.; 3.2.51 mm discs
-0.16
Cosmic (orthophthalate); dac. til.; 3.2.51 mm discs; dried 2 hrs. @120C
0.31
Cosmic (melaphlhalale); Ing.gl.fib.; 3.2.51 mm discs
0.19
Cosmic (orthophthalale); Ing.gl.fib.; 3.2.51 mm discs
-0.19
Cosmic (melaphlhalale); Ing.gl.fib.; 3.2.51 mm discs; dried 2 hrs. @120C
-0.17
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs; dried 2 hrs. @120C
0.08
Cosmic (orthophlhalale); orion til.; 3.2x51 mm discs
-0.27
Cosmic (orthophlhalale); orion til.; 3.2x51 mm discs; dried 2 hrs. @120C
0.21
Cosmic (orthophlhalate); sht.gl:fib.; 3.2x51 mm discs
-0.27
Cosmic (orlhophlhalate); sht.gl.fib.; 3.2.51 mm discs; dried 2 hrs. @120C
0.1
Rogers RX; Ing.gl.fib.
Ferric Sulfate Ferrous Chloride Ferrous Sulfate Fluorine Formaldehyde 40
Formic Acid Freon 11 0.1
Freon 12 Freon 1282
@
'i:l
S"
'.....c:;." '"
I?
tEo '" ;:l
~
.,
0-
.,
l:l It::
Freon 21 Freon 22 Fruit Acids Fruit Juices Fuel Oils Fuels Fungus Furfural Gasoline Gelatin Glauber's Salt Glucose Glue Glycerin Grease
dibromodifluoromethane; Mll·D·4540
glycerol
-0.02
0
-0.03
Cosmic (orlhophlhalale); dac. IiI.; 3.2x51 mm discs
0.08
-0.56
-0.05
Cosmic (melaphlhalale); Ing.gl.fib.; 3.2x51 mm discs
0.11
-0.76
-0.03
Cosmic (orthophlhalale); Ing.gl.fib.; 3.2.51 mm discs
0
0
-0.1
Cosmic (orthophlhalale); dac. IiI.; 3.2x51 mm discs
0.14
-0.75
-0.33
Cosmic (melaphthalale); Ing.gl.fib.; 3.2.51 mm discs
0.12
-0.75
-0.1
Cosmic (orlhophthalate); Ing.gl.fib.; 3.2x51 mm discs
0.03
-0.75
-0.11
Cosmic (orthophthalate); dac. til.; 3.2.51 mm discs
0.16
0
-0.03
Cosmic (metaphthalate); Ing.gl.fib.; 3.2.51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
0.08
-0.25
-0.03
0.09
-1
-0.1
Cosmic (orthophthalate); dac. iiI.; 3.2.51 mm discs
0.18
0.25
-0.07
Cosmic (metaphthalale); Ing.gl.fib.; 3.2.51 mm discs
0.11
-0.5
-0.13
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
@
'\l
~ ~
r;' C/)
~
C/)
~.
;:J
s:
Sf
.,>l
tt:
.:':":;";',"
/
Reagent :: ':':::':':'. :-;~
Reagen~
Dlamet.r I
Note
Resistance Note
.,
g~od rasl.stance;,
Green Liquor Green Vitriol Hafnium Hydroxide Heptane
exc.llent
:'/' a :;.:
: ,:~..'Y:;~~P~
.
N,22 ;' 22 .'. 21i1;"
aircraft Mil-H-5606A
7
7 28 7
:~i
high temp, silicate ester, MIL-H-8446A
:~
8 8"
9
7
9
~;.
high temp, silicate ester, MLO-8200
Hydraulic Fluids
7
silicone, Versilube F-50
;it~3
7
aircraft, petrol. base, MIL-II-5606A
"'23
28
high temp, silicate ester, MIL-H-8446A
23
28
9
high temp, silicate ester, MLO·B200
.23
28
8
;;';:23;
silicone, Versilube F-50
~~
28
~:
!
9
~
good resistance
0.1 0:: 0.1 ; 0.12
0.25
0.02 0.12 0.09 0.09 0.1 0.11 0.06 0.1 0.09 0.07 0.09
0 0 -0.5 -0.25 -0.73 -0.78 0 -0.75 0 -0.25 -0.51
-0.02 -0.03 0.02 -0.05 -0.03 0.03 -0.07 -0.02 0.02 0 -0.07 0.05
'; 0.19 0.05 0.11 0.12 A 0.12 " 0.07 0.09 0.05 0.12
-0.75 -0.75 -0.5 -0.1 -0.46 -1.25 -0.77 -0.25 -0.73 0 -0.5 -1.28
-0.07 -0.13 -0.2 -0.12 -0.05 -0.08 -0.11 -0.07 -0.11 -0.05 -0.08 -0.11
1
,; ~::~
slight discoloring,
Rogers RX; Ing.gl.fib.
good linal appearance,
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthaiate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.lib.; 3.2x51 mm discs
';~::
/":
:~
..
:~
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iii.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophtha'ate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophtha'ate); Ing.gl.fib.; 3.2x51 mm discs
good resistance 10 36 37 37 37 37 37 37 37 37 37 37 37 37 37
0.4 0.1 0.36 -0.32 0.79 0.36 0.18 0.28 0.39 -1.82 0.19 -0.63 0.79
lillie or no'efleet IImhed resistance no observed change slight discoloring lairlinal appea(llnce
o
~
Rogers RX; sht.gl.fib.
f<"Iit\"'Qr:iio'eli~"'"
0.09
Hydrazine Hydrobromic Acid Hydrochloric Acid
,,",' ,·!1~~1I~~~r.v.~~~an9~
-0.1
,-.,y.
Hexane Hexyl Alcohol Hydraulic Fluids
;~slstanc';;
gOOd ,esistance "
aircraft, petrol. base, MIL-II-5606A
""U
Material Note
:::.
Rogers RX; Ing.gl.fib. Cosmic (orthophthalate); asb. iiI.; 3.2x50.8 mm discs Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); orion iiI.; 3.2x51 mm discs Cosmic (orthophlhalate); sht.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); asb. iiI.; 3.2x50.8 mm discs Cosmic (orthophthalate); asb. iiI.; 3.2x50.8 mm discs, dried 2 hrs. @120C Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs; dried 2 hrs. @120C Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs
01
Chemical Resistance - Diallyl Phthalate Resin
-"
U:l
(}l -'~
Chemical Resistance - Diallyl Phthalate Resin
CJ
» "'U ~
Reagent
Reagent Note·
conc'ITemp'l Time ('to)
Hydrochloric Acid
37 37 37 37 37 37 37
.••• ('C). 23 23
,
23,. 23 23 23 23
J~~Y~)
28 28 28 28 28 28 28
Hydrocyanic Acid Hydrofluoric Acid
'tl ~
t""
",23 23 23 J.: 23. .. 23 23 23
7 7 7 7 7 7 28 28 28 28 28 28 28 28 28 28 28 28
Cosmic (orlhophlhalale); Ing.gl.fib.; 3.2x5l mm discs Cosmic (metaphlhalate); Ing.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C . Cosmic (orthophlhalale); Ing.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C Cosmic (orthophlhalale); orion iii.; 3.2x5l mm discs Cosmic (orthophlhalale); orion IiI.; 3.2x5l mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); sht.gl.fib.; 3.2x5l mm discs Cosmic (orthophlhalale); sht.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C
good (eslslance
2
27.6 -0.27
2 2 5 2 2
24.4 -12.9 -0.6
2
2 2 4 2
2 2
poor linal appearance
Cosmic (orlhophthalate); asb. IiI.; 3.2x50.8 mm discs Cosmic (orthophthalale); dac. iiI.; 3.2x5l mm discs
6.44
Cosmic (metaphthalale); Ing.gl.fib.; 3.2x5l mm discs Cosmic (orthophlhalale); Ing.gl.fib.; 3.2x5l mm discs Cosmic (orthophthalale); orion IiI.; 3.2x5l mm discs
8.95
1.25 12
Cosmic (orlhophthalate); sht.gl.lib.; 3.2x5\ mm discs Cosmic (orthophlhalale); asb. IiI.; 3.2x50.8 mm discs Cosmic (orthophlhalale); asb. Iii.; 3.2x50.8 mm discs, dried 2 hrs. @120C Cosmic (orthophlhalale); dac. iiI.; 3.2x5l mm discs Cosmic (orthophlhalate); dac. iii.; 3.2x5l mm discs; dried 2 hrs. @120C Cosmic (metaphthalate); Ing.gl.fib.; 3.2x5l mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C
-7.9
6 8.45 -15.4 -16.83 1.68
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C Cosmic (orthophthalale); orion iiI.; 3.2x5l mm discs
-5.86
Cosmic (orthophthalate); orion iiI.; 3.2x5l mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); sht.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalate); sht.gl.fib.; 3.2x5l mm discs; dried 2 hrs. @120C
10.4 -20.4
.,,7 7'
01 soda
7",. , 9· :Ii: 7'
good resislance do not use material wilh reagent .
1 14 MiI-J-5634D
8 9 9 9
8.
JP 4 Kaolin Slip Kerosine Lacquer Solvent Lacquers Lactic Acid
fair'tinal appearance'
0.12 -0.7 -0.6 0.87 -0.21 0.03 -1.05
6 2 2 4 2
'''9
n'
.,0: i=l .,
7 5
9 8 9
S'
'" ';=:" 16'
7
Material Note
7
no. 4. MIL-J-5624D
16'
7
6 6 .,6
Resistance Note.
7
49.4 49.4 49.4 49.4 49.4 49.4 49.4
@
Diameter
POL Rating
7 49.4 23 49.4 23 49.4 23 49.4 23 49.4 23 49.4 23 '23 49.4 49.4 \?3 '23 49.4 49.4 23 49.4 ,. 23
Hydrofluosilic Acid Hydrogen Hydrogen Peroxide Hydrogen Sulfide Hydrosulfite HyposuIfite Inks Iodine Pentafluoride Isooctane Jet Aircraft Fuels
I
9 7
7.,,, l'
~" 3 9
linll ornoel!~ct.•
o o
no obseN&d change.
-0.02
-0.51
o
o
o
0.06
-0.01 0.02 0.02 0.02
-1.04 -0.51 0.25 -0.8
<
Rogers RX; Ing.gl.fib.
good linal appearance"
•
0.07
\
-0.08 -0.05 -0.08
Cosmic (orthophlhalale); dac. iii.; 3.2x5l mm discs Cosmic (melaphlhalate); Ing.gl.fib.; 3.2x5l mm discs Cosmic (orlhophlhalale); Ing.gl.fib.; 3.2x5l mm discs Cosmic (orthophlhalale); dac. iiI.; 3.2x5l mm discs Cosmic (melaphthalale); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophlhalale); Ing.gl.fib.; 3.2x5l mm discs
"'~C8jriiiiiUsliiiiiiice' goodle.sislanc;: ~
do not USI material';'ith reagenl c, . poor resIstance excel"nt resistance,
@
'\l
~ ~
Reage l1!
1?en
Lard Lead Acetate
n'en
Reagel1tNc)t~} ."
::.:~::.:
s:.,
0-
.,
>l
:~.,
....
Lime Chlorate Lime Chloride Lime Milk Lime Water Linseed Oil Lithium Chloride Lubricants
Lubricating Oils Magnesium Chloride Manganese Sulfate Mercuric Chloride Mercuric Sulfate Mercury Methyl Acetate Methyl Alcohol Methyl Chloride Methyl Cyclopentane Methyl Ethyl Ketone Milk Mine Water Mine Water Acid Mineral Oils Molasses Mustard Naphtha
Nickel Chloride Nickel Sulfate Nicotine Sulfate Niter Cake Nitric Acid
.
.. o,,:??\ exCelientTesistiulce'·
...
synth., diester base, MIL-L-7808C
"L\~::~""
'f. '.
0.06
-0.76
-0.02
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs
0.07
-0.25
0.05
Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs
0.11
-0.25
-0.03
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs
0.15
-0.25
-0.08
Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs
0.12
-0.75
-0.08
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
excellent reslsla~ce .
good resislance
do n;;tus~material with readent . e~t~lIenl r;sistanc'e ,.
methanol
;; gOod resistance.
.'
unsallsfilctory reslslance
j;x~ellelit resista~ce 'goOd reslstanc~ ' 'excellent .re~istanc~·
fed. TT-N-95A
-0.52
-0.05
o
-0.03
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs ~~
'::::15"
-0.51
0.03
-1.28
-0.1
Cosmic (orthophthalate); dac. iiI.; 3.2x51 mm discs
-0.25
-0.08
Cosmic (m.taphlhalate); Ing.gl.fib.; 3.2x51 mm discs
-1
-0.1
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
e.xcellenl
Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs
re~is~efe
10
• i'
.litlliJ·ol no el'~l
. uW;~tisfa~l~iy iesl;tance
,~~~:~l:~~~~~;:i~i~ .,r:~ ;(~ .• (',) .exrieileOI r~;~~11tr~i~;!~!ffd~j~~~:;I .• r~~is';nce':
o
» -0
Cosmic (metaphtha'ate); Ing.gl.lib.; 3.2x51 mm discs
,;'P09r resisll\nce", 70
Nitric Oxide Nitrobenzene Nitroethane Nitrogen Nitrogen Tetroxide Nitromethane Nitropropane
JiL9~Clci'reslsiance
•.' do.not use ,.,aterlal'with.reagent .. ,<)rrttli~;noiifegl···i2i
10
<5' ;J
Material Note .". -,.
.. ..
.
01
Chemical Resistance - Diallyl Phthalate Resin
-'"
01
o
Chemical Resistance - Diallyl Phthalate Resin
» ""U Reagent Note
Time !days)
Octane (n-) Oils Oleic Acid Olive Oil Orthophosphorlc Acid Oxalic Acid Oxygen Ozone Paint Removers
gas solvent type, MIL·R-25134, amend. 2
7 7 7 28 28 28
Cl>
t"-
.,o:p .,
II::
1 1 ,,3
, 1
. 34.36 1.87 16.03 , 39.04 5.57 27
15.9 1.04 18.61 16.6 2.3 20.5
8.84 0.17 2.02 9.9 0.5 3.8
"'piiOirriiiiiappiiiiia~'ce
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gLfib.; 3.2x51 mm discs Cosmic (orthophlhalate); Ing.gLfib.; 3.2x51 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphlhalate); Ing.gLfib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gLfib.; 3.2x51 mm discs
do not use material 'with ,eagent·.
ex:;::;~:t;,~~:~'\i;;;
9 ~'" .7
excejlent resistance .•• '.". unsatislaclory resi~l.an~~ ; ,good i~$isti~~! ..
'--;'7'
liquid
Material Note
gOOd ,esi~tance excelleni'iesiSlance' good resistance"
'7
'i:l
't"J ';:s" to
7 9 7 7 7 7 1 5
Resistance Note' excellent ,esistance
·9y •
@
n'
Diameter
9
85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85
Photographic Developers Pink Liquor Polyethylene Potash Potash Alum Potassium Potassium Bichromate Potassium Carbonate Potassium Chlorate
IRating P~L IWeight .. 9
Paints Palm Oil Palmitic Acid Paraffin Perchloroethylene Phenol Phosphate Ester Phosphoric Acid
~
~
(J)
Reagent
S"
(,TI
-0.21
o -0.18 -0.1 I , -0.09 '; -0.12 -0.27 -0.44 -0.21 -0.21 -0.27 -0.26 -0.32 -0.35 -0,24 -0.37 -0.12 -0.28
'"
;0"
Cosmic (orthophthalate); asb. IiI.; 3.2x50.8 mm discs Cosmic (orthophthalale); dac.lil.; 3.2.51 mm discs Cosmic (metaphthalate); Ing.gLfib.; 3.2.51 mm discs Cosmic (orthophthalale); Ing.gLfib.; 3.2.51 mm discs Cosmic (orthophlhalata); orion til.; 3.2x51 mm discs Cosmic (orthophthalate); shtgLfib.; 3.2.51 mm discs Cosmic (orthophthalate); asb. iiI.; 3.2.50.8 mm discs Cosmic (orthophthalate); asb.lil.; 3.2.50.8 mm discs, dried 2 hrs. @120C Cosmic (orthophthelate); dac. IiI.; 3.2.51 mm discs Cosmic (orthophthalate); dac.lil.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (melaphthalate); Ing.gLfib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gLfib.; 3.2.51 mm discs Cosmic (metaphthalate); Ing.gLfib.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); Ing.gLfib.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); orion IiI.; 3.2.51 mm discs Cosmic (orthophthalate); orion iiI.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); shtgLfib.; 3.2.51 mm discs Cosmic (orthophthalate); shtgLfib.; 3.2.51 mm discs; dried 2 hrs. @120C
@
::;;~
1:l
S" ~
r;.
Material Note
,Reagent
':~,
(I)
~
(I)
<E. ;:l
t"'
..,0: l=l ..,
u:::
Potassium Chloride Potassium Cyanide Potassium Fluoride Potassium Hydroxide Potassium Nitrate Potassium Sulfate Producer Gas Propane Propionic Acid Propylene Glycol Pyridine Pyridine Sulfate Pyrogaiilc Acid Pyroligneous Acid Quenching Oils Rhidolene Rosin Sal Ammoniac Salt Cake Salt Water Salts Sea Water Sewage Shellac Silicate Esters Silicone Oils Sliver Nitrate Soap Liquor Soaps Soda Carbonate Sodium Sodium Borate Sodium Carbonate Sodium Chloride Sodium Cyanide Sodium Hydrochlorite Sodium Hydrosulfite Sodium Hydroxide
solution
liquid
10 50 50 50 50 50 50 50 50 50 50 50
o
:l> ""1J
Rogers RX; Ing.gl.fib. Cosmic (orthophthalate); asb. IiI.; 3.2x50.8 mm discs Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2x51 mm discs Cosmic (orthophthalate); orion til.; 3.2x51 mm discs Cosmic (orthophthalate); sht.gl.lib.; 3.2x51 mm discs Cosmic (orthophthalate); asb. til.; 3.2x50.8 mm discs Cosmic (orthophthalate); asb. til.; 3.2x50.8 mm discs. dried 2 hrs. @120C Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs
..... .......
01
Chemical Resistance - Diallyl Phthalate Resin
c.n
Chemical Resistance - Diallyl Phthalate Resin
o
» -u
-'-
CO
l
Reagent
Reagent Note
conc·IT.ein p., Time (%)
Sodium Hydroxide
('C)
..
IRllting POL IWeight
Resistance Note
I
fJlateriaJ Notl!.
.:
.:~.
la:irl!ilill~8pp.e,.ar~nce
50
23
28
7
-0.104
50
23
28
to"
-0.5
Cosmic (metaphthalate); Ing.gl.lib.; 3.2x51 mm discs
50
. 23
28
)r
-0.48
Cosmic (orthophthalate); Ing.gl.lib.; 3.2x51 mm discs
28 28
"",'6', 6· .
-0.59 -0.58
Cosmic (orthophthalate); tng.gl.lib.; 3.2x51 mm discs; dried 2 hrs. @120C
50 :23 F 50'23 .
Sodium Hypochlorite Sodium Iodide Sodium Metaphosphate Sodium Metasilicate Sodium Nitrate Sodium Perborate Sodium Peroxide Sodium Phosphate Sodium Plum bite Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Solvents Soybean Oil Sperry Oil Stannic Chloride Stannous Chloride Starch Steam Stearic Acid Strontium Nitrate Sugar Sulfite Liquor Sulfur Chloride Sulfur Dioxide Sulfur Trioxide Sulfuric Acid
(d~Y$)
........
'.. ' t
Cosmic (orthophthalate); dac. fil.; 3.2x51 mm discs; dried 2 hrs. @120C
Cosmic (metaphthalate); Ing.gl.lib.; 3.2x51 mm discs; dried 2 hrs. @120C
-0.46
Cosmic (orthophthalate); orion fil.; 3.2x51 mm discs
-0.59 -0.56
Cosmic (orthophthalate); orion fil.; 3.2x51 mm discs; dried 2 hrs. @120C
6 ..•., -0.71
. Cosmic (orthophthalate); sht.gl.lib.; 3.2x51 mm discs; dried 2 hrs. @120C
50
23
28
50 50
23."" 23"
28 6.",. 286:
50
23"'"
28
Cosmic (orthophthalate); sht.gl.lib.; 3.2x51 mm discs
20
lair
;:tf:~~;~~\~:!i}e~i~e
fuming 10
@
65
-0.21
'tl
65
0.08
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs
f:i
65
-0.11
Cosmic (metaphthatate); Ing.gl.lib.; 3.2x51 mm discs
;::;.
65
-0.1
Cosmic (orthophthalate); Ing.gl.lib.; 3.2x51 mm discs
CIl
65
-0.28
Cosmic (orthophthalate); orion fil.; 3.2x51 mm discs
~ CIl
65
-0.09
Cosmic (orthophthalale); sht.gl.lib.; 3.2x51 mm discs
~
<5' ;:l
t"'
~ $:l
"'
\t:
Cosmic (orthophthalate); asb. til.; 3.2x50.8 mm discs
65
-0.4
Cosmic (orthophthalate); asb. iii.; 3.2x50.8 mm discs
65
-0.88
Cosmic (orthophthalate); asb. til.; 3.2x50.8 mm discs, dried 2 hrs. @120C
65
0.17
Cosmic (orthophthalate); dac. til.; 3.2x51 mm discs
65
-0.46
Cosmic (orthophthalate); dac. IiI.; 3.2x51 mm discs; dried 2 hrs. @120C
65
-0.29
Cosmic (metaphthalate); Ing.gl.lib.; 3.2x51 mm discs
@
'"
;:i ~
r;' til
Cosmic (orthophthalate); Ing.gl.fib.; 3.2.51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); Ing.gl.fib.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); orion fil.; 3.2.51 mm discs Cosmic (orthophthalate); orion fil.; 3.2.51 mm discs; dried 2 hrs. @120C Cosmic (orthophthalate); sht.gl.fib.; 3.2.51 mm discs Cosmic (orthophthalate); sht.gl.fib.; 3.2.51 mm discs; dried 2 hrs. @120C
65 65 65 65 65 65 65 70
tl
(1)
til
<5' ;:l
~
0'"1
l=l '"1
Sulfurous Acid Tallow Tannic Acid Tanning Liquors Tar Tartaric Acid Tetraethyllead Tetralin Tetranitromethane Tin Tetrachloride Toluene
and ammonia
toluol
t' _... 0.14 0.3 0.18
-0.75 0.25 -0.5 -0.1 0.25 -0.25
-0.03 -0.02 0.03 -0.12 -0.07 -0.05
~~¥it
Rogers RX; Ing.gl.fib. Cosmic (orthophthalate); dac. fil.; 3.2.51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2.51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2.51 mm discs Cosmic (orthophthalate); dac. fil.; 3.2.51 mm discs Cosmic (metaphthalate); Ing.gl.fib.; 3.2.51 mm discs Cosmic (orthophthalate); Ing.gl.fib.; 3.2.51 mm discs
Transformer Oils Tributyl Phosphate Trichloroacetic Acid Trichloroethane Trichloroethylene Triethanolamine Turpentine Urine Varnish Vegetable Oils Vinegar Vitriol Water
0
Rogers RX; sht.gl.fib.
o
Rogers RX; sht.gl.fib.
oil oil emulsion wI glycol
o
» ""0
01
Chemical Resistance - Diallyl Phthalate Resin
-... c:o
o
Chemical Resistance - Diallyl Phthalate Resin
» ""U
<:>
~e~gent Note'
;R~agent
co..('to) nc'.IT. emp'ITim~ ('C) (days)
~~
Whiskey White Liquor White Vitriol White Water Wines Wood Alcohol Wood Pulp Wood Vinegar Xylene Yeast Zinc Chloride Zinc Sulfate
@
'tl
po
'".....0'
'~" '" lEi' ;:l
t""
0: .,
.,
~
01
I\:l
P~.L
"
I
I. '
I
wel9,hI Thickness Dia";eler
Rating9 7
% Change
Resistance..Note
Material Note ,
.;...
excellenl resislance:: good resistaoce'
"
'7
, 7
9 9 7
9
xylol
t
2 7
exeellenl,feSiSlante, .
'"
uns~li~l~clorireSiSI~nce ~,d re~i;iance •
7
"".1 ..
.;~.,
, gODdr~sisl~nc~:, exc~lIenlresi~iaiic~
'\
~
@
~
%~~
[Reagent
Reagent Note
~
Conc. Temp.
Time
POL
Weight
('C)
10
93
14
2
4.2
~.
,; ,
tg
10
93
...
14"
5
1.99
t""'
25
24
180
,
~
tl
~
Acetic Acid
~.
Flexural Strength
(days)' ~ating
('Yo)
,.. .
I
Resistance Note
I
Material Note Shell Epon 828; 3.2 mm casting; cure-14 phr MPDA; gel @ 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C, 4h/150C
,
9
no change in. appea.rance
Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C
'j"
Sf
25
It:
25
24
180
3
25
24
180
.,9
~..
,.
24
180
7
very slight darke'ning
Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C
: '
. chipped. soli, swo!len
Shell Epon 828; 3.2 mm casling; cure- 14 phr triethylenetetramine; 21 days @ 23C
j ••
no change in appearance
Shell Epon 828; 3.2 mm casling; cure· 20 phr diaminodiphenylsullone; 2.5h/120C, 2h/204C
•
Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C
•
Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h1120C,lh/204C
. 25
24
180
25
24
180
l
9
,
Acetone
boiling
25
24
180
.•
Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C
25
54
180
0.4
107
80
•
Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h1149C, 16h/180C
25
54
180
0.6
100
95
•
Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C
25
54
180
,; :'
·1
0
0
chipped. soll,swollen
Shell Epon 828; 3.2 mm casting; cure· 14 phr triethylenetetramine; 21 days @ 23C
25
54
180'
9
0.4
100
85
no change in llppearance
Shell Epon 828; 3.2 mm casting; cure· 20 phr diaminodiphenylsullone; 2.5hI120C, 2h/204C
25
54
180
9
0.7
103
90
•
Shell Epon 828; 3.2 mm casting; cure· 20 phr Epon curing agent Z; 2h/80C, 2hl149C
25
54
180
8
1
91
91
slight darkening
Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,lh/204C
25
54
180
8
0.2
106
76
no change in appearance
56
1
7
0.85
Shell Epon 828; 3.2 mm casting; cure- 75 phr phlhalic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm casting; chlorendic anhydride system; cure - 200hl150C
56
1
7
0.9
, ,..•;.....
;, ~
,
6-
56
1
1.2
Shell Epon 828; 3.2 mm casting; chlorendic anhydride system; cure - 4h/150C
56
l'
8.1
Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride system; cure - 200h/150C
56
1
56
1
1
8.5
Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride system; cure - 24h/150C
1
10.1
Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride system; cure - 4h/150C
56
1
6
1.2
'
Shell Epon 828; 3.2 mm casting; hexahydrophthalic anhydride system; cure - 200h/150C
56
1
·Il.
1.3
t
Shell Epon 828; 3.2 mm casting; hexahydrophthalic anhydride system; cure - 24hl150C
.,;;
L
m ~
~
Shell Epon 828; 3.2 mm casting; chlorendic anhydride system; cure - 24h/150C
1>'.
,
56
1
56
1
0.9
, "
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure· 200hl150C
56
1
1.9
,
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure - 24hl150C
'56
1
3,2
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure - 4hl150C
56
1
3
3.5
Shell Epon 828; 3.2 mm casting; phthalic anhydride system; cure· 200h/150C
56
1
·4
2.3
-:.
1.3
Shell Epon 828;.3.2 mm casting; hexahydrophthalic anhydride system; cure - 4hl150C
-"-
Chemical Resistance - Epoxy Resin
--"'-
Shell Epon 828; 3.2 mm casting; phthalic anhydride s:..,ystem; cure - 24h/150C
~
~
Chemical Resistance - Epoxy Resin
m o
"'0
(]1
N N
X
'<
§!!gent
Reagent Note
Acetone
boiling
conc'l Temp.
e"')
('C)
Time (days)
IlDL
~iiting
I Weight
vOlum;.J.m~;;~;~
Material
Shell Epon 828; 3.2 mm casting; phlhalic anhydride system; cure - 4h/150C Shell Epon 828; 3.2 mm casting; succinic anhydride system; cure· 200h/150C Shell Epon 828; 3.2 mm casting; succinic anhydride system; cure - 24h/150C Shell Epon 828; 3.2 mm cesting; succinic anhydride system; cure - 4h/150C Shell Epon 828; 3.2 mm casting; tetrahydrophthalic anhydride system; cure - 24h/150C Shell Epon 828; 3.2 mm casting; tetrahydrophthalic anhydride system; cure - 4h/150C
3 2.4 2.4 2.9 1.6 1.5
Alum
sodium aluminum sulfala
28.5 28.5 28.5 28.5 28.5 28.5 28.5
-~~;
28.5
0.1
98
77
28.5
5
88
95
28.5
0.5
70
57
28.5
94
0.2
86
28.5
0.4
89
90
28.5
0.4
91
82
28.5
-0.1
100
85
Ammonium Hydroxide 1.08
Carbon Tetrachloride
0.05 0.03
@
"1:l
~
..... (J)
Chromic Acid
25 25
ri' (J)
25
1?
25
(J)
tEl' ;:l
t
.,
0-
.,P
It::
25 25
No.~e
Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casling; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm cesting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,1 h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm casling; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casling; cure- 20 phr diaminodiphenylsullone; 2.5hI120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,l h/204C Shell Epon 828; 3.2 mm casling; cure· 75 phr phthalic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm casling; cure- 14 phr MPDA; gel @ 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C, 4hl150C Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casling; cure- 14 phr melaphenylenediamine; 2h/iiOC, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetelramine; 21 days It 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsullone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,l h/204C
@
"\'l
P ~
Reage.~t
0'
Reagent Note
I conc" (%)
TemP.,,! ('C)
% Retained
'Ti!".~.",·I . '." POL (dly~),_Rating
Resh.tance N.ote
Material Note
no change In appearance
Shell Epon 828; 3.2 mm casting; cure· 75 phr phthalic anhydride; 2h/120C. 24hl149C Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16hl180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C. 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C. 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,1 h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C. 24h/149C Shell Epon 828; 3.2 mm cesting; cure- 14 phr MPDA; gel 0 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C. 4h/150C
(I)
tl
Chromic Acid
25
24
180'
....;. :s
Cl>
(I)
to· ;:l
~
.,0.,P
tt::
-0.2
95
73
25
-0.1
84
96
25
0
72
93';':'
25
-0.1
85
89
25
-0.2
86
93
25
-0.5
79
91
25
-0.2
99
92
40 40
Ethyl Acetate
<¥f ;;:&\U Formaldehyde
f%:{~#?i?J
~.
edges crazed.and·scale~"·
25
.
Sfi9~;v~~~~~~7_,.
Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel 0 70C. 4h/150C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel 0 70C, 4h/150C
0.68
40
Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C. 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days 0 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C. 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C, 1h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic " anhydride; 2h/120C, 24h/149C
40 40 40 40 40 40
Formaldehyde 1.5
86
69
70
0
2.7
80
86
1.5
91
68
1
78
68
1
105
48
Hydrochloric Acid
Shelf Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shelf Epon 828; 3.2 mm casting; cure- 14 phr Iriethylenetetramine; 21 days @ 23C Shelf Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2hl149C Shelf Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C,1 h/204C Shell Epon 828; 3.2 mm casling; cura- 75 phr phthalic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4h/150C Shell Epon 828; 3.2 mm casting; cura- 2 phr EMI-24; gel 0 70C. 4h/150C Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C
25 25
m
"0
o
x
'<
Chemical Resistance - Epoxy Resin
01 N
(J,)
m
en
Chemical Resistance - Epoxy Resin
"0 0 X
N
~
'<
I
I
I
I
I
I
I
I % Retained
Reagent
I
Reagent Note
Hydrochloric Acid
I cone" Temp, I Time. 1 P~L I Weight (~l
('cl
(~aysl
25
24
180
I
Resistance Note
25
24
180
24
180
Shell Epon 828; 3.2 mm casting; cure· 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodlphenylsulfone; 2.5h/120C, 2h/204C
cha(·like odor ;.- ,~
25
~~'.
·very slight darkening
'7· ,
... ~:
25
24
180
9:;'
25
24
180
9
'::,
greenish, some darke~ing::
6 I
"',"
;
"'.)
.
no change in i1p~earan'ce
·
'
·
"
25
54
180
6
109
53
25
54
180
7"
101
79
slightly greenish
25
.54
180
5
96
53
st darkening, char-Iike'odor
i
:T~:':
25
54
180
6"
104
50
some slight darkening
25
54
180
~
106
100
greenis/i'"
25
54
180
7
105
76
slight dil,r.1Iening,
25
54
180
7
106
58
no change in appearance
25
82
180
6
10
100
47
25
~.?
, i
.::>:~:: .~:' ,,:~
Hydrochloric Acid
, ;
.'
..... "considerable daiiienliiii
·
82 '
180
8
1
98
113
25
82
180
76
63
consid, darkening ~nd'~"ollen edges
25
'82
180
".6
11 0.3
92
45
considerable'd~itening
25
82
180
?
2
101
61
greenish;slighl 'datkening
25
82'
180
7
0.3
89
85
edges
25
82
180
6
-0.1
97
23
.
66'
14
66
14
.·9
0.16
66
14
9
0.07
;:.;
concentraled
Jet Aircraft Fuels
1:1
S CIl .... tl ell
CIl
Methyl Ethyl Ketone
-0.2
102.6
100.7
-0.2
100.8
99.5
95 95
2
7
~,
9.,
Methylene Chloride
Shell Epon 828; 3.2 mm castin?; cure- 2 phr EMI-24; gel @ 70C, 4h 150C ., Shell Epon 828; 3.2 mm castin?; cure- 14 phr MPDA; .. gel @ 70C, 4h 150C
.'~:
"{ :_~_x·
.:,~<\:{<~
Shell Epon 828; 3.2 mm castin?; cure- 2 phr EMI-24; gel @ 70C, 4h 150C Dexter HyComp 400; 60-65% S2 fab.; laminate; low vise. system; 6781 gl. Shell Epon 828; 3.2 mm castin?; cure- 14 phr MPDA; gel @ 70C, 4h 150C
1':
4.35
0.2
Shell Epon 828; 3.2 mm castin?; cure- 14 phr MPDA; gel @ 70C, 4h 150C
.. :~.):.
1.13
;:l
.,0: .,I:l
0.16
I
Shell Epon 828; 3.2 mm caslin?-; cure- 2 phr EMI-24; gel @ 70C, 4h 150C
~,
Shell Epon 828; 3.2 mm castin?; cure- 14 phr MPDA; gel @ 70C, 4h 150C Shell Epon 828; 3.2 mm caslinr cure· 2 phr EMI-24; gel @ 70C, 4h 150C
\
tEt'"
9
0.2 5.13
Methyl Alcohol
CIl
14
S~~;I!n;~~n~id~;dar~~hi~9i'
c6~slderable ii~&~~i;ll
, , ,
0.1
·"23
Kerosine
r;'
iO}
I 66
@
.:~-:.:
Shell Epon 828; 3.2 mm caslin~ cure· 20 phr Epon curing agent Z; 2h/80 ,2h/149C Shell Eft0n 828; 3.2 mm casting; cure- 3phr boron tri luoride ethylamine; 3h/120C,lh/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthatic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm casting; cure· 110 phr chlorendlc anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casling; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diamlnodlphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm caslin~ cure· 20 phr Epon curing agent Z; 2h/80 ,2h/149C Shell Eft0n 828; 3.2 mm casting; cure- 3phr boron trl luoride ethylamine; 3h/120C,1h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C Shelf Epon 828; 3.2 mm casting; cure- 110ghr chlorendic enhydride; 3h/149C, 16h/180 Shell Epon 828; 3.2 mm casting; cure- 14 ~hr metaphenylenediamine; 2h/80C, 2h/149 Shell Epon 828; 3.2 mm casting; cure, 14 phr triethylenetelramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Eft0n 828; 3.2 mm casting; cure- 3phr boron trl luoride ethylamine; 3h/120C,1h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24hl149C
"i=;
Hydrogen Peroxide
Material Note
Rating
i'
-0.3
101.3
100.8
Dexter HyComp 400; 60-65% S2 fab.; laminate; low vise. system; 6781 gl.
@
% Retained
"'I::l
S' ~
n'Vl t:l
Reagent
Reagent Note ~~~~,
(%)
,
T;~~(M
Cone. Temp. 'Time (Of)
Modulus
Strenlit~'~
.Ida!,).
Flexural Strength
I
'>:.
Nitric Acid
40
14
,.gE;;; '5 """"
~
Vl
;:l
t
Phosphoric Acid
.,0-
., $:I
It::
3
,·66
30
3
66
30
1.475
3
93
30
2.625
3
..93,
30
1.765
50
66
30
1.23
'6~
30
50
"">
50
,93
30
50
::93
30
1.69
.:~
5
1.81
::, 50 50
Potash
.,.'.
,'.107'
,
30
.:):g?:,,:.•
30
86'
14
·-'»t:·,
~
saturated
8;[;j)
1.23 2.18 1.39 0.58
50
":$
0.3
.
20
7
,$3,
14
20
"<'.'~~:~',}J
Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4hl1S0C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMt-24; gel @ 70C, 4hl1S0C
0.11
~:-::::':~ ::~::
;, "23':}
:::..
0.5 :~~
.~;;>
0.1
'5,,: \.,
1.6
;6)
1.1
-0.2
101.9
102.3
10
7
-0.1
20
14
2.3
20
14
1.6
0.1
118
53.4
50 50 50 50 50 50 50 50
m o
180
102
17
'U
X '<
Dexter HyComp 400; 60-65% S2 fab.; laminate; low vise. system; 6781 gl. Shell Epon 828; 3,2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4hl1S0C Shell Epon 828; 3.2 mm cesting; cure- 2 phr EMI-24; gel @ 70C, 4hl1S0C
~;~?~:
14
.:.:-}~~ "~:;';"
Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4h/l SOC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C, 4h/lS0C
. ,'.~
.. g""'"
.-~
Sodium Hydroxide
1:~ji)ij;;·'·' ,; .. ,'~;-,,:'·i
50
Skydrol 500B4 Sodium Chloride
61;"
,g
"
Potassium Hydroxide
.:':';
MaterlafNote
Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ SSC, 2h/12SC, 2h/17SC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, 1h/120C, 3h/204C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ SSC, 2h/12SC, 2h/17SC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, I h/l 20C, 3h/204C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ SSC, 2h/12SC, 2h/17SC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, lh/120C, 3h/204C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ SSC, 2h/l 2SC, 2hl17SC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, 1hl120C, 3h/204C Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ SSC, 2h/12SC, 2hl17SC Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, 1h/120C, 3h/204C
1.145 :~;
No~e
Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4h/lS0C Shell Epon 828; 3.2 mm casting; cure· 2 phr EMI-24; gel @ 70C, 4h/l SOC
40
<E'
Resistance
Dexter HyComp 400; 60-65% S2 fab.; laminate; low vise. system; 6781 gl. Shell Epon 828; 3.2 mm casting; cure- 14 phr MPDA; gel @ 70C, 4hl1S0C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; gel @ 70C, 4hl1S0C Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.Sh/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2hl149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trifluoride ethylamine; 3h/120C, I h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24hl149C Shell Epon 828; 3.2 mm casting; cure-110 phr chlorendic anhydride; 3hl149C, 16h/180C
01
Chemical Resistance - Epoxy Resin
1')
01
m
Chemical Resistance - Epoxy Resin
"'0 0 X
01
'" 0>
'<
I
Reagent Sodium Hydroxide
I
I
I
I Conc. Temp.
Reagent Note
% Change
POL
Time
Weight
I
I
I I
I
Resistance Note
Volume
Tensile, Modulus Flexurel Strength Strength
8-.
-0.3
104
80
Slight dulling
'9
-0.3
99
94
very Slight darkening
8
-0.2
105
96
slight dUlling
9.
-0.2
101
106
-0.2
92
94
slight darkening
0
7
dissolved; eai~n away; dull sl. darkening
(%)
('C)
(days)
Ratin~
50
82
180
50
82
180
50
82
180
50
82
180
50
82
180
8
50
82
180
0
50
93
14
'9
0.09
50
93
14
9
0.02
6
24
180
Thickness
% Retained
~4
6 6
24
6
24
Shell Epon 828; 3.2 mm castinw cure- 2 phr EMI-24; gel @ 70C, 4h 150C
noctiarigei"ap~eara"cii
9 :~ '"~'''
'-7
180 (i
180 180
9
stight ~h~lkiOg
!
. ::.\:!\:::. 6 'J;
l
~:'?}{
pinklsh white no change in appearance .'~
Sodium Hypochlorite
6
24
6
24
6
24
6
54
180
7
.• Slight chalking
i
no change in eppeanince
$: :~
.
0
102
107
· · · ·
6
54
180
8
-0.3
94
74
6
5~<
180
.••• 6
-2.5
76
87
6
54
180
7
-0.3
95
79
6
54
180
7
-1
92
90
considerable chalking
6
54
180
.8
-0.2
100
82
slight ~hitening
54
180
9
·0.1
98
88
no change in appearanca
30
"·5'> '6
<:"
6
:1
~:
Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 ghr metaphenylenediamine; 2h/80C, 2h/149 Shell Epon 828; 3.2 mm casting; cure- 14 phr lriethylenetetramine; 21 days @ 23C i Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsullone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm castin~ cure- 20 phr Epon curing agent Z; 2h/80 ,2h1149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trilluoride ethylamine; 3h/120C, 1h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24hl149C Shell Epon 828; 3.2 mm casting; cure· 110 phr chlorendic anhydride; 3h/149C, 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsullone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure· 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trilluoride ethylamine; 3h1120C,1 h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C
heaVy.chalking
(
Sulfuric Acid
3
66
.,~
Shell Epon 828; 3.2 mm castin~; cure- 14 phr MPDA; gel @ 55C, 2h/125 ,2h1175C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI-24; 4hnOC, lh/120C, 3h/204C Shell Epon 828; 3.2 mm castin~; cure- 14 phr MPDA; gel @ 55C, 2h/125 ,2h/175C Shell Epon 828; 3.2 mm casting; cure- 2 phr EMI·24; .; 4hnOC, lh/120C, 3h/204C
1.645
/ 3
66
30
1.495
i
'1:l
3
93
30
2.59
,
~
3
93
30
1.755
(J)
10
23
7
0.2
@
po
;)
\
ri'
"::
-0.2
103.9
97.9
Dexter HyComp 400; 60·65% S2 lab.; laminate; low vise. system; 6781 gl.
tJ
(1) (J)
to ;J
25
24
180
9
25
24
180
9
25
2.4
180
~
'no change
,
.,~
te:
11
:~ ~
'I
•
i~
appearance
·
t'"
0: .,
Material Note Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetelramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Eft0n 828; 3.2 mm casting; cure- 3phr boron tri luoride elhylamine; 3hI120C,lh/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C Shell Epon 828; 3.2 mm castin9; cure- 14 phr MPDA; gel @ 70C, 4h 150C
·
~;
Sodium Hypochlorite
I
"
'1
Shell Epon 828; 3.2 mm casting; cure- 110thr chlorendic anhydride; 3h/149C, 16h/180 Shell Epon 828; 3.2 mm casting; cure· 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C
@
'p"o ~
~eagent
r:;' CIl
~ tEo
Sulfuric Acid
CIl
;:l
t-
o:..,
Reagent Note
I cf~c·IT~.~r 25
l il.;;' t
"24
Weight
IThlcknesslj~!ti~il~;~:~~h III0dUIU'1 ~~;:~~r~1
Resista~c~
180
nQ'change In eppaaranca, .
180
25
180
,.9.(a~nish",.,som.e"I!~.rken\rig,n ",., .... ,...,....:'., """"':":"
'!' .'"
.no~hang~'ik;ppe~~a~~a.'
l ".
25
..,
~
tt:
25 25
82
180
25
82 . ,.
:.t
180
·'3
: ·,82
180
,;:'6)':'
180
(5Ji'i\ :,- . i'::.
50
50
30
.
...
66'i
30
;,
;'.93 'i,i
30
< 50
l
;p
\>':9",:I
",i: ,;:,;,: . i\
sl.dartanlng. swalling.sugar-like odor':
.......:...
90.'S.li9hidJ~~rii~li't·
2
89
55
0.2
95
82
0.1
101
96
"
.... ;. "'At.'..
.
graenish,slighl'd.rkaning
,:;
',~;J~ht~i~~ning,\j{" )" ' ; ; i . " · ' '.
0.635
Shall Epon 828; 3.2 mm casling; cura- 2 phr EMI-24; 4hnOC, lh/120C, 3h/204C
>.
Shall Epon 828; 3.2 mm casling; cura- 2 phr EMI·24; 4hnOC, 1h/120C, 3h/204C Shall Epon 828; 3.2 mm casting; cura· 14 phr MPDA; gal 0 55C, 2h/125C, 2hl175C
.,
30
.3
3.32
, "
50
107
30
.8
0.65
" \.,
70
93
14
70
"93
14
~
I. !
'
. Shall Epon 828; 3.2 mm casling; cura- 2 phr EMI-24; '; 4hnOC, lh/120C, 3h/204C
. sampla. dastroyed ..
Shell Epon 828; 3.2 mm casting; cura- 14 phr MPDA; gal 0 70C, 4h/150C
0.45
Toluene
Shall Epon 828; 3.2 mm casling; cura· 2 phr EMI·24; gal 0 70C, 4h/150C
1.1
Shall Epon 828; 3.2 mm casting; cura- 14 phr MPDA; gal 0 70C, 4h/150C
, 1.2 '.
no change in' appeOlanca
Trichloroethylene 180
7
slighily graanish ,.
I
wrinkled, brown adges
i
180
.1
1
8
0
no changa in .appaaiance.. ': ',. .'"
) SIi9ii!l{gr.a~bl~h)i.. . .
,.,......• ,.:......,"".., .•••. ,..""
'\'_'" "
180
54,
180
54
180
.
", \,
'.,
6
0
0; •
94
97'
.
"
Shall Epon 828; 3.2 mm casting; cura- 14 phr Iriathylanelalramina; 21 days 0 23C
.:'
Shall Epon 828; 3.2 mm casting; cura- 20 phr diaminodlphanylsullona; 2.5h/120C, 2h/204C
;;·.> ,." ,7'"
··";chiPpin~;~otleri~9.s;.Wnll;
180 24
Shall Epon 828; 3.2 mm casling; cura- 14 phr mataphanylanadiamine; 2h/80C, 2h/149C
.
180
Shall Epon 828; 3.2 mm casting; cura· 2 phr EMI-24; gal @ 70C, 4h/150C Shall Epon 828; 3.2 mm casting; cura- 110 ph. chlorandic anhydrida; 3h/149C, 16h/180C
'"
.
24
EP~~r~~~;a~~n~~ ~:~~~g: ~~~:~~~hr
Shell Epon 828; 3.2 mm casling; cura- 14 phr MPDA; gal 0 55C, 2h/l 25C, 2h/175C
l'
0,
Shall
:.
107
r
Shall Epon 828; 3.2 mm casling; cura- 20 phr diaminodiphanylsullona; 2.5h/120C, 2h/204C Shall Epon 828; 3.2 mm caslin~ cura· 20 phr Epon
! ; , , (", .
1.63
Shall Epon 828; 3.2 mm casling; cura- 14 phr Iriathylanatatramina; 21 days 0 23C
Shall Epon 828; 3.2 mm casling; cura- 14 phr MPDA; gal 0 55C, 2h/125C, 2h/175C
' . . .
0.485
Shall Epon 828; 3.2 mm casling; cura- 14 phr malaphanylanadiamina; 2h/80C, 2h/149C
boron IIIlIuolida alhylamlna; 3hI120C,1h/204C ",' . ' Shall Epon 828; 3.2 mm casting; cura- 75 phr phthalic " j anhydrida; 2h/120C, 24h/149C
.l
30
':'
'.
91
,,'
". . ,
48
.;<\,\:',,:":: T' ..···:13\::'··· 1.415 ..
,
93
0.1
, . 'X!} \'
180';'9'. ....
" .
55
" .
180.8.),
.,
50
sfight dullirig .'.,
20
25
{/"liS'{ . ,
dull, soma darkaoing
85
.,- 'w.
2 5 : 82
50
87
94
.,
82
82
103
Shall Epon 828; 3.2 mm casting; cura- 75 phr phlhalic anhydride; 2h1120C, 24h/149C .-", Shall Epon 828; 3.2 mm casting; cura, 110 phr '.' chlorandic anhydrida; 3h/149C, 16h/180C
..
25
25
0.1 0.3
<}
,.:'
Shall Epon 828; 3.2 m~ casling; cura- 3phr boron IIIlIuorida athylamlne; 3h/120C,1h/204C
.
"'.• '"
180' '/ 8. ""'.
f
,
180 '. 82".' ".,
Sulfuric Acid
.
~ate,rl~1 Note
Shall Epon 828; 3,2 mm casting; cura· 20 phr diaminodiphanylsullona; 2.5h/120C, 2h/204C Shell Epon 8.28; 3.2 mm casting; cura- 20 phr Epon cUling aganl Z; 2h/80C, 2h/149C
"k"'" ... . . ,,\>:/;<. ...
I 25
,I "
Note
Shall Epon 8.28; 3.2 mm casting; cura- 20 phr Epon cUling agant Z; 2h/80C, 2h/149C
Shall Epon 828; 3.2 m~ casting; cura- 3phr boron tllfluollda athylamma; 3h/120C,1h/204C Shall Epon 828; 3 2 mm casllng; cura- 75 phr phlhallc anhydllde; 2h/120C, 24h/149C , Shall Epon 828; 3.2 mm casting; cura- 110 phr chlorandic anhydrida; 3h/149C, 16h/180C
&
•. '. ,.f· ··Y·"A c .. F
'n?'~patlga in. app-~a·rance., > '" : :;; ...-" •. ""'-"" .cllipped"sOft. s~~tlen " ,.
no
cha~ge
in' appeatance
Shall Epon 828; 3.2 mm casting; cura- 14 phr melaphanylanadiamine; 2h/80C, 2hl149C
m
"0
01
o
x
'<
Chemical Resistance - Epoxy Resin
I\,)
-..I
m
Chemical Resistance - Epoxy Resin
-c
01 N
o
ex>
x
'<
Reagent
Reagent Note
~i!)~J~r I~:: I".:l~g I•..··1"··....1""m'l ,~:::. .
Trichloroethylene
..
Resistance. Note
1..,.,,1 ...,\iN
54
180
.6'
3
86
84
slightly. chIpped, blisiered
54,
180
8
8
94
101
slightly gre~nish
54
180
6.
9
92
65
greenish
54
180
1
a
0
chipping, softening, swelling
54
180
1
a
a
24
180
.9
24
180
9
,2,4
180
6.
180
9
".: ;~
Water
distilled
24
,
24
180
24
180
'~:ii%in :::':;:'~""
l\t::
,
l
1
,
180 ,~.
·
0.2
102
113
180
8
0.2
100
74
54
180
6
1
80
78
whitened
5.4
180
9
0.3
100
102
no change in appearance
54
180
9
0.1
100
90
·
54
180
9
0.2
104
103
very slight darkening
54.
180
9
0.1
100
94
66
14
66
~
·
1.19
Shell Epon 828; 3.2 mm castin~; cure- 14 phr MPDA; gel @ 70C, 4h 150C
14
7;
0.88 84 81
Shell Epon 828; 3.2 mm castin~; cure- 2 phr EMI-24; gel @ 70C, 4h 150C Shell Epon 828; 52% sil.lil.; tiller w/1% mod. glycidoxy silane treatment Shell Epon 828; 52% sil.lil.; filler w/l % stand. glycidoxy silane trealmenl Shell Epon 828; 52% sil.lil.; untreated til. Shell Epon 828; 3.2 mm casling; chlorendic anhydride syslem; cure - 200h/150C Shell Epon 828; 3.2 mm casting; chlorendic anhydride system; cure - 24h/150C Shell Epon 828; 3.2 mm casting; chlorendic anhydride system; cure - 4h/150C Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride system; cure - 200h/150C Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride system; cure· 24h/150C Shell Epon 828; 3.2 mm casting; dodecenyl succinic anhydride syslem; cure - 4h/150C
1 1
6
100 100
1 1
3 9
0.48
100
1
8
0.52
100
1
f?
100
1
to ;::l
100
1
t""
100
1
64
'1::l 0.58
,
CI>
CI>
0: ..,
..,
p
tl::
,
Shell Epon 828; 3.2 mm casting; cure- 110thr chlorendic anhydride; 3h/149C, 16h/180 Shell Epon 828; 3.2 mm casling; cure- 14 ~hr metaphenylenediamine; 2h/80C, 2h/149 Shell Epon 828; 3.2 mm casling; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsulfone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm castin~ cure- 20 phr Epon curing agent Z; 2h/80 ,2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trilluoride ethylamine; 3h/120C,1h/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h1120C, 24h/149C Shell Epon 828; 3.2 mm casting; cure- 110 phr chlorendic anhydride; 3h/149C. 16h/180C Shell Epon 828; 3.2 mm casting; cure- 14 phr metaphenylenediamine; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetelramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsullone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm cestin~ cure- 20 phr Epon curing agent Z; 2h/80 ,2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trilluoride ethylamine; 3h/120C, lh/204C Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic anhydride; 2h/120C, 24h/149C
,.\/.~'
..
100
r;-
no change in appearance
"'" 9
100
po
· .pinkish
54"
:c:
{;
~
'>->''.
180
;~;
@
,".
'.
9·
j 54
chipping, ·soft, swollen ...
·
"~
9 ~~
24
-
.
;:~ ~
boiling
Material Note
Shell Epon 828; 3.2 mm casting; cure- 14 phr triethylenetetramine; 21 days @ 23C Shell Epon 828; 3.2 mm casting; cure- 20 phr diaminodiphenylsultone; 2.5h/120C, 2h/204C Shell Epon 828; 3.2 mm casting; cure- 20 phr Epon curing agent Z; 2h/80C, 2h/149C Shell Epon 828; 3.2 mm casting; cure- 3phr boron trilluoride ethylamine; 3h/120C,lh/204C r,:;::;;; Shell Epon 828; 3.2 mm casting; cure- 75 phr phthalic ...... anhydride; 2h/120C, 24h/149C
no change in appearance
,',
Water
I
~
}
7
:,
.~;
0.71
,
0.76
1
0.92
I !
@
"0
S" ~
Reagent
t::l
Water
n'V>
...-
I
Reagent Note
:~~:i~:~1
rCO,f,lliiIJemp'l Time . [ PP-L
..•...... . (~).<
(d~ys)"Ra,!:~~
1;.C)
:::::::::::::::::::X:
Re~lstance
Note
Material No~e
boiling
100
1
'·lfYi·
0.46
Shell Epon 828; 3.2 mm casting; hexahydrophthalic anhydride system; cure - 200h/150C
"
100
1
.. 9<.
0.45
Shell Epon 828; 3.2 mm casting; hexahydrophthalic anhydride system; cure· 24h/150C
t""'
"
100
1
.9.
0.45
Shell Epon 828; 3.2 mm casting; hexahydrophthalic anhydride system; cure· 4h/150C
.,P
"
100
1
8
0.67
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure - 200h/150C
"
100
1
8
0.67
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure - 24h/150C
100
1
7
0.98
Shell Epon 828; 3.2 mm casting; Nadic methyl anhydride system; cure· 4h/150C
100
1
8
0.73
Shell Epon 828; 3.2 mm cas ling; phthalic anhydride system; cure - 200h/150C Shell Epon 828; 3.2 mm casling; phthalic anhydride system; cure - 24h/150C
(l)
V>
~.
;:l
.,0:
\r;:
100
1
8
0.51
·100
1
9
0.5
Shell Epon 828; 3.2 mm casting; phthalic anhydride system; cure - 4h/150C
100·
1
6
1.5
Shell Epon 828; 3.2 mm casting; succinic anhydride system; cure - 200h/150C
100
1
6
1.3
Shell Epon 828; 3.2 mm casting; succinic anhydride system; cure - 24h/150C
1
·6·'·
1.3
Shell Epon 828; 3.2 mm casting; succinic anhydride system; cure - 4hl150C
1
7
0.81
Shell Epon 828; 3.2 mm casting; tetrahydrophthalic anhydride system; cure· 24h/150C
1
8
0.6
Shell Epon 828; 3.2 mm casting; tetrahydrophtbalic anhydride system; cure - 4h/150C
4
6
0.77
74
92.5
Hercules 8551-7A; S2 gl.; 85511 polypyrrole treated quartz fab.l8551 laminate
0.87
78.3
94.7
Hercules 8551·7A; S2 gl.; epoxy/S-2 glass unidir. tape laminate
lOP ',:
100 100 100
,
m
"0
c.n
o
X '<
Chemical Resistance - Epoxy Resin
N
CO
530
Chemical Resistance - Furane Resin ,
'>
,:
'{
r
Reagent Notec
Reagent .,
,
-\
,.
,~/
I
'.;'
., . :'~ ,c "'\' ·It ",' ",./ ":""" ,;;;;' Conc. Temp. ·PO.L I , ·Max. ResistarlceiNote. i / . (%) ('C) Rating ~emp"('9 :"". .' ,.,.c:· . c',.:"c.c,,:; ':c::",.::/. ;~->:.,
,,~:~.-':~:::~
~
;"":,"
Acetaldehyde Acetic Acid glacial
Acetic Anhydride Acetone Acetyl Chloride Acetylsalicylic Acid Acrylonitrile Aliphatic Hydrocarbons Alkaline Cleaners Almond Oil Aluminum Bromide Aluminum Chloride Aluminum Fluoride Aluminum Hydroxide
100 10 100 100 100 100 100 100 100
8 8 8 8 8.·", 8 .' 8 8 8 8 8 '. 8 8 8 8 8 8 8 8 8 2 8'
soak cleaner; 10 oz/gal
100 saturated all concenlrations
" saturated
20
Aluminum Sulfate Aminoethoxyethanol Aminoethylpiperazine Ammonia
all concentrations
w/ 0.2% pyridine w/ 2% pyridine
Ammonium Bromide Ammonium Carbonate
saturated
Ammonium Chloride Ammonium Fluoride Ammonium Hydroxide
saturated all concentrations
Ammonium Nitrate Ammonium Persulfate Ammonium Phosphate
saturated
"
100 100 5 5
132
8 8 8 8 8 8 '8 8 8 8 8 8.. .8 8 8 8 8 8 8 8 8 8 8 8 2 '. 2 8 8 8, 8 2 2; """""""8"":: 8 8
10
5 10 20 28
" dibasic; saturated monobasic
Ammonium Sulfate Ammonium Sulfide
saturated
Ammonium Tungstate Amyl Acetate
saturated
65
,
" 25 all concentrations
100
Amyl Alcohol
all concentrations
vapor
Aniline Aniline Hydrochloride Antimony Chloride Antimony Oxychloride Aqua Regia Arquad C50 Barium Chloride Barium Hydroxide Barium Su lfide Beer Benzaldehyde Benzene
100 100 saturated
" concentrated; fumes concentrated
71
" all concentrations saturated
" 100 100 vapor
100
Benzenesulfonic Acid
saturated
Benzoic Acid Benzotrichlorlde Benzoyl Chloride Benzyl Alcohol Benzyl Benzoate Benzyl Chloride
saturated
30
Bleach Borax Boric Acid
Furan
"
8'.
. c. 8 100 100 100 100 100 100
calcium hypochlorite; sat. saturated
'::
8
8
8' "
',. '8;,;
;;c:
, '
.."
./.:
2 .8.
107 107 116 107 32 82 107 107 121 82 49 121 121 107 107 107 121
Ashland Hetron 800
" " " solution may discolor
" "
" "
" " " " synlh. surf. veil generally used
limited service lile expected
43 43
synth. surf. veil generally used
"~
:.~::.>
"
" " "
" "
" " " " " " "
" " not recommended for use
" 49 93 93 66
" "
" " " not recommended for use
" 32 32 93 93 121 121 38 93 49 93 121 60 93
" " " " " " " " " "
" "
" " "
" "
" " " " "
" "
" " not recommended for use
II. ..
" " " " "
" not recommended for use
107 107 82 104 107 38 38 38 38 104 82 82 82 104 121 49 121 93 49 93 60 121 107 107 107
"
" " "
© Plastics Design Library
531
Chemical Resistance - Furane Resin
Bowl Cleanse Brine Bromine Butyl Acetate Butyric Acid
Calcium Bisulfite Calcium Chloride Calcium Hydroxide
salt; saturated liquid
100 100 25 50 70 100
not recommended for use
104 49 66 66 93
107 121 107 107 107
saturated
15 25
Calcium Hypochlorite Calcium Nitrate Calcium Sulfate Calgon Carbamide Carbon Disulfide Carbon Monoxide Carbon Tetrach lorlde Catechol Caustic Cerous Nitrate Chloral Chlorine
saturated
gas
Chlorine Gas Chlorine Gas Coolers &Strippers Chlorobenzene Chloroform Chloronaphthalene Chlorophenol Chromic Acid
100 100 100 100
spent. phenolic refinery salurated liquid wet gas
Chlorine Dioxide
not recommended for use
104 121 104 107 32 71 107 121 54 32 107 -48
100
66
<1 gil
good test results atter short expos. limiled service life expected; this is preferred material not recommended for use
in air
5
dry
15 100
107
100 100 100 100 100
121 27 121 107 107
not recommended for use liquid; trichloromethane vapor
not recommended for use
saturated
5 intermittent
10 15-20 20 30
Chromic Chloride Chromium Potassium Sulfate Citric Acid Copper Acetate Copper Chloride Copper Sulfate Cresol Cresol Fumes Cyclohexanone Cygon 400 Detergents DFR 121 Dibromopropanol (2,3-) Dibromopropyl Phosphate Dlbutyl Phthalate Dlchloro-4-Anlline (2,6-) Dlchloroacetic Acid Dichlorobenzene Dichloroethane Dlchloroethane (1,2-) Dlchlorolsopropyl Phosphate Dlchlorophenol Diethylamine
© Plastics Design Library
104 107
saturated
129
mixture
not recommended for use
107 121 121 66 32 38 66 38
100 100 100 100
organic Arapahoe Chemicals
not recommended lor use
41 41
100 100 100
93
in 32% HCI
77 100
100 100 100 100 100 100
129
not recommended for use
104 38 38 41 60
107
Furan
532
Chemical Resistance - Furane Resin I}f
i' • '
':;
",.
Reagent······ Diethylene Glycol Diethylene Glycol Methyl Ether Diethylenetriamine Dlglycol Amine
Ethyl Amine Ethyl Bromide Ethyl Chloride Ethyl Sulfate Ethylene Chloride Ethylene Oibromide Ethylene Dlsulfonlc Acid Ethylene Glycol Ethylene Oxide Ethylene Tetrachloride Ethylsulfuric Acid EVA Fatty Acids
.
",'
.•".
1·\
•..•
!.•:....
saturated with C02 and H2S
100
8····
107
100 100
8 .8
107 38
100 100 7.2 30 100
132 132
6
8
wi 23% fatly acids ethylene dichloride
32
8 8 6
32
52 93 104 104 107
{.
66
'
8 8
8
'.
8
". ,8 8· .,,'
Ferric Chloride Ferric Nitrate Ferric Sulfate Fish Oils Flue Gases Fluoborlc Acid Fluorine
and meal exhaust gas coal fired saturated gas
Fluosllicic Acid
saturated
29 107 121 121 121 107 38 121 not recommended for use
121 121 107 79 93 100 93 93 93 93
.;. 8 ,~/
25 25·37 37·44
8··•..
100
Formic Acid
10 25 50 100
8 .\
107 71 49 38
100
.8
77
8 8 8 8.
49 49
no. 1 and no. 2
Furfuryl Alcohol Gallic Acid Gasoline Glass Cleaners Glycerine Glycerol Chlorohydrln Glycerol Dlbromohydrin Glycerol Dichlorohydrin Glyoxylic Acid Halso 99
8
8 8
5 10 50· 100
il.,. . 8 8 8
100
8
8 8.
100 100 100 100 wi saturated S02
25 25 100
107 107 107
. '.)
••
100 saturated marine ammonia fortified
synth. surf. veil generally used
limited service life expected; this is preferred malerial
concenlrated soil, concentrated
Furfural
not recommended for use synth. surf. veii generally used limited service life expected; this is preferred material
107 107 107
Formamlde
Fuel Oils Fumigants
solution may discolor
38
23
saturated
Formaldehyde
Ashland Hetron 800
not recommended for use
..
8
100 saturated all concentrations
saturated ethylene chloride
."
limited service life expected; this is preferred material
100 10 100 100
saturated
.
limited service life expected
8 8
100 100
~:
1;;~~l~riaTN~!;;:"
107 93 107 38 49
100
77 100
!".+
••••
i
ReslstanceNote . :: . ,~,.
lii['Y:;i':;;' .
32 32
8 6 8
herbicide; concentrated
16
.• " . . : • .'.
. 6,
100 100 100
wi 83% methylene chloride, 1% caustic
.,
limited service life expected
10 25 35
Furan
j ' •..• .
Cone. Temp. POL Max.' (,,),,(,,~)., Ratl~g ~~iri~«'C)
Dimethyl Formamide Dimethyl Phthalate Dimethyl Sulfate Dimethylaniline Elvase Eptam Ethyl Acetate
.
<8
102 102
8 2, ;, ..2
• ·•• ·,8,.
107 121 27 38 121 52 41 52 not recommended for use
32
© Plastics Design Library
533
Chemical Resistance - Furane Resin
Rllagent··.. ){\/~.fft2< ".; ~.~. ~ Hllptane Herbicides
normal liquid
Hexachlorocyclopentadiene Hexane Hexylene Glycol Ammonium Chloride Hydrazlne Hydrazine Sulfate Hydrlodlc Acid Hydrochloric Acid
100
121
a
Eptam; concentrated 1-10
"a
49
100
'•. 8 . . .
93
is'
71
100
,8 70
107
8',
:
121
36
8
66
36-37
2 2'"
•.
10-58 20
.
32
37,5
Hydrogen Peroxide
.;a~ ·::,,'a,·
35 vapors
50
Hypophosphorous Acid losprep 44 Isoamyl Alcohol Isocure 306 Isoprep 33 Isopropyl Alcohol
2 2
20
2,'
not recommended for use
46 82
100
8
100
,a
32
a
74
.8
66 66
50z/gal 10
129
8"'"
all concentrations
107
,.,,::.:·,,8' 1-10
49
100 saturated
107
8::)'
107
,a
107
'
::~
93 ,',
,~
107
8 '
107
8" 100
107
'8
8 8
100
104 93
8 ~
.
104 107
>'
38
100
93
lOa
66 not recommended for use
100
lOa
93
66
100 100 100
w/ 5% chloroacetic acid
8 ", :~:
27
. 8 '."'" 8 :.. : ,.•'
93
n>"
100
w/ 50% toluene
soiution may discolor
27
,8 8"',
8 8
hyd, perox, suppliers must approve materials not recommended for use
,,8
100z/gal
50
32
90
32
100
8'
Naphthalenesulfonlc Acid
100
, 8 8
100
·,,8.... "..
saturated
93 limited service Iile expected; this is preferred material
Mineral Oils
Nickel Chloride Nickel Nitrate Nickel SUlfate Nitrating Acid
60
a
50
herbicide
. . :: 121
10
concentrated
synth, surf. veil generally used
not recommended lor use
Il
all concentrations
100
Lactic Acid Lasso Lasso EC Lead Chloride Lead Nitrate Levulinlc Acid Magnesium Chloride Magnesium Sulfate Maleic Acid Manganese Chloride Manganese Oxide Manganese Sulfate Mercuric Chloride Metaphosphoric Acid Methanamlde Methanesulfonlc Acid Methyl Acetate Methyl Chloride Methyl Cyclohexanol Methyl Ethyl Ketone Methyl Isobutyl Ketone Methyl Sulfate Methyl Sulfonic Acid Methylene Chloride
82 71
2,:
50
Hydrogen Sulfide Hypochlorous Acid
limited service life expected; this is preferred material
8
saturated
solution may discolor
49
6
38
Ashland Hetron 800
49
82 107 107
.8···· ',:,
104 104
a'
110 not recommended for use
spent strong
Nitric Nitric Acid
red fuming
100 5
:"~.\'
10
8 • ,0;'
20
:·-2.'::;f:{
28
~":'\~
35
© Plastics Design Library
24 32 32 not recommended for use
Furan
534
Chemical Resistance - Furane Resin . "'.'
R~~~~m;'
".'
.
.. ~
Nitric Acid
40 vapor
wi 5% hydrofluoric acid
Nitrobenzene Nitrophenol Nonyl Phenol Oleic Acid Oleum Oxalic Acid Paraffin Pentachloroethane Perchloroethylene Phenol Phenol Sulfonic Acid Phenyl Carbinol Phenyl Ether Phosphoric Acid Phosphorous Acid Phosphorus Trichloride Phthalic Acid Picric Acid Plating Solutions Potassium Bromate Potassium Bromide Potassium Carbonate
48 50 50
2
2 '·8
".,
8
.11
:
100 fuming sulfuric
•.
100 100 100 10 100
not recommended for use
8 8 8 8 6
49
saturated
100 100
82 limited service life expected; this is preferred material
8'
104
8
49 93 121 107
8
85
8 8
concentrated
100 all concentrations saturated chrome, hard
8
38
8.
107 74
.8
2,.. 8 ·8.
10 saturated
Chloride Cyanide Ferrlcyanide Ferrocyanlde Hydroxide
not recommended for use
,., ,,.8.
10
"'8<
Potassium Nitrate Potassium Oxalate Potassium Persulfate Potassium Sulfate Propionic Acid Pyridine Rayon Spin Bath Resorcinol Salicylic Acid Septic System Sewage Silicone Tetrach lorlde Sodium Acetate Sodium Aluminate Sodium Bicarbonate
45
8
50
'. 8
,
Sodium Sodium Sodium Sodium
Bisulfite Borate Bromate Carbonate
<"8-' 100 100 fumes
'8 "."',.
91-95
100
municipal; treated & untreated
100 100 saturated
121 121
,8
32
,':,""
32 60
8 ·8 ".,. ",
8 all concentrations
w/15% sodium hydroxide
93 93 93 66 121 107 107 121 27 38 nol recommended for use limited service life expected
2.'.. 6 8,
iI.,..
salurated
8;\
8
/
15 15 45
107 66 107 107 107 60 60 60
saturated
6
107 60 66
saturated
8 8, .8'
20
25 32
Furan
8
1
2 10
Sodium Chloride Sodium Chlorosulfonate Sodium Cyanide
8
, '8
10
Sodium Bisulfate Sodium Bisulfide
~.
. . 8",:"',:'
all concentrations saturated ali concentrations
saturated
solution may discolor
66 93 93 93 93 121 27 82 93
all concentrations saturated
25
107 107 43 107 66 104 107 121
8
10 25
Potassium Potassium Potassium Potassium Potassium
Ashland Hetron 800
('2 49
100 100 100
all concentrations wax
not recommended for use
82
8"""
8"
;x :
107 71 71 71 104 121 107 107
© Plastics Design Library
535
Chemical Resistance - Furane Resin ';.' :::/(/'" >.
POL': Max~i Rating Temp. ('C)
Coric. Temp. /(%) > '('C),
Sodium Hexametaphosphate Sodium Hydrosulfide
wi 15% sodium hydroxide
Sodium Hydroxide
Sodium Hypochlorite
8
66
15
8
60
45
8
60
5
8
10 15
8 .8
25
8
50
8
2
8
saturated
stable
5.25
Sodium Sodium Sodium Sodium
Oxalate Silicate Sulfate Sulfhydrate
>5.25
stable
10
w/15% sodium hydroxide
32
saturated
Sodium Tartrate Sodium Tetraborate Sodium Thiosulfate Soil Stannic Chloride Stearic Acid Sulfur Chloride Sulfur Dichloride
saturated
8
107 71
8 , 8 8 8 8
121
104
8
104
8
107
.;;
all concentrations
100
•..·.8 .
'8 ....;
trace dichlorides
30
trace organics
30
vapor
50
8 ,. 8 .!f· 8 2
trace dichlorides
76
vapor
98
121
'8 . 82
10
100 100 100
74
82 107 not recommended for use 74 not recommended for use 93
8
121 49 38 107 27
8
32
8
107
8·.,
107
wi 50% methylene chlorine
50
not recommended for use
32 limited service life expected; this is preferred material
32
100 100
"
93
" 8
107
.. 8,:
100 65
8 8 8
90 100
107 38
.•.• 8
100
A
107 49 107
100
8
27
100
...8 "
85
100
solution may discolor
107
50
50
l,l,l-trichloroethane
74
2
wi 50% acetone
w/l0% xylene
99 <
100 saturated
Toluenesulfonic Acid
not recommended for use 121
8 8 8 8 :-; 8 , 8'
100
vapor
38
2 \. 2'
saturated fumigant, concentrated
107 27
~
2 .8 8'
25
mono
121
.8,/····
93
© Plastics Design Library
104
100
50
Toxaphene Trichlorobenzene Trichloroethane Trichloroethylene (1,1,2·) Triethylamine Trlhydroxybenzolc Acid Urea Uric Acid
93
8
49
50
Sulfurous Acid Tartaric Acid Telonet Tetrachloroethane Tetrahydrofuran Tetrahydrofurfuryl Alcohol Thioglycol Thlonyl Chloride Tlnoflx QF Titanium Chloride Titanium SUlfate Toluene
8
107
Sulfuric Acid
"
60
8
100
synlh. surf. veil generally used
60
8 8
dry or wet
II
60
fumigant; dilute
pulp mill fumes
"
not recommended for use
all concentrations
vapor
special cure &synth. surf. veil used; nonthixotropic resins preferable
not recommended for use
8
10
Sulfur Dioxide
,.
6
45
Sodium Sulfide
100
i
15
15
Ashland Hetron 800
66
60
15
",.
100
2 .,.••,
all concentrations
:-~;;
66
8 ". 2" 2
saturated
.,.
·ii. !Materlal~~'!~~
66
:,'
, vapors
. .,
·.R~.Il~stanl:~N~te,
8
66
saturated
8
121
8
107
concentrated
8.
107
,'"
Furan
536
Chemical Resistance - Furane Resin ..
Reagent
Reagent Note ~
Water
Furan
..:::.:
irrigation distilled
Xylene
wi 90% toxaphene
Zine Sulfate
all concentrations
Cone. Temp. (,,) i 100 10 100
'('C)
POL, . Max.· Rallng !emp. ('C)
8"·.
32
8.2
93
Reslslanee Note
Material Note' Ashland Hetron BOO
© Plastics Design Library
537
Chemical Resistance - Melamine Resin
Acetone Chromic Acid Citric Acid Gasoline Motor Oils Sodium Hydroxide
5 10 high octane SAE 20 boiling point 23
Sulfuric Acid
© Plastics Design Library
23
7 0.17 7 7 7 0.33 7 7
discolored no observed change
Melamine
Chemical Resistance - Phenolic Resin
""U
:::r a>
<.n
w
00
:::J
Q.
o' Reagent Acetaldehyde Acetate Acetic Acid
Reagent Note
Conc.
Temp.
Time
!%)
('C)
(days)
solvents
9
glacial glacial, vapors
a
,
vapors
,
"
93. . ','
glacial 10
1
' Tensile ,llmpect Strength Strength
Max. Temp. ('C)
66
a
66
a
66
a
66
9 9
-.
·
vapors
"
"
, Acetonitrile ,
1
;genaf~300nolO"getp{Oducei!~Y§E (( (imaor no··,lfect .
96
a
66
a a
52
a
52
· ,
vapors
,
"
."
"
Iinle or no elle~t .• ....... ·····li·· 100
'il
P
Aluminum Citrate
Genal 4300 no longer produced by GE
~
9 9 5 7 5
lair reslstanca. limited service good resistance fair resiSuince. limited service
99
a
99
'"
~.
;:l
t""
0: ""1
P
""1
It::
,<
Aluminum Hydroxide
all concentrations
2
"
•
vapors
"
excellflnl resislance little'or n~ ~lIecI '
'}:;,
93
,
- 23C/l - 23C/l - 23C/l
, .....
' .
93
,:'S;H>,:;]i"
~.
'not recOmmended
i~~~~' ~~
2
,
- 23C/l
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. · Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
"
B
- 23C/l
, '"
a
"
- 23C/l
GE Genal 4300; heat resist. grade
0,
lillie no:eff~et:>; good .leslstance lair resistan~,{ Iim,!led se~ke ejcefient resistance
6
;
n'
'f?"
vapors
Indspec PRF2 1000 FM (resorc. mod.); cured mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mth. to Shore 0 80-85 hard.
,
a
a a
10
_:./ _u;'!;
notlecommended tor use
,
9 @
- 23C/l
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
,
2
9
- 23C/l
GE Genal 4300; heat resist. grade
..•..
66
7 5
•
Indspec PRF2 1000 FM (resorc. mod.); cured mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mth. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mth. to Shore 0 80-85 hard.
'~,
,
6 93
nu ono.,
excellent resiS!ance
2
,
..
J
..,,' ";i:;" ""'0 u,
6
Material Note
Resistance Note
••
a
, I
Acetyl Chloride Acetylene Acids Air Alcohols Alkaline Alum Aluminum Borohydride Aluminum Chloride
Weight
a
vapors
" Acetone
% Retained
9
"
Acetic Anhydride
POL
Rating
%Change
..<::.
a
49
a
49
...
,~.:{
',.
,}
'::'::,
tor use
,
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/t mth. to Shore 0 80·85 hard.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. · tndspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. · Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
@
'i:l
P
Reagent Note
~
o'IJl ~
% Change
·., '"
Conc. (fa)
Aluminum Sulfate
Temp. ('~)
vapors
IJl
<5'
;:s t"-
.,o:p .,
,
I' Time (days)
POL
Weight
Impact Strength
Rati~9
.-~~'-'.
I
'Resistance Not~
Max. Temp. ('C)
8'
182
8
182
:.~:;:.
~~::~
Material Note Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/I mlh. to Shore 0 80-85 hard.
.. ~;
9
Aluminum Trichloride Ammonia
10
93
aqueous solulion
9
100
GE Genal 4300; heat resist. grade
2
Indspec PRF2 '000 FM (resorc. mod.); cured· 23C/l mlh. 10 Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard.
II::
liquelied vapors
.',
27
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mlh. 10 Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23Cll mlh. 10 Shore 080·85 hard.
27
Ammonium Bicarbonate
all concenlralions
vapors
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. 10 Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23Cll mlh. 10 Shore 080·85 hard. Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mlh. 10 Shore 0 80·85 hard. . Indspec PRF2 1000 LD (resore. mod.); cured - 23Cll mth. 10 Shore 0 80·85 hard.
66 66 g6odlesisl8!lCe
Ammonium Carbonate
not recommended tor ~e
all eoneenlralions
·.x· vapors
66
Ammonium Chloride
Ammonium Hydroxide
8
66
8
66
"'8
66
9
exeellenl reslsiance
2
not recommeqded lo(use
aqueous, vapors
8
49
8
49
28 35
Ammonium Nitrate Ammonium Phosphate
Indspee PRF2 1000 FM (resorc. mod.); cured - 23Cll mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mlh. to Shore 0 80-85 hard.
aqueous, all eoneenlralions
2
dibasie, all eoneanlralions
93
9 2
99
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. 10 Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23CI1 mlh. 10 Shore 0 80·85 hard. Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. Genal 4300 no Ioqger p(odueed by GE GE Genal 4300; heat resist. grade
unsalislacl~~ r~¥isiance'
9
., ,., UCe~~!/e~i~tanee
2
, nol,reeomm~.dedlor USe, .,.-:::::;~; ::~:
2 dibasie, vapors
Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80·85 hard.
8
66
8
66
:::}: .,:::');.:;
. ':'
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mlh. 10 Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 080-85 hard. Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mlh. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard.
-0
=r CD ~
Q.
o'
Chemical Resistance - Phenolic Resin
01 W CO
~
:=l
o
n"
~
Chemical Resistance - Phenolic Resin
-0
I"
" ' II
Re. agent
.
Ammonium Phosphate
Reagent Note
0
I';
jc~nc:
... i
Te}1jp. 'Ji'lll e ('C),Jdays)
(%)
P~L
"0..... ,,We19~1 TenS!I~ ....!il!~~el I'
Max; Re~ist~~~'Note Material Note R~t,"g .§!!!~~!~~mm~mm~mQd!p}:,,'::}~ . , < \ , z "
monobasic, all concentrations
I
,2
.
notr~~m",¥nd,~lq(u~·e·.
Indspec PRF21000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
.......................... ,...............
Indspec PRF2 1000 LD (resorc, mod.); cured - 23C/l mth. to Shore 080-85 hard. monobasic, vapors
"":
::
~';~.;~8'~i)~?t)1'\'. ::::::: :::~t~:~~ ~~o;~:~:~~,~:::~:d::;::: ::::;
9
Ammonium Salts
quarterary; vapors
"
i·
.,
8'
66
8
66
·n'·""
.;!ij>",·
mth, to Shore 0 80-85 hard,
{..........
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l
I L ...,i~::;;; .,,1;:~!;> Indspec PRFi:~o~~ k~:i~e~o~;:~:o~i;:cured . 23C/l
Ammonium Sulfate Amyl Acetate Amyl Alcohol Amyl Mercaptan Amyl Phenol Aniline
vaporsi>,
::::::: :::~t~:~~ ~~;~:~:~~.~:::~:d::::::
::·t~i·:<;::;!;1~~itl![,;;i:;;;~!:;~~~;:
8'
::::;
mth. to Shore 0 80-85 hard. .Genal 4300)tQ \O~~ipr~d~eed 6y GE
100
Animal Fats Animal Oils Aqua Regia
all concentrations
vapors
2
@
~
'"
R'" tl
Barium Barium Barium Barium
Chloride Fluoride Nitrate Sulfate
~
;:l
~
~
..,
u::
Beer Beet Juice Beet Pulp
................". ,.." "
· . Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard, ',' '. Indspec PRF2 1000 FM (resorc, mod,); cured· 23C/l mth. to Shore 080-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
~)~} u~~tiV~bl~& i~~ist~~ii~';iX;;;;
'.' 2
isooctane
with 85% methanol; M85 Fuel 15 " 15 with 35% methanol; M35 Fuel 65 "65
vapors "
tEi·
"····nofi8coirifueii~8d.]9f:ilSl( .••.
S~OUIO consun~nl!!~cwer.,.
5
f,'
.. , .. . . ; ;
Arsenic Acid Asphalt ASTM Fuel A ASTM Oil No.1 ASTM Oil No.3 ASTM Reference Fuel C
.
GE Genal 4300; heat resist. grade
beer wort
82-'"
·121 82 121
30 28 30 28
'"
8
7 8. 7
"
a 0.4 a 0.2
86 74.9 76.7 69.3
1 1 0 ' ; " " " " " .. { 110 100 100
8
182
8
182
·>i.
Fiberite FM-4065-50; 50% gl.lib.; 3.2 mm thick
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth, to Shore 080-85 hard. Indspec PRF2 1000 LD (resorc. mod,); cured· 23C/l mth. to Shore 0 80-85 hard.
@ ~
Ei Vl N-
;=;. Vl
t::l ~
Vl
to· ;:J
IReagent
.f!
IBenzaldehyde
IBenzene
s::0-
I~~.:~th 100
benzoil vapors
GE Genal 4300; heat resist. grade
66
., .,
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/1 mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. 10 Shore D 80-85 hard.
66
P
49
u::
Benzoic Acid Benzyl Alcohol
52
vapors
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 hard.
52
lOa
Benzyl Chloride
vapors
66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore D 80·85 hard.
66
Black Liquor Blast Furnace Gas Bleach
Blood Blue Vitriol Borax Boric Acid Brake Fluids Brewery Slop Brine Brines
Bromine
solutions; all concentrations
. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. 10 Shore D 80·85 hard.
chlorinated, all cone.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80-85 hard.
bromine liquid
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore D 80·85 hard.
)d~jrioeJ~~~~;~;~; wit~Je~g~~:' .
10
Bromine Pentafluoride Bunker Oil Butane Butyl Acetate
vapors
GenajA3&,6n~)O~g~tp}tXIuc~dby·Ge:
100
52 52
GE Genal 4300; heat resist. grade
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mth. to Shore D 80·85 hard.
"U
::::r
CD ::3
2-
o'
U1
Chemical Resistance - Phenolic Resin
~ ......
Chemical Resistance - Phenolic Resin
""U
=r
01
+:-
I'V
Cl> ::J
Q.
o· I~eagent
Butyl Alcohol
Reagent.Note
Cone.
Time
(%)
(days)
vapors
93
Butyl Carbitol
vapors
Butyl Cellosolve
1
IRating POL
Impact Strength
ITemp. Max.
Material Note
('~)
8
52
8
52
8 7 9
100
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
. ...
:~.,
goodi~si~ance . . GenaI430()!'~;§9~~~~~#~~~~)~ygg
100
8
66
8
66
ii
66
GE Genal 4300; heat resist. grade Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 080·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard.
66
Butyl Chloride Butyl Glycol
225
vapors
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
225
Butyl Mercaptan Butyl Phthalate Butylamine Butyric Acid Calcium Bisulfite Calcium Carbonate
100 100
n·butylamine
GE Genal 4300; heat resist. grade
all concentrations
:' Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 · mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23CI1 mlh. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
2 vapors
e
66
8
66
Calcium Chlorate
all concentrations
2
Calcium Chloride
vapors
8
66
e
66
· Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l · mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. to Shore 0 80·85 hard.
2
Calcium Hydroxide
all concentrations
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard.
7
good !esiS1a';C(;~··
2
not r~,~;~m'!ld~dlgr;;~se
@
2
'1:l
S"
vapors
~
n·til
8
49
8
49
• Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 · mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 ... mth. to Shore 0 80-85 hard.
i
tl C1l til
15·
;:s t"'
~ ..,$:l
u::
Calcium Hypochlorite
all concentrations
2
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
2
Caliche Liquor
9
.:::::~
@
'1:l
S'
~ ;:;.
I~e~gent
C/)
f? C/)
~.
;:s
t
Cane Sugar Carbolic Acid Carbon Bisulfide Carbon Dioxide
gas, vapors
0-
.... >l ....
tt::
204
(ndspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mlh. 10 Shore D 80·85 hard. (ndspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. 10 Shore D 80·85 hard.
204
Carbon Disulfide
vapors
100
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mlh. 10 Shore D 80·85 hard. (ndspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore D 80-85 hard.
100
Carbon Monoxide
gas, vapors
204
(ndspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore D 80-85 hard. (ndspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80-85 hard.
204
Carbon Tetrachloride
vapors
66
(ndspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore D 80-85 hard. (ndspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. 10 Shore D 80·85 hard.
66 130
Castor Oil Catsup Caustic Lye Caustic Potash Caustic Soda Cellulose Acetate China Wood Oil Chlorinated Solvents Chlorine
chlorine water chlorine water, all cone.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. to Shore D 80-85 hard. (ndspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore D 80-85 hard.
gas gas, wei or dry, vapors
Indspec PRF2 1000 FM (resorc. mod.); cured mth. to Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mlh. 10 Shore D 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured mlh. to Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured mlh. to Shore D 80-85 hard.
liquid
Chlorine Dioxide
vapors
,"';.
Chlorine Heptoxide Chlorine Trifluoride Chloroacetlc Acid Chlorobenzene
vapors
66 66
- 23C/l - 23C/l - 23C/l - 23C/l
(ndspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. :' Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l '::',. /::,:~. mlh. to Shore D 80-85 hard.
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. 10 Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. to Shore D 80·85 hard.
""1J
=r CD
::::l
o
o'
0'1
Chemical Resistance - Phenolic Resin
~ U)
Chemical Resistance - Phenolic Resin
""0
:::T
01 .J:>.J:>-
CD
::J
0
o'
I
Reagent
I
Reagent Note
I
conc., Temp. (%) ,'. (Oci
I
Max.< Temp, ('C)
Time "PDL J;lliting
,(days)
Chlorobenzene
8
52
8
52
I
, Resistance Note
I
Material Note~ , :
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. 1I!l!lor no ellect
Chloroethylene
1,1, I-trichloroethylene vapors
~:: :"
~
;-:.
66
8./
66
Chloroform
..
66
8
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
66 ~
,~-:
100
,, Chlorosulfonic Acid Chlorotoluene
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. . Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l '; mth. to Shore 0 80-85 hard. ' Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
8.
vapors
8
66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
8
66
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
52
Chromic Acid Citric Acid 10
Coal Tar Coke Oven Gas Copper Ammonium Acetate Copper Chloride Copper Nitrate Copper Sulfate Copperas Corn Oil Cottonseed Oil Cresol Cresylic Acid Cyanide Cyanogen Cyclohexane Cyclohexanone Cyclohexyl Alcohol Detergents @
"I:l
E" ~
C=;' CIl
t:l C1l
CIl
tEo ;:l
oil
green
.,
p
tr::
.
7
little or no ellecl
8 7
,;
good resisJance . excellent re~istance
9':
93
1
organic
9
GE Genal 4300; heat resist. grade ,Gen,,!,43~o'n910~ije!,prpdLi~~~.~l§E :i\Oliecommericieqlo{\Jse' , , " Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l :..~.':' mth. to Shore 0 80-85 hard. ~ Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
96
2
.
.
. ~:~ t
;
2-
solution
Diacetone Alcohol Diammonium Phosphate
8·';
vapors
.
66
. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard, Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
66 65
t'"
e;: .,
".
7
65
Indspec PRF2 1000 FM (resorc, mod,); cured· 23C/I mth. to Shore 0 80·85 hard.
~
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
@
"tl
~ ~
r;'
: '~;':
.
'.':'
V>
~
vapors
V>
10'
52
;:l
~ ~
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/1 mth. to Shore 0 80·85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
52
Dibutyl Ether
52
p
... It::
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. '; Indspee PRF2 1000 LD (resore. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard.
52
Dibutyl Phthalate Dichlorobenzene
vapors
52
Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 080·85 hard.
52 100
Dichloroethane
vapors
'. Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. to Shore D 80·85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/1 mth. to Shore 0 80-85 hard.
66 66 52
Dichloroethylene
vapors
66
Indspee PRF2 1000 FM (resore. mod.); cured - 23C/1 mth. to Shore 080-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/1 mth. to Shore 0 80-85 hard.
66 52
Dichloromethane
methylene chloride methylene chloride. vapors
52
66
Indspee PRF2 1000 FM (resore. mod.); cured - 23CI1 mlh. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
66
Dichloropropane
vapors
66
Indspee PRF2 1000 FM (resore. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 080·85 hard.
66 52
Dichloropropene
vapors
66
Indspee PRF2 1000 FM (resore. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore D 80·85 hard.
66 52
Dichlorotoluene
vapors
66
Indspee PRF2 1000 FM (resore. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
66 100
Diethyl Benzene
vapors
77
vapors
66 66
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/1 mth. to Shore 080-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 080-85 hard.
77
Diethyl Carbonate
66
""0
• Indspee PRF2 1000 FM (resore. mod.); cured· 23C/1 ,j)~' mth. to Shore 080-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l /\;;i»(id mth. to Shore D 80-85 hard. Indspee PRF2 1000 FM (resore. mod.); cured· 23C/1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. ~::;
,t';:
:::T
CD :::J
o
o·
01
Chemical Resistance - Phenolic Resin
~
01
0'1
Chemical Resistance - Phenolic Resin
-0
=r
~ (j)
CD
::::l
o
o' fleagent
Reagent Note
Cone. ("')
Diethyl Ether
Temp. '('C)?
I
vapors
Time
I
% chari~e POL
lday~) ... R~ting
weIgh":
I
I;
% Retained Tensile
~trength
I I Impact
Strength
Max.
a
27
e
27
e
27
Diethylene Glycol Butyl Ether
Diethylenetriamine Diisobutyl Ketone
vapors
vapors
,/:':'..
Dimethyl Phthalate
Dimethylformamide Dimethylformamide (N,N-) Dioctyl Phthalate
vapors
93 vapors
\-:;:
Dioxane Dioxane (p-) Dipropylene Glycol
@
'p"o ~
ri'
Distiller's Slop Dowtherm Enamel Essential Oils Esters Ethane Ethanolamine Ethers Ethyl Acetate
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
e
27
e
66
e
66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. good resistance
e
52
8
52
e
27
8
149
e
149
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 080-85 herd. lillie or no eftect •Genal 4300 no longer produced by GE
8 9
):
e
149
e
149
94
diphenyl
dibasic
GE Genal 4300; heat resist. grade Indspec PRF2 1000 FM (resorc. mod.); cured· 23CI1 mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
".!it!I~9r~0~f,est
e 100
8
127
e
127
Genal.~3:;J'::I;~~~rprOduced, by GE .
~
GE Genal 4300; heat resist. grade Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
.
9
excellent resistance
7 7
gOod resistance
9 7
excenent resistance
,
goOd resistance
'7 Iil<~Iy
7 7 vapors
~ ;:l
to
be resistant good r;sist,ance
8
52
Indspec PRF2 1000 FM (resorc. mod.); cured· 23CI1 mth. to Shore 0 80·85 hard.
8
52
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
2
C/)
15'
not recomme,nded lor use
2
~ c:r
It:
52
9
C/)
.., $:I ..,
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
e
8 vapors
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 080·85 hard.
::\:~.
52
)
,~
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
e
7 vapors
Material Note
likely to b; resistant
7
Oiethyl Ketone
Resistance Note
Temp. ('.cl.
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
e , 93
9
Illlle, or no eftect 100
.•. ~AAi'J.~ . ~M .•AA!~q!!~r.!l!91!~sed
by
GE Genal 4300; heat resist. grade
@
'...."
p
'" r;'
'~" '::l" 15'
ReagElnt Ethyl Alcohol
ethanol
100
ethanol, vapors
66
8
t-'
0: .,
66
vapors
.,
49
~
49
tr::
Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspee PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
27
Ethyl Benzene
vapors
66 66
. Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
49
Ethyl Cellulose Ethyl Chloride Ethyl Ether
vapors
27 27
Indspee PRF2 1000 FM (resore. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
27
Ethyl Silicate Ethylene Ethylene Diamine Ethylene Dichloride
vapors
66 66
Indspee PRF2 1000 FM (resore. mod.); cured· 23CI1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
52
Ethylene Glycol
vapors
127 127
Indspee PRF2 1000 FM (resore. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore 0 80-85 hard.
100
Ethylene Glycol Butyl Ether
vapors
66 66
Indspee PRF2 1000 FM (resore. mod.); cured· 23CI1 mth. to Shore 0 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
Fatty Acids Ferric Chloride Ferric Sulfate Ferrous Chloride Ferrous Sulfate Fluorine Fluosilicic Acid Formaldehyde 40
Formic Acid 88
"1J
4
GE Genal 4300; heat resist. grade
Freon 11
:::r ~
Q.
o'
(]l
Chemical Resistance - Phenolic Resin
~
-oJ
01
Chemical Resistance - Phenolic Resin
"'U
:::r
~
ex>
CD
:::::l
o
o' Reagent
Reagent Note
Conc.
I I
Temp.
,Time
','f)
'')
Freon 12 Freon 21 Freon 22 Fruit Acids Fruit Juices Fuel Oils Fuels Furfural
Green Liquor Green Vitriol Hafnium Hydroxide Heptane
,TenSlle,lmp8~t ,~!r:~~~m~tf.Ii~!~
IJerjjp:i'c) .,.~.
Material Note
Resistilnce Note little or n,o ellect
8
,8 '"
8",' '9
excellent resistance good reslslence
",}
~~~
i 7 :t"·fair...r.esistanca{1rmit:ecfs8Nlcet\:If::
5 vapors
"Genal 4300 no longer prodUced by ~'~'::
100
9
-
Gasoline Gelatin Glauber's Salt Glucose Glue Glycerin Glycols
Weight
POL"
<'day~t· ,~ating
93
Furfuryl Alcohol
% Chal1ge. % Ret~i6~d
8
52
'8
52
8 7 7 1",'
27 good resisiance do not use material wilh' leagent good resiSlanee ,
'7
7
glycerol vapors
7 8
127
8
127
8
100
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 080-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard.
9 "9
exceUent resislence
5 5
lair resistance, limited service
n-Heptane n·Heptane; vapors
5
I
should consuh manutacturer
5 7
93
Hexane
vapors
98
9
good {esistance ,Genal 4300 no tonge.r produced by GE should consulHnanufacturer
5
5
@
'tl
P ~
0-
t Hexyl Alcohol Hydrazine Hydrobromic Acid Hydrochloric Acid
5 8 ,9
5 5
should con~,~It'm8nulacturer ,
'-"
excelle~(;~~ISI~nce
~
22 deg. 8e
<E' ;:l
t-'
0: ..,
..,
\:l
tr::
Hydrocyanic Acid Hydrofluoric Acid
37
'5
37
6
GE Genal 4300; heat resist grade Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23CI1 mth, to Shore 0 80-85 hard.
IInle or no effect
;;",j3 and organics
Indspec PRF2 1000 LD (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard, Indspec PRF2 1000 FM (resorc. mod,); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 080-85 hard.
excellent ,resistance lair re~istance_ limited ,seivice ellceUent tesistance
Ul
Ul
GE Genal 4300; heal resist grade Indspec PRF2 1000 FM (resorc, mod,); cured - 23CI1 mth, to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
Shoul~con~~ffma~~laclurer " 83
i
, Genal 4300"no longer pro~liced
,
good resistance unsatisfaCtory resistance
Indspec PRF2 1000 LD (resorc, mod,); cured - 23C/l mth, to Shore 0 80-85 hard.
, Indspec PRF2 1000 LD (resorc. mod.); cured· 23CI1 mth. to Shore 080-85 hard. by GE ' GE Genal 4300; heat resist grade
@
'1::1
P ~
r;'
VJ
~
VJ
15' ;:s
I;~eageht
M~terlai N'ote
~e~gent Not~
~';"
Hydrofluosilic Acid Hydrogen Hydrogen Chloride
gas, vapors
Hydrogen Peroxide Hydrogen Sulfide
gas, vapors
Indspec PRF2 1000 FM (resorc. mod.); cured - 23Cll mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore D 80-85 hard.
t
.,0.,
P
(£::
87
Hydrosulfite Hypochlorous Acid
of soda
Hyposulfite Inks Iodine Pentafluoride Isobutyl Alcohol
of soda
, Indspec PRF2 1000 FM (resorc. mod.); cured· 23Cll mth. to Shore 0 80-85 hard. : Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore 0 80-85 hard.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23Cll mth. to Shore 0 80-85 hard. .; Indspec PRF2 1000 LD (resorc. mod.): cured - 23Cll mth. to Shore 0 80·85 hard.
all concentrations vapors
52 52
Isooctane Isopropyl Alcohol
all concentrations
100
vapors
52 52
JP 4 Kaolin Slip Kerosine Lacquer Solvent Lacquers Lactic Acid Lard Lead Acetate Lime Chlorate Lime Chloride Lime Milk Lime Water Linseed Oil Lithium Chloride
.
vapors
99 99
Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23Cll mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore D 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore D 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C!1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23Cll mth. to Shore 080-85 hard.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23Cll mth. to Shore 080-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23Cll mth. to Shore 0 80-85 hard.
Lubricating Oils Magnesium Chloride -0 ~
CD ~
Q.
o'
Chemical Resistance - Phenolic Resin
(J1 .j:lo.
to
Chemical Resistance - Phenolic Resin
"1J
=r
(Jl (Jl
o
::J
o
o' [Reagent
.Reagent NQte
CO~~'I' Temp, .• ('!oj
('C)'
I I Time
% Change POL
.(~a.Y~l.. Rating
WeIght
:.~
Magnesium Hydroxide
all concentrations
2
vapors
8
'%'Rtltalned
I
'Tenslle Impacl; Max. ~!r'm~I~IDn!!~!NT~mlheql
. Res.istlilrice "'ote) j..:~
,',
Material Note .
.....
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
not ..ecommande.d· tor use"
49
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
:'~.
.
49
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
..};.
Magnesium Sulfide Manganese Chloride Manganese Sulfate Mercuric Chloride Mercuric Sulfate Mercury Methyl Acetate Methyl Alcohol
<: ". ';:'~ Ii":
exdelle~;;~SiSlariCe.•. methanol
~'::., methanol, vapors
8· .... :~~
Methyl Chloride Methyl Cyclopentane Methyl Ethyl Ketone
with 65% Fuel C; M35 Fuel
35 35
with 15% Fuel C; M35 Fuel
85 85
100
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
52
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard. Fiberite FM·4065·50; 50% gl.fib.; 3.2 mm thick
". '9
52
.8
a
76.7
0.2
69.3 86 74.9
a 0.4
vapors
100 100 110 110
52 .
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore 080·85 hard.
52 .'.
~t1leor'1i;;'ecl'
.' ••.. }.f Genal 4300 iicf!onger...plliduced btGE.
27 100
Methyl Isobutyl Ketone
vapors
Methyl Styrene
vapors
Methylene Chloride
vapors
© '1::l
S ~
ri' C/)
~
C/)
15' ;:l
t""'
.,0: $:l .,
tt:
,. .
::
,
:,
•
'Y;..
J':" ";;.
'·.,..e.,;o'.·
.
." •. ".
'\~;;;;"<;; .}.~:;.,'~·~t~;;: ".
....'......"".•..•.... ,;
..•:::.:/".:
" GE Genal 4300; heat resist. grade Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard, Indspec
""'"
PRF~t~o~g k~0\~eDo~~'~5°~Mured . 23C/l
. '"'
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l
:::".;.~.~!~':. '''~~;::;;.~~~;:,"" ::t:~·;;: :O!i.;rj:~;;':}f~:;t~~:r·:; ::::::: :::i:~:~~ f~:1~:~:ft:~:;j;:::::: ::::;: 52
Milk Mine Water Mine Water Acid Mineral Oils Molasses
.•.",•.•>::"..
52
66
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80·85 hard.
@
::g ~
~
,.eagent
r;' <Jl
~
<Jl
Mustard Naphtha
~.
R~~~llnt ~ot~·
Temp.
Time
I'C}
(days)
coal tar heavy aromatic. HAN. vapors
t: ~ ..,
HAN. heavy aromatic naphtha petroleum vapors
<.c::
;<
66
;:s
c..,
<Mat~r!al ,~ote
Ml!~'f
T~m":('cl
8.,
66
8
49
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 BO-85 hard.
9"'· 66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mlh. to Shore 0 80-85 hard. Indspec PRF2 1000 LO (resorc. mod.); cured· 23CI1 mth. to Shore 0 80-85 hard.
66
8
49
Nickel Chloride Nickel Sulfate Nicotine Sulfate Niter Cake Nitric Acid
all concentrations fumes, vapors
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LO (resorc. mod.); cured - 23CI1 mlh. to Shore 0 80-85 hard.
\:~
~nle o(no
10
epeC\.
/onS;;tisi~ciori reslst~qce
70
do !).ot'\l~e.male(ial witlneagenl .
Nitric Oxide Nitrobenzene 93
fair·.reslslllnce; limiled service by
Genal4300nO-IO~ge;.pr;;d~ced
100
. . :{:.../.<;
GE Genal 4300; heat resist. grade
:i~~~~~~ti;~(~f~~C~ .
.,'i)~~r~sl~ta.nce· '. fuming sulfuric acid
should.consull Iilanulacturer v:-:"'':,::-' ,.
l~lIj~.~~
Olive Oil Orthophosphoric Acid Oxalic Acid Oxygen Ozone
Palmitic Acid Paraffin Perchloroethylene
GE Genal 4300; heat resist. grade
':'J~.
100
Nitropropane Octane (n-) Oils Oleic Acid Oleum
GE
i;;!~~rn::~~~i~:~ce:
Nitroethane Nitrogen Nitrogen Tetroxide Nitromethane
Indspec PRF2 1000 LO (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard.
nolllec, .gOQd res.lSlance.
:;~.::\~.
".,-."
.".
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LO (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard.
vapors
66 66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LO (resorc. mod.); cured - 23C/l
"1J ~
en o
::::l
o'
Chemical Resistance - Phenolic Resin
01 01
......
Chemical Resistance - Phenolic Resin
""U ::T
01 01
I\)
(l)
:::J
Q.
o'
% Change I % Re~alned Reagent Note
Reagent
Conc.
Temp.
Time
('k)
('C)
(d~Y$)
Perchloroethylene Phenol
POL
Rating
WeIght
Tensuel,mpact
S~!\,ngthSlrenglh
'8.. " 8
66
8
66
8
93
Phenolic Resins
all concenlrations
Phosphate Ester Phosphoric Acid
vapors
Potassium Bichromate Potassium Carbonate
Potassium Potassium Potassium Potassium Potassium
Chlorate Chloride Cyanide Fluoride Hydroxide
1
.,. .,... l1."
100
~
<S ;:l
.,
p
II::
lillie or no ellect .,.. ".
8"
204
8
204
GE Genal 4300; heal resist. grade Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore D 80-85 hard.
9 4
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. to Shore D 80-85 hard.
73
GE Genel 4300; heal resist. grade
9 liquid
5
all concenlrations
2"
vapors
8
66
8
66
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. to Shore D 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. 10 Shore D 80-85 hard.
'9 all concenlretions
2"
vapors
8
66
8
66
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. 10 Shore D 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23CI1 mlh. 10 Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 hard.
all concentralions
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/1 mlh. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. to Shore D 80-85 hard. •..,. Indspec PRF2 1000 LD (resorc. mod.); cured - 23CI1 ,., mlh. to Shore 0 80-85 hard.
49 49
)'
Potassium Nitrate Potassium Permanganate
vapors
66 66
Potassium Pyrophosphate
t"-
o:.,
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mlh. 10 Shore D 80-85 hard.
· Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore D 80-85 herd. .' Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l · mth. to Shore D 80-85 hard. qM~I}3.o.ll!'9Ionge!.pl%l~~M~¥;GE .
::g til
·
9'
@
r;'
.)/
7'
vapors
p ~
Material Note '~"
"
100
····if
85
Picric Acid Pink Liquor Potassium Potassium Bicarbonate
:~
Resistanc.e Note
('C!.
52
8
carbolic acid, vapors
ITemp. Max.
66 66
Potassium Sulfate
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mlh. 10 Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mlh. 10 Shore D 80-85 hard. c' Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l ;: mlh. 10 Shore 0 80·85 hard. Indspec PRF2 1000 lD (resorc. mod.); cured - 23C/1 mlh. to Shore 0 80-85 hard.
0/0 C;ha~.~~
@
1:1
~ ~
~ea~~nt
Reagent Note
(%),
ri' c"
Ii' c"
16' ;:l
t"'
0: ..,
Producer Gas Propane Propionic Acid Propyl Alcohol Propylene Glycol
Cone.
POL
.Rat-in!!
Weight
% Retained
I
Tensile Impact Strength Strength
ITemp. Max.
(~c)
127
vapors
..,
p'
127
u::
Pyridine Pyridine Sulfate Pyrogallic Acid Pyroligneous Acid Quenching Oils Rhidolene Rosin Sal Ammoniac Salt Cake Salt Water Salts Sea Water
all concentrations
Sewage Shellac Silicate Esters Silver Nitrate Soap Liquor Soaps Soda Carbonate Sodium Sodium Bicarbonate
all concentrations
Indspee PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. \0 Shore D 80-85 hard. Indspec PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore D 80·85 hard.
solution Indspec PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore D 80-85 hard.
liquid
vapors
66 66
Sodium Borate Sodium Carbonate
Material Note
all concentrations
66
vapors
66
Indspec PRF2 1000 LD (rasorc. mod.); cured· 23C/l mth. to Shora D 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 herd. Indspee PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 hard. Indspec PRF2 1000 FM (resore. mod.); cured - 23C/l mth. to Shore D 80-85 hard. Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mth. to Shore D 80·85 hard.
10
Sodium Chlorate
all concentrations
Sodium Chloride
vapors
Indspee PRF2 1000 LD (resore. mod.); cured· 23C/l mlh. to Shore D 80·85 hard.
99 99
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. 10 Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80·85 hard.
25
"U
= ( I)
::l
o
o'
Chemical Resistance - Phenolic Resin
01 01 C..:l
Chemical Resistance - Phenolic Resin
""U
:::T
01 01
~
CD
:::J
Q.
o'
% Change Reagent
Reagent Note
Sodium Chromate
Sodium Cyanide Sodium Hexametaphosphate
Sodium Hydrochlorite Sodium Hydrosulfite Sodium Hydroxide
vapors
vapors
Sodium Sodium Sodium Sodium
Iodide Metaphosphate Metasilicate Nitrate Perborate Peroxide Phosphate Plumbite Silicate Sulfate
Sulfide Sulfite Thiosulfate Triphosphate
Sodium Tripolyphosphate
~
.,P
8
66
8
66
9' 8
127
8
127
49
8
49
10 all concentrations
Material Note
Resistance Note
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. excellenf resistance Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resore. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
2 3 .7
GE Genal 4300; heat resist. grade
63 85
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
2 2 ,5 9 9,
9 9
"7 9 9 9 vapors
.-};.
',8
204
8
204
all concentrations
Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mth. \0 Shore 0 80-85 hard.
,c' Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 .'. mth. to Shore 0 80-85 hard.
66
all concentrations vapors
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80·85 hard.
66 66
(J)
It:
Max.
.
16' tEo t'"'
11I)pact .-1;
66
(J)
;:l
TensUe
_§WWII~§lft~l!NTemp: C'C)
8
S"
n'
Weight
2'
"0
~
Rating
vapors
vapors
@
POL
(days)
all concentrations
20
Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium Sodium
Time
('C)
% Retained
'9 '9
10 30
Sodium Hypochloride Sodium Hypochlorite
Temp.
Solvents Sperry Oil Stannic Chloride Stannous Chloride
Indspec PRF2 1000 FM (resore. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
@ ~
p
'~"
'" lEi'
;:s t'""
M~te;fa(.Note ...,::: ';.::::'
·I~!tt:~~w
~
n'
Starch Stearic Acid Strontium Nitrate Styrene
vapors
..,c;: p ..,
~:};
66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l lOth. to Shore 0 80-85 hard.
66
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l lOth. to Shore 0 80-85 hard.
27
It::
Sugar Sulfite Liquor Sulfolane Sulfur Chloride
100
vapors
Sulfur Dioxide
GE Genal 4300; heat resist. grade 99
., Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l lOth. to Shore 0 80-85 hard.
99
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore 0 80-85 hard.
204
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l lOth. to Shore 0 80·85 hard.
204
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore 0 80·85 hard.
Sulfur Trioxide
vapors
Indspec PRF2 1000 FM (resorc. mod.); cured· 23C/l lOth. to Shore 0 80-85 hard.
"
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 lOth. to Shore 080-85 hard.
Sulfuric Acid
fuming
unsatisfaclory.resista.~ce
vapors
,.
;:"l:.:'
8
25 30
1
93
;.;,.
..
,.
".;.;."
vapors
Tallow Tannic Acid Tanning Liquors Tar Tartaric Acid Tetraethyllead Tetrahydrofuran Tetralin Tetranitromethane
'. Genal 4300'00 longer produced by GE
13
,',;
GE Genal 4300; heat resist. grade Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore 080-85 hard.
75 " .lilOile.dresislance
5
should consult manulaclurar
8
" all concentrations
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore D 80-85 hard.
75
6
70 93
1
"111e or no eflecl
8
50
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore 0 80-85 hard.
204
8 8
10
Sulfurous Acid
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l lOth. to Shore D 80-85 hard.
204
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore 0 80-85 hard .
204
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l lOth. to Shore 0 80-85 hard.
204
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l lOth. to Shore D 80-85 hard.
>=25
75
>=50
75
e#~~e~rresistan¢e
,.
.' g~~;~slsiance\ .
and ammonia
92
GE Genal 4300; heat resist. grade
'"tJ
~
CD
=' o
o'
Chemical Resistance - Phenolic Resin
0'1 0'1 0'1
(J1 (J1
Chemical Resistance - Phenolic Resin
"'U
=r
cr>
::J
Q.
o'
%qhange Reagent Tetrasodium Pyrophosphate
Tin Tetrachloride Toluene
Transformer Oils Tributyl Phosphate Trichloroacetic Acid Trichloroethane Trichloroethylene
Triethanolamine
Reagent'Note
Cone.
Temp.
Time'
(%)
('C)
.(daya)
POL Rating
Weight'
Max. Terilp.(:c)
all concentrations
2
vapors
8
66
8
66
Trisodium Phosphate
© "0
po
~ (;.
~
(f)
.9 8
66
8
66
8
49
vapors
8'
66
8
66
8 5
52
'2
vapors
8
49
8
49
vapors
.....••. riot,ecommeridecfior use
66
8
66
8
100
'2
vapors
8
66
8,
66
52
66
t-
49 oil
.\.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard.
'riofiecomiii"rid"d lotuse:
66
Vinyl Toluene
Indspec PRF2 1000 LD (resore. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23CI1 mlh. 10 Shore 0 80-85 hard . . Indspec PRF2 1000 LD (resore. mod.); cured - 23C/l mth. 10 Shore 0 80-85 hard.
liUle or no effect
8'
all concentrations
vapors
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 herd.
f~i!!.~.~!.~~.~c" •. I!/Il!'M.J~!yige
all concentrations
52
Vitriol
Indspec PRF2 1000 FM (resore. mod.); cured - 23C/1 mlh. 10 Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard.
7' 8
;:l
O" .... P .... (t::
Indspee PRF2 1000 LD (resore. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard. Indspec PRF2 1000 FM (resore. mod.); cured - 23C/l mth. 10 Shore 0 80·85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mlh. 10 Shore 0 80·85 hard.
7
(f)
~.
not recommended for use
8'
.<.
Turpentine Urine Varnish Vegetable Juice Vegetable Oils Vinegar Vinyl Acetate
Materilll Note
9 toluol vapors
8
Triethylene Glycol
Resistance Note
;;. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/1 '. mth. to Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mth. to Shore 0 80-85 hard.
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore 080-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/1 mlh. 10 Shore 0 80-85 hard. Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. 10 Shore 0 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mth. to Shore 0 80-85 hard.
@
'U
P ~
Reagent
ri' Ct>
tl (1)
Water
Ct>
15;J
t
I
Reagent Note
N,'.,
I I Temp. ('C)
• :'::::' .
.'<
Weight
% Retained
s~~=~:t~l~l~:';;~~. I.J!.:~l,.~I .,
·.•.•1
Resist~~ce Note ·"nol re~om",,!nd:~d for. use.
deionized
2 2
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. 10 Shore D 80-85 hard.
demineralized
2
• Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l ; mlh. to Shore D 80-85 hard.
2
• Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mlh. to Shore D 80-85 hard.
2
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mlh. to Shore D 80-85 hard. Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l · mlh. 10 Shore D 80-85 hard.
., P
distilled
I Whiskey White Liquor White Vitriol White Water Wines Wood Alcohol Wood Pulp Wood Vinegar Xylene
Material Note
deionized, all concentralions
0-
.,
Icollc, ("'J
% Change POL,,! Timei (days) Rating .
'. "
'2
• Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l · mlh. 10 Shore D 80-85 hard.
wi glycol
all concentralions
49
Indspec PRF2 1000 LD (resorc. mod.); cured - 23C/l mlh. to Shore D 80-85 hard.
8 •.
66
Indspec PRF2 1000 FM (resorc. mod.); cured - 23C/l mth. to Shore D 80-85 hard.
"
8
66
xylol
7
vapors
100
Indspec PRF2 1000 LD (resorc. mod.); cured· 23C/l mth. to Shore D 80-85 hard. , good res.istance Genal 43pllno tOnper produced by GE •
Zinc Chloride Zinc Sulfate
GE Genal 4300; heal resist. grade
good r"';lstance
exc~lIenlf~;ls;ance
-u
:::T
CD
:::J
o
o'
Chemical Resistance - Phenolic Resin
01 01
.......
Chemical Resistance - Polyester
""U
o
(]l (]l
00
'< CD
en
.. .,." ... '~::
,:'
CD .....
"% Change .Reagent
Reagent ~ote
Acetic Acid
con~'ITemp"I_Time ("I' l' cI (~~ysl 25
49
365
5
25
49·
365
98 98
23 23
1 1
5 9
Acetone Acid Dichromate Alum
POL I Rating
N·ammonium hydroxide
2.3 :
5 S S 9 9 9
23
"9
38
365
38
365
-23
1 1
23
ia. ".;..1,9:'.;" ./'49
Wright's Stain
23
2~ "~3
flake
~3
mono
2~
mm burn
~
~
n'CIl ~
CIl
cEo
t""
.,0: $:l .,
It:
. 23\ 71""· /0 71
""'S,
>75
>75
>75
>75
>75
>75
>7S
>75
365
..
>,
9" 7
2~.,: ..
7
': -,~["j~
'9"
;;{~;l~
.
.d·;"'·
c"""i::';:i;;'!r '.,
no
ci&j~=a:::~!~:~;~~:::gi;tS;;i:
sl deteCl4bhi c~9:lncolprO(
k<'
~~:
glos':;'1U1' +
i'~': :>\.::',_;·:;:;~r\rh~/~~;<:~::' .:i~~
";~0;~~~~'11
.9, 'il.
"~"
~
-,,';;0 dei8C1~litGcliaoge...
9')1,
23.. ':'
,. '
t."'·"9·'·
23 :2)""",
1 1
49';"
365
>7S
>75
365
>75
>7S
~~~.'
TT--~'
9
~3
25
,>~o:~:::.~~t~:~;:~tt~~~;~~1i~til~~;:1;;y:
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Glastic Grede 1125; 3.2 mm Ihick
} POOr;$iieCfIi1eneicheclClrSflY8iiis~if..a~~,fA
'<,. S
;<',-:;
Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
"
ilo d.t~labl@ ctlange.
365
1
gloss;;, ••
no detecta~IeCh~,'jnCOlo,ronIJ;~S;':;'
365 365
d:I;:;';~lt!;;'~~~i
:f
Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyesler/PU); med. mod. hybrid; cured Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 25.4 mm square Glaslic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square
.. .
no detectable cha.nge. no
".', 9 9 9 9. '." 7 ., 2,{
23
.::f.
no delectable.'chan~e'
·SCdrScoiQi:onhg.Qi.giosNr,e~ii_oiiisk~§lt no detectab~ chg•. in color 0.1 gloss) .,,,...
9 9
Dichloroacetic Acid Dlmethylformamlde Dioxane
25
~
9 9
2~
Ethyl Alcohol
.~
no deteclab~ ch.g. in color·or gloss no d~lec!_~b.l~c~~.n~~,.. .•••.. no detectable chg; iii cQlo(or'gl~s~< .
9
",.
\
'n~~eie~~~~:~~~:I~C:o~~:igi~~f"";
'{ . 9 ".
.;. 7{';
;:l
>75
>75
Cresol
Ethyl Acetate
>75
>75
>7S
.
~ 71 .•.
Congo Red Corn Syrup
>75
>7S
5 5
23".;
50 50
>75
36S
23
25.4
>75
>75
23
60 60
>75
>75
23 .••.
Chromic Acid
po
t
riodiiiiiCiii6Iiidig:\ii'colOioiillo~S
s···.
Z3
monochlorobenzene
@
>75
36S
23
Chloroform
Cigarette Citric Acid
>75
>75
.,.
household
~
Material Note
no detectable·chg. in color or gloss no detectable change
365
.•.
Caustic Soda Chlorobenzene
>75
. saturated solution
Amyl Acetate Benzene
Blood Butyl Alcohol Calcium Hypochloride Carbon Tetrachloride
Resistance Note
9 9
23
20 28
Bleach
I
ModulUS Flexural .... ' Slrengih
9.
365
Ammonium Hydroxide
o.
Weight
:t
% Retained .
Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Giastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glaslic Grade 1125; 25.4 mm square
'::~~;':i;:';::;:.
Glastic Grede 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured
I
© ~
l=l ~
0' en tl (1) en
to·
·iI?
I,·'
'.
Reagent Note
t;leagent·
t . :-::::::-.;
Cone. Temp.
v
.../~:}h::: :':'::::::': :::.;::;:~::::::.::: .....
,
-;0,.
Ethyl Ether
~
... ...l=l u::
Formic Acid
.9 . :. 9'
37
23 23., ,;
1 1
9 9
90 90
2~".::,
23"
1 1
7 9 9 ,.,9:
23'
1 1 365
23 23
unleaded
Hydrofluoric Acid Hydrogen Peroxide Iodine Isooctane
20 35 35 37 37 48
":'::,23,:i(,:
25 25
)jj23'jj
23),. 49 49"
"~h,i; :'23''':::.'''
'~;Bii
Methanol Methyl Alcohol Methyl Ethyl Ketone
23-:~~
Methylene Chloride Naphthalene Nitric Acid
/.23.}
365 365 1 1 1 1
,.
(70%); wi 50% sulfuric acid (77%)
5 5 20 20 30 50 70 70
w7 r·"'\p\l t:iE.
" 23(t
illtgj;),if
····2~nf
'~t;,~
7:t23i\';
Phenol 80 85 85 85 85
Phosphoric Acid
' 23
i;
23;·,·.
23" ~;
71 71
--_._-
Silver Nitrate 10 10 10
Sodium Carbonate
23 23 71
7~. ~
7h· . 71
saturated solution
" Sodium Hydroxide
1 365 365 1 1 1
% Change
% Retained
Weight
1I0duius Flerurel . Str~ngth
I
I
I
Resistance Note
no detectable Chg: in color o;:glo~s" .:.:........:- .. .no detectable change ;~.~ .. ,": ....•. no detei;J86Iechg:liicoloio{glossi' ~
~o detectable chang~' .. " ' , : I
9 1 1 7 9'
>75 >75
>75 >75
<50 <50
<50 <50
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
,.
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
no detectable chg. In color or gloss
"J
Glastic Grade 1125; 25.4 mm square
:-~.
,:
~t.
no detectable change blisters or other d8lect(s),eirjden(
>~>
f
.
::;.
::'~':
".; ~ . ... ,:.~:.:.:;:~:: ~~: sl. detectable chg. in color 0, gloss·""·(,:" .•.. ·: -
-,
,"
-
no;det~\able'~ilan~.?;:',,},;';ii.I::.:.
sl. detect.able chg: iii~oloty\
:}':fl:::
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
sl. detectable chg. In color or glos~ no delectable change "
.
5
Material Note
g19#IiW
Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square
tincture 01 iodine with 75% toluene
"
Sodium Chloride
Rating
1 1
Furfural Gasoline
Hydrochloric Acid
POL
(d,:tYS) .
23;.. " 23" .
Formaldehyde
::l
0-
('C)
("')
Time
flake
10 10
23 23' 23
r '5
1 1 1 1 1 365 365 1 1 365 365 365 365 1 1
>75 >75
>75 >75
·v·····
',', , .'9 '{T9'·' ',., 9
,
:;:
>75 >60
>75 >60
" t
:,'
,
.' ~I.
imig
·'·'f/t':· ::::
9· 9 9 ......3..."....
!) •. •. • •. •
>60 <50
:·t
. :~:'., '~g<~ : ~; ;:~(~ ;~Jf.~: ::~::~:(
n~ ~,.~il~~:~ ~':rot~~~~;i;,: ;' ,,'kWi<>i
no d~tactable C"'~9a no cletectabie.chg, In color or'gloss)::'} :t
,::_it; d~color. o,c~1l.~ig.Io~~·~il~1%~&:~(:~~~;
>75 >75
>75 >75
Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125: 25.4 mm square Glastic Grade 1125; 3.2 mm Ihick Glastic Grade 1125; 25.4 mm square
Glastic Grade 1125; 3.2 mm thick
no daleC1eble chg: in.color or' gloss" no delectable cllang~:""
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured
.>
blisters or other delect(;)
~~id;~:f: ..
sl. detectable chg. In ~olor or g1osP<;::. no effect or very 51. $lain or ch~:'ol~~'
>60 >75
Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square
;';""'Srde!8:a:;~;~:~lr;~~~;0~~~~;~;;!:";
>60 <50
>60 >75
Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured
Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
7 7 3 5 5 5 9 9 9
:~
....
" '9"
365 365 1 1 1
,
f
", '·:",5t>t...
~;
<:
\::.:<·:': . Y
.: :;:
::--:?.:
~.:'
:.:~~.::
\\.::.:":': .......... 'no'detectable chg.1ti color O( gloss
,,
no delectabla cllange
Glaslic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Amoco Xycon (polyesler/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU); med. mod. hybrid; cured Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick
"1J 0
-< ~
~
Chemical Resistance - Polyester
0'1 0'1
<0
Chemical Resistance - Polyester
""U
o
(}l
0>
o
-< Cl> en
CO ....
;':;,
Reagent
Mater/ill Note
Sodium Hydroxide
20
Glastic Grade 1125: 25.4 mm square
40 40
Sodium Hypochloride Sodium Sulfide
sat.
Soil Slurry
phl0
-". no' detect~b1e change ~
noeffec!or'very sl•.stain or chg, ofgloss
, i~~#~~t~~t~~le. c~g.i~~o!o./O( 919S;o >75 >75 >75 >75
ph3
Sulfuric Acid
(77%): wi 50% nitric acid (70%)
Glastic Grade 1125: 3.2 mm thick
.
25 25 33 33 50 77 77
>75 >60
>75
Amoco Xycon (polyester/PU); high mod. hybrid; cured Amoco Xycon (polyester/PU): med. mod. hybrid: cured Glaslic Grade 1125: 25.4 mm square Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square
>60...,. . ' sl: dele.~la~re ~~'g. In COlor or gloss
~·~~i~~i;i:;~~~r~~;2~~i~~~:~~it . .... rio
d~tecteb(e
:change
no de)ectablechg, i~ color or gioss sl.dlscolor., .or chg: ot gloss or fempora.l¥SI.
a,g,
Toluene
nodetecillble in 'colq{or 910ss •. delectable change, .. 75 75
>75 >75
Trichlorethylene Trichloroethylene Water
Glastic Grade 1125: 25.4 mm square Amoco Xycon (poiyester/PU): high mod. hybrid: cured Amoco Xycon (polyester/PU): med. mod. hybrid; cured Amoco Xycon (polyester/PU); high mod. hybrid: cured Amoco Xycon (polyester/PU); med. mod. hybrid: cured
96 96
with 25% isooctane
'
>75 >75 >75 >75
>75
.~
>75
Glastic Grade 1125: 3.2 mm thick Glastic Grade 1125: 25.4 mm square Glaslic Grade 1125; 3.2 mm lhick Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick Amoco Xycon (polyester/PU): high mod. hybrid: cured Amoco Xycon (polyester/PU): med. mod. hybrid: cured Glastic Grade 1125: 3.2 mm thick Glastic Grade 1125: 25.4 mm square
~::
Sho....:oO sur( defects'alter 18';'11115, distilled boiling
\'190 • .• •' boiling
;;}~O <.100
1 1 6
6 6 @
Amoco Xycon (polyester/PU): high mod. hybrid: cured Amoco Xycon (polyester/PU) Amoco Xycon (polyester/PU): high mod. hybrid: cured Amoco Xycon (polyester/PU): med. mod. hybrid: cured USX MR-13031: 60% wolLlil.; filler wi mod. methacryl silane treatment USX MR-13031: 60% wolLlil.: filler wi stand. methacryl silane treatment USX MR-13031: 60% wolLlil.; untreated fil. Amoco Xycon (polyester/PU); high mod. hybrid; cured USX MR-13031; 60% wolLlil.; Iiller wi mod. methacryl silane treatment USX MR-13031; 60% wolLlil.; filler wi stand. methacryl silane lreatment
'tI
i:i"
USX MR·13031; 60% wolLlil.; untreated til.
~
n' IJ> ~
IJ>
16' ;:l
t"'
0: ..,
..,
$:l
tt::
Amoco Xycon (polyester/PU): high mod. hybrid: cured
Wright's Blood Stain Xylene Zinc Chloride
Glastic Grade 1125; 3.2 mm thick Glastic Grade 1125; 25.4 mm square Glastic Grade 1125; 3.2 mm thick saturated Glastic Grade 1125; 25.4 mm square
,'::/:::::t,
@
,.."." .....
"
'1:l
po ~
!Re~ge,~t
r;' CIl
~
Reagent Note .'
Acetaldehyde
....::....:',,,,:,,,:,:,,,,,,,
'
..
., ....
.+:'
15'
all concentrations
POL
f
2
~::
~
r
.
Acetic Acid
.
(t:
with 37% HCL and 2% H2SO4
.. ..
Acetic Acid
glacial
Acetic Anhydride
2 8 8 8
75 75 75 75 75 84 85 85 85 100
8 8 8 8 8 8 8
,
8 8 8
8 8 8 8 8
CD :::J
Acetonitrile
8
8 29
6 8 8
43 43 43
8 38
2
.
10 10 10 100 100 100 100 100
49
43 38
.~.
I "
, ,I ,
.~
..
..
Owens Corn, Vibrin E·750 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold AIIac 711 Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
.
, c'
I
~:
,•
Ashland Hetron 700 (bisphenoi·A fumarate) Owens Corn, Vibrin E·750 (bisphenol·A fumarate) Reichhold Allac 382 ! Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 expos.t~mp, is max. for inlermillenl expos. only. Owens Corn, Vibrin E·750 (bisphenol·A fumarate) Reichhold Allac 382 , Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate) " .notrecom~~~d~~f~ru~~ ... Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
1 j
,
..
not recommended.!or use 82 82 82
8 8 '2
a
29
2 2
".
Reichhold Allac 382 ~ Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn, Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
I
, I,
.not recommended for use
·f
;~~.
not recommended for use"
,I
"," 2
~
.
nolrecommended for use
8
••••.•.••••. '
:;
43
2 8 8 2
all concentrations
..
38 82 60 60 60
8
100 100
::T
?
8
..
m en' -c
;
8
all concentrations
Acetone
"
8
54 54 54 99 99 93 93 93 99 99 93 93 93 93 71 71 71 71
. .
c.
w::;'
'
. /
~
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarale) . Owens Corn, Vibrin E·750 (bisphenol·A fumarate) ) Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
..
'" "
"
..
1
..
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
fqr use
..
"
'.0
2 5 5 5 10 10 10 10 10 15 25 25 25 25 25 50 50 50 50
.
re~omm"rided
"
:
Material Note
, ..-;.........,.. ~
2
,
Resistance Note not
:, 2
glacial
..
., p
Max.
2
100
;:l
0: .,
Temp.
..
CIl
t-<
Cone.
/ ..,("t .. (~~,,,' ,Rating, [~mp!l1~)
..
2-
.
.-~
.. .
;
:'''''
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
~
-0
o
'<
0'1
Chemical Resistance - Bisphenol A Polyester
0> .......
Chemical Resistance - Bisphenol A Polyester
OJ
00' "0 =r-
(J1 (J)
N
eo
:::J
o :l> ""U
o
'<
Reagent Note
Reagent ,., ......."
... ;:.-..,. .. '
........ -,. .. '
~.
. .... , ..
Acetonitrile
Cone.
Temp.
(%)
.. I'CI
.........•...
POL Max. Rating Temp. ('C)
all eoneenlralions
Acetyl Chloride
Acrylic Latex
'il
aqueous
54
~
Owens Corn. Vibrin E-750 (bisphenol-A fumarale)
10 25 100
8 8 8 8 8 2
43 43 43 38 32
Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenoi-A fumarate)
8 8 8
65 65 65
38
..
100 100 100 100 100 all concentrations
.
..
't"::) C\l
15'"
;:s t"-
o:., .,p
100
e~P9~,I~mp.lsmaX_lor intermillent ~~Il~%on'y
8 8
65 49 65
2
Ashland Hetron 700 (bisphenol-A lumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarale)
.
93 52 82
100 100 100
.,
65 65 65
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 .<
>
-:i
,
..
, ........ __.
.."
,;'
2
, ,
nolreeommended for use I(
. .. .
; "
~:':
.....
•
...
<
'.
...~
~-
.,,"
.::::,,:
2' '2
..
.
8 8 8
saturated
8
:f
~1
99 93 99 104
Ashland Helron 700 (bisphenol-A fumarale)
.
..
,
2 2 2
.. ..
Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AlIae 711
..
8 8 8
8 8 8
.
not recommended lor use
.
65 65 65
100 100 100
..
,
nol recommended for use
8 8 8
8
all concentrations
all concentrations
29
.-
,
2 2 2 2 6
92 92 92
100
Alum
..
..
2 82
all concentrations
C10-C12
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A fumarale)
..
8
.. ..
Allyl Alcohol
Allyl Chloride
not recommended for use
50
all concentrations
humid, trace sulfur fumes phenate based soak cleaner; 10 oz/gal
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
43
. ..
is"
n'
,
"
,
..
.
@
43
..
riofrecommerided for use
..
Alkylbenzenes
.-._.
2 2 2
Acrylonitrile
Air Algaecide Alkaline Cleaners Alkyl Benzenesulfonic Acid
.
2 8 2 8
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
.
2
..
..
Acrylonitrile Latex
nol recommended for use
all eoneenlralions
100 100
Acrylamide Acrylic Acid
2 ;.
100 100 100 100
Acetophenone
'>
2
2
100 100
Material Note
Resistance Note
.... ".
> , l
I
:-'
:.~
'-~':
Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AlIae 711 Ashland Helron 700 (bisphenol-A fumarate) Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A fumarate)
@
"tl
po
~
'R~agent
r;' Vl
~ Vl
Reagent Note <
............; .....
Aluminum Chloride
;:l
t"'
p
•
,_;"',_ ,A;C~".
>.
Cone. (%1 . ...
N
Max. POL Rating l~nlP,r~1
Tem". JOCI.
100
Aluminum Chlorohydrate
It:
Aluminum Citrate
50 50 50 50 all concentrations
" " saturated
Aluminum Fluoride
Aluminum Hydroxide
.,
all concentrations
" " " " " " all concentrations
" "
with 5% acetic acid
[Xl
00' :J CI) ~
8
71 71 71 71 71 82 71 71 71 77 93 104 200 99 93 99
8
" " " "
8
o·
"
-0
32 43 43 43
~
8 8
"
Amerex 201 Amerex 209 Amergel Amine Salts
8 7 7 7
8
"
Aluminum Sulfate
8 8
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Atlac 711 Ashland Hetron 700 (bisphenol-A fumarate)
8 8 8 8
" "
30 100 100 100
'!!~Ktul~I~~i~~t~~~~e~a~~~p~q~~
99 93 99 104
saturated all concentrations
I
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Atlac 711
" 57
Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
"f
104 99 93 99
8 8 8 8 8
20
Aluminum Potassium Sulfate
Material Note
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold AUac 711 Ashland Helron 700 (bisphenol-A fumarate)
8 8
saturated
Aluminum Nitrate
..
99 93 99 104
S 8 8 8 8 8 8 8 8 8
50
Aluminum Chlorohydroxide
104 99 93 99 93
7
all concentrations
" "
-;
Resistance Note
,
8 8 8 S
all concentrations
" " "
<E'
0: -;
•
8 8 8 8- 0': 8 0 8
8 8
quaternary
1;1
" "
S 8
:~
"
synth. su~. veil generally used surfacing mal recommended
"
65 49 65
,.
"
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold AIIac 711 Ashland Hetron 700 (bisphenol·A fumarate)
I. ,
I
" Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold AUac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol-A lumarate)
;
I I I
, ..
104 99 99 93 99 93 52 52 60
" Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold AIIac 711
..
~
'i;-
,'.'
,
..
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Atlac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol·A fumarate)
"
" i
,,
~) .~:
Reichhold Allac 382 Reichhold AIIac 4010; mixt. AIIac 382/387 Reichhold Allac 711
2:l> "U
o
-<
01
Chemical Resistance - Bisphenol A Polyester
0)
IN
Chemical Resistance - Bisphenol A Polyester
OJ
en' "'0
01 0> ~
=r CD
;:,
Q..
» "'U
Reagent
Reagent Nllte
o
-<
Amino Acids
Conc.
Temp.
(%)
t'C)
I
POL Max. Rating Temp. t'C)
all concentrations
8
;".,.' 8 8.
Aminoethoxyethanol Aminoethylpiperazine Ammonia
100 100
Ammonium Acetate
Ammonium Benzoate
S 2 2 S B
100 100 100 100 100 100
8 8
.~ ·8
"':';>~ 8 .8 8 S S' S 8 8
50 65 65 65 all concentrations
8"
Ammonium Bicarbonate
,.
8
"'8 saturated 10 10 10 10 IS 20 50
Ammonium Bisulfite
"
Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 71 I Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 71 I Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 71 I Ashland Helron 700 (bisphenol·A fumarate) Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold AIIac 71 I Ashland Helron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 71 I Ashland Helron 700 (bisphenol·A fumarate)
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
Ammonium Bromide
40 40 40
Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711
Ammonium Carbonate
all concentrations
Reichhold Atlac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 71 I Ashland Hetron 700 (bisphenol·A fumarate)
;:l
t"'
saturated
.,
w/5% sodium chloride; pH 13
u::
.~<
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
<E'
~
recom~~~dedloii.se
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
CIl
$:l
not'
40 40 40
;::;.
15' CIl
32
Ammonium Bromate
::9 ~
Ashland Hetron 700 (bisphenol·A fumarate)
Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
black liquor
@ $:l
~ote
2
2
wet gas
Material
Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 71 I
38 38 38
6
132
dry; gas liquefied
wet; gas dry gas
Re~istan.ce Note
10 IS
104
© 'U
S" ~
Rea.gent.
Reagent Note
ri' m
1?m
to·
Ammonium Carbonate Ammonium Chloride
.~i~~:J ~ril'
R~g~~ II~:~:lW}
Resistan~eNote .
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
30 50 all concentrations
;J
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
s:
0.... ....
P
It::
saturated
Ammonium Citrate
all concentrations
Ammonium Fluoride
all concentrations
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold AlIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
saturated
Ammonium Hydroxide
aqueous ammonia
10 10 10 20 20 20
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AlIae 711 Reiehhold Allae 382 Reiehhold Atlae 4010; mix!. Allae 382/387 Reiehhold Atlae 711
5 5
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Atlae 711 Ashland Hetron 700 (bisphenol-A fumarale) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
5 5 aqueous ammonia
Ammonium Hydroxide
CD
en=r
5 10 10 10 10 10
20 20 20 20 28 28 29 29 29 30
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Atlae 382 Reiehhold AlIae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
Ammonium Lauryl Sulfate
30 30 30 100
Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A fumarate)
Ammonium Lignosulfonate
50 50 50
Reiehhold Allae 382 Reiehhold Atlae 4010; mix!. Allae 382/387 Reiehhold Allae 711
aqueous ammonia
aqueous ammonia
"'0
Material Note
Ammonium Metatungstate Ammonium Nitrate
w/ 50% W03; pH 3.3
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Atlae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarale)
82
all concentrations
CD ::J
2-
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Atlae 382/387 Reiehhold Allae 711
»
"'U
o
-<
Chemical Resistance - Bisphenol A Polyester
0'1 0> 0'1
OJ
Chemical Resistance - Bisphenol A Polyester
CD
,';',
00' "0 :::r :::l
01 0> 0>
",",
"""'"
o
»
Reagent
"'U
o
'<
Ammonium Nitrate
.
Reagent Note
Conc,
Temp.
(%1
('CI
fluoride nuclear wasIe sol'n saturated 57 100
Ammonium Persulfate
,; POL
Max. ,.. . 38 104
8 8 8 8
93 82
8 8 8 8 8
82 82 82 82 82
8 8 8 8 8 8 8 8 8
82 82 82 82 82 82 82 93 82
8 8 8 8 8 8
65 65 65 66 66 66
100
8 8 8 8 8
99 93 99 104 93
25
8 8 8 8 8
43 43 43 38 38
10
8 8 8 8
65 65 65 38
8 8 8
49 104 99 93 99 93 43 43 43
all concentrations
"
" " saturated
Resistance Not!'
Material Note
synth. surt.•ei.l· generally used
Ashland Hetron 700 (bisphenol·A fumarate)
."Rating T~mpH'cr
':'.'
~.
~~
;.'
"
;
Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
" " Reiehhold At/ae 382 Reiehhold At/ae 4010; mixt. At/ae 382/387 Reiehhold At/ae 711 Ashland Hetron 700 (bisphenol·A fumarate)
i
.<.< ...
Ammonium Phosphate
di basic; all concentrations
" " dibasie; saturated mono basic; all cone.
" " monobasic; all concentrations monobasic
Ammonium Salts
65
quaternary; all concentrations
" " quaternay ammonium salts; all cone.
" "
Ammonium Sulfate
all concentrations
" " saturated
Ammonium Sulfide
all concentrations
" " saturated
Ammonium Sulfite
all concentrations
" "
Ammonium Thiocyanate
saturated
@
20 20 20 20 25 50 50 50
"t:I
S' ~
0' Ct>
~ Ct> 15' ;:l
t""
0: ..,
..,
$:I
u::
Ammonium Thiosulfate
all concentrations
" "
.
8 8 " 8 8· 8
~
,
8 8 8
8
,
.•
.~
"
43 43 43
M
Reiehhold At/ae 382 Reiehhold At/ae 4010; mixt. At/ae 382/387 Reiehhold Atlae 711 Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold At/ae 382 Reiehhold At/ae 4010; mixt. At/ae 382/387 Reiehhold At/ae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Hetron 700 (bisphenol·A fumarate)
'.'
, "
l
I
•.
,
,
,! I
.I
>
,
, ..
1 ,
"
,
"
"j
, .. ..
Reichhold At/ae 382 Reiehhold At/ae 4010; mixt. At/ae 382/387 Reiehhold At/ae 711 Reiehhold At/ae 382 Reiehhold At/ae 4010; mixt. AIIac 382/387 Reiehhold At/ae 711 Reiehhold At/ae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashfand Hetron 700 (bisphenol·A tumarate) Owens Corn. Vibrin E·750 (bisphenol·A lumarate) Reichhold At/ae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold At/ae 711 Ashland Hetron 700 (bisphenol·A fumarate)
" Reiehhold Allac 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarale)
I
" "
,..
Reiehhold Allae 382 Reichhold Allae 4010; mixt. At/ae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reichhold At/ae 382 Reichhold Allae 4010; mixt. At/ae 382/387 Reiehhold At/ae 711
, ..
"~:
";'",
"
,
.. ....'
..
"" ..·f'.':''' ..•,,:
,'.,,,::
.
,.
>'
.(,.
,
';'.
.
i(
Reiehhold Allac 382 Reichhold Allac 4010; mixt. At/ae 382/387 Reiehhold At/ae 711
@
.:~,
'1:l
P ~
n'V> ?5' V>
<E' ;:l
t"'
'~~agent ...
Reagent Note
~
..•.~~ - ".". .
. ;' ....
',"
,...
~
Ammonium Thiosulfate Amsco Solvents Amyl Acetate
Cone. .. l%.t .
I,
Temp. (,£1
.
.
:<.'
Mater/Ill Nl?te
.
43
60 60 8KOH solvents
Res/stine~N~*e
R~~;glT~:~;im~l' :8
100
all concentrations
49
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
38
Ashland Hetron 700 (bisphenol·A fumarale)
2 Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 3821387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
2 '.< ., 2 .2
0: .... ~ ....
tt::
100
Amyl Alcohol
49
all concentrations
2 8
71
8
93 99 66 99 60 99 66 99
8
8 8 vapor
.8 8
8
8-
Amyl Chloride
"
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 3821387 Reiehhold Allae 711
2
all concentrations
not
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Atlae 711 Ashland Helron 700 (bisphenol-A fumarate)
I JJ~tI
2
2 100
Aniline
49
"
2
"
2
all concentrations
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AlIae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate)
···.-·u··
2
2 2
2
100
Aniline Hydrochloride
all concentrations
8
8 8
93 100
Aniline Sulfate
all concentrations
saturated
Animal Fats Anodizing Bath Anthraquinonedisulfonic Acid Antimony Pentachloride Ant/mony Trichloride l:D
en-0
~
CD
:;j
o
Apple Juice Aqua Regia
sulfonated
100 100 100
15% sulfuric acid
1 100
82 82 82
8 7 8 8 8 8
99 99 93 99 107 82 82
8
82
8
82
8
82
8
82
8
66
8
32
all concentrations saturated
8 8
93 93 49
3:1 HN03:HCl all concentrations
8
82
8
2
....
82
8
8
.",,:
expos. temp. is max. fO~}II!e.rit)jti~nt eXpos.. only
6
-~-
..
. "."
.". .
.
.'notre'eariallrie'assurned ,-- ,
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 3821387 Reiehhoid Allae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A tumarate) Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
.~.
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AlIae 711
.
Reiehhold Allae 382 Reiehhoid Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
,w_, ,
',-".
Owens Corn. Vibrln E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
.;.
/.."
::'f
'-:-"",
I10f re~mmend!d
2
'cfuse'
"';')y'
~~::.. j
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387
» "U
o
'<
CJ1
Chemical Resistance - Bisphenol A Polyester
m
-...J
Chemical Resistance - Bisphenol A Polyester
CD
en' -0
(}1
0>
(X)
::::T
CD :::J
o
»
Reagent
-u
Reagent Note
-<
"
Aqua Regia Armeen
all concentrations concentrated
POL Max. Rating .[!mPiel;l
Temp.
Cone.
... ("I
o
..
r~)
2 2
71
all cone., C8·C18 amines
" " Armeen C Arquad CSO Arsenic Acid
concentrated
" all concentrations
80 80 80
Arsenious Acid Barium Acetate
20 20 20
Barium Bromide Barium Carbonate
~
'S~"'
;:;. Vl
~ Vl tEo ;:l
" "
t"-
..,o:
..,
p tr::
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
82 82 82 82 82
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reichhold AIIae 4010; mix!. Allae 382/387 Reiehhold Allae 711
,
saturated
all concentrations
,
8
65 65 65
8 8 8
66 71 71 71 93
8
saturated
8 8 8 8 8
i
104 82 99 93 99
8 8
" "
104 93 99 93 99
8
8 8 .'.
8
82 82 82 104 93 99 93 99
8 8
"
all concentrations
.
8
" " Barium Sulfide
82 82 82
8 8 8
10
Barium Sulfate
8
8
" " "
©
32 38 43 43 43
8 8
"
Barium Hydroxide
8 7 8 8 8
8 8 8 8 8 8 8
"
Barium Cyanide
49 49
" "
..,
... '
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
82
8
" " " " " "
"
..
8 8
8
"
Barium Chloride
,
8
" " " "
.
not recommended for use
........
82 71
all concentrations saturated
all concentrations
Material Note .
8 8 8
8
"
Resistance Note
•••• ; :~:
~;
60 60 60
this is the preferred material
Ashland Hetron 700 (bisphenol·A fumarate)
" "
:.~'
acid medium will discolor
,
,,
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reichhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
~~
.,
"
'"
.
.
I
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AIIae 382/387 Reiehhold Allae 711
, _...
,I
Ashland Hetron 700 (bisphenol·A tumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
,
;,,' .1
,>
.<
I
.,
..
"
............... , ..
,.",'
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AIIae 711
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 ::;~;;";~~
Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarate)
::
'-".
" .,. (.:
,i
l l
I,
,
..
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387
@
"1:l
P ~
,Reagent
..
Reagent Note
r;' CIl
~ CIl
to·
Barium Sulfide
Conc.
Temp.
(%)
I'C)
Max. POL Rating Temp. ('C)
all concentrations saturated
Beer
;:l
t
.., ..,i=l
0" (C
100
Beet Sugar Liquors ~.,
Benzaldehyde
Benzene
100 100 100 100 vapor
" " 29 100 100 100 100 100
Benzenesulfonic Acid
all concentrations
" " saturated 30 100
Benzoic Acid
saturated
" " 100
Benzoyl Benzoic Acid Benzoyl Chloride Benzyl Alcohol
60 66
7 7 7 6 8 6 6 8 2 2 2 2 2 2 2 6 2 2 2 2 2 8
43 43 43 32 82 82 82 82
all concentrations
" " "
"
..
,!
99 93 99 104 93 93 104 99 93 99 93 .,
"
8
CD
00' :::r
100
2 2 2 2 2
" "
"0
..
" ..
~'
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Atlae 711 Ashland Hetron 700 (bisphenol·A fumarate)
b;.
:-!
I .,.
" Owens Corn. Vibrin E·750 (bisphenol·A fumarafe) '-
,
.. '.'
Ashland Helron 700 (bisphenol·A fumarate) Reiehhold AUae 382 Reiehhold Atlae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
,
.. .
82 82 82
43 43 43
all eoneentralions
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AUae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold AUae 4010; mix!. AIlae 382/387 Reiehhold Atlae 711 Ashland Hetron 700 (bisphenol·A fumarale)
~
" "
not r&Comm&llded lor use
I
2
Benzyl Chloride
Ashland Helron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
" " " " "
"
,
8 6
a
" Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
l
::,;
" 100
Reiehhold AUae 382 Reiehhold AUae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarale)
"
"
60
all concentrations
taste may be a problem "
l
,l
expos. temp. is ma.x. for ;nlerminent expos. only nol recommended tor use
8 2
100
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
<
"
8 6 8 8 8
'" 8 6 8 8
Material Note
" ' n o t recommendedfor use
8 8 8 6
"
Benzoquinone
49
8 8
Resistance Note
not recommended lor use (' . "noirecommendedloluse '
32
;,
, ,
:::J
"
. "
"
,
Reiehhold AUae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A lumarate) Ashland Helron 700 (bisphenol·A fumarate)
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 , Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A lumarate) Ashland Hetron 700 (bisphenol·A fumarate)
2-
»
01
-0
o
-<
Chemical Resistance - Bisphenol A Polyester
0) (0
Chemical Resistance - Bisphenol A Polyester
OJ Ci;-
01
-../ C>
"0
=s-
CD ~
2-
»
""U 0
-<
IReagent
Bla~~ Liquor
-,
1-..-
Reagent Note . -,
I
conc'l Temp.
'~, ~.
-
" ...........
(%)
I
POLl
pH >7 pulp mill; all concentrations
8
8 8 8 8
room flooring, spills
Bleach
e e e e e e e e e
aq.sol. w110% NaCL03 & 10% NaN03
aq.sol. w/5% ZnH03+2.5% tripolyphosphate
aqueous peroxide solution
calcium hypoehlorile; sat. chlorine dioxide chlorine water bleach sol.; sat.
8
e e e 8
Bleach
hydrosulfite sodium hypochlorite
5 5.25
e
sodium hypochlorite bleach sol'n
5.25 5.25 5.25 15 15 15 15
e e
chlorine dioxide bleach sol'n
sodium hypochlorite sodium hypochlorite bleach sol'n
calcium hyboehhlorite bleach sol'n
Textone· Olin product; aq.sol. NaCL03
@
"tJ
Blow Down Borax
E'" CIl
t:J
C1l
CIl
;:l
t"'
0: .,
.,
~
\l:
8
e e 8
e <104
"
OK to max. stable temp. for reagent
32 52
,
;~.~
.
}i:<
.!-
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allac 711
, ~:
Ashland Hetron 700 (bisphenol·A fumarate)
t
, ,
speCial cure &synth. surf. velf used; nonthitotropie iesins preferable OK to max. stable lemp. lor reagenl
"
,
i i,.
r
1 ,
u~~:
.special cure &·'sYrrlh. surf: veil nonthitollopic !851r1$ preferable '-
;~KIO ~' s,t~~'~leT~:;~~if~~§rni:
:·:)!ti;;;;~ "\;.' .:i: "';
,«',
....<:,;;:
,.,.'
M
'~~~.,.
:::~
:;" .
c
:(:;/:.: j.::
:(.>
;
\
~:
Reiehhold AIIae 382 Reichhold Atlae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reichhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reichhold AIIae 382 Reiehhold Allac 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Ashland Hetron 700 (bisphenol·A fumarate)
.; Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allae 382 Reichhold Allae 4010; mixt. Atlac 382/387 ;: Reiehhold Allae 711
8 8
e e e e ~"
.~
~
6
8... 8 ,8
...
t
e
40 40 40
Reichhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Relehhold Allae 711 Reiehhold Allae 382 Reichhold Allae 4010; mixt. Allae 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
"
I
I 99 93 99
.
.
specialeuie s;stem generally used
! I 104 93 104 49
Reiehhold Atlae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711 Reiehhold AIIae 382 Reichhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
·· ·.. ·
~
8 8
all concentrations saturated
"
I
~ .,i
all concentrations saturated
·
;
I,
,,
Material Note Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
I
, 104 93 104 49 7 43 43 43
I
Resistance Note
I
i
8
"
Boric Acid
82 99 93 99 32
8
e e 8
··
~ ;:;.
~.
8
15 15 15 20 20 20 50 50 50
digester; vapors
Max.
(~£L . . . !iating\ Temp. I"C)'
.'{:~: :.~\.,
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allac 382/387 Reiehhold Allac 711
©
'~"
p
!Reagent
r;' V>
16' V>
Borol
Reagent Note , ',' . .. . .'
'
~
.Conc. . .J~.L
48% caustic and 12% NaBH4
tEo ;:l
t-
..,o: ..,i=l
u::
Brake Fluids
Temp.
(~CL..
I Rating POL I Max, Temp,('c)
Res!sta!lCeNote
8 8 ,'; 8
Reiehhold AlIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
8
Reiehhold AlIae 382 Aeiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
B
8
Brine Brines
salt; saturated saturated with chlorine; saturated
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
8'
8 8
chlorinated brines; saturated
8 8
Reiehhold Allae 382 Reiehhold Aflae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Aeiehhold Allae 4010; mix\. AlIae 382/387 Reiehhold Allae 711
8 salt brines; saturated
Bromine
8 8
fumes, gas
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Atlae 4010; mix\. AlIae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Aeiehhold Allae 4010; mix!. Allee 382/387 Reiehhold AlIae 711 Ashlend Hetron 700 (bisphenol-A fumerate)
liquid
bromine water
5
5 5 water dry gas liquid
Brown Stock
Q.
Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix\. AlIae 382/387 Reiehhold AlIae 711
100
Owens Corn. Vibrin E-750 (bisphenol·A fumarate)
100 100 100
Aeiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold AlIae 711
Butoxyethoxyethanol (2,2-)
100 100 100
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold Allae 711
Butyl Acetate
100 100 100 100 100
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. AlIae 382/387 Reiehhold Allae 711
Butyl Acrylate
100 100 100 100
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
OJ
(ii' "0 :T CD :::J
5 100 100 100
pulp mill
Bunker Fuel C Butoxyethanol (2-)
Material Note
Butyl Alcohol
(tert·). (see-); all cone. 43
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
~
"'U
o
-<
01
Chemical Resistance - Bisphenol A Polyester
-..j
.-..
Chemical Resistance - Bisphenol A Polyester
OJ
(ii' "0
01
--J N
::::r
::l
}::....
o
}>
-0
Reagent
Reagent Note
'<
Resis~anc~ Note.
Cone. (%j
o
Butyl Alcohol
'·8
all concentrations
~.
normal
100
Butyl Benzyl Phthalate
100
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382
Reiehhold Allae 711
Butyl Stearate Butylamine
Butylene Glycol
Reiehhold Allae 4010; mix!. Atlae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
100 100 100
Butyl Ether Butyl Glycol
in mineral spirits
Reiehhold Allac 382 Reiehhold Atiae 711
100
Ashland Hetron 700 (bisphenol-A fumarate)
100 100 100 100
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AIIae 382/387 Reiehhold Atlae 711
100
Ashland Hetron 700 (bisphenol-A fumarate)
100 100 100
Reiehhold Allae 4010; mix!. Allac 382/387 Reiehhold Allae 711
5 5 5
Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Atlae 711
100
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
Reichhold Allae 382
Reiehhold Allac 382
all concentrations
24
100 100 100 100
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
100
Butylene Oxide
100 100 100
Ashland Helron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold AIIae 4010; mix!. Allae 382/387 Reichhold AIIae 711
100
Butyraldehyde
100
'1:l
100 100
~
100
S'
~
(I)
tEo ;:l
t"'
~ ..,$:l
u:
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382
Butyl Cellosolve
(I)
8.
100 100
Butyl Carbitol
n'
8
Butyl Benzoate
100 100 100
@
Reichhold AIIae 382 Reiehhold AIIae 4010; mix!. Allae 382/387 Reiehhold AIIae 711
Butyric Acid
Reiehhold Allae 382 Reiehhold Atlae 4010; mix!. AIIae 382/387 Relehhold Allae 711 27
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
25
Ashland Hetron 700 (bisphenol-A fumarafe)
25 50
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
50 50 50 70 85
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A fumarate) Reiehhold Allae 382
@
'i:l
~
Reag~,!~"
~
Butyric Acid
H",I '
Re~gentNgte,
L~f;~:J ~!.~rl~;~~g IT~;;iilt) I 85:tt,~
~
85
~
<E' ;:l
t
"
~
~
all concentrations
8
"
8
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387
88
H"
8
Calcium Bromide Calcium Carbonate
a
Calcium Chloride
8
382/387
.,....
Reiehhotd AIIae 382 Reiehhold Allae 4010; mix!. Allae 382/387
•...:,.,.
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
."
'H
saturated
8
93
Ashland Hetron 700 (bisphenol-A fumarate)
all concentrations
8
93
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
8
99
8
93~.
pH 8.5
35
pH 5.5
55
all concentrations
. 8
;:'.8 a
'''~C"'
'"
Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
I
Reiehhold Allae 382
1
Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
.j
138
8.
71, 71 71 I
a
71 82
25 25
a
66
8.;
49
l~
[H'
"""., Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382
116 H
8 8
saturated
::-; •.:
99" 107
15
.R"to
:-:::.:...
~t~~;:~~;~;:~I~.:~~ae
93 99
saturated
IC.I,',m
Reiehhold
11 8
.......8
i
Reiehhold Allae 711 Ashiand Hetron 700 (bisphenol·A lumarate)
. .....'H'
49 99
8..
Calcium Hypochlorite
..... :"". "'...
8
saturated
Calcium Hydroxide
",
99: 99
a
all concentrations
. ".,
H
8
Calcium Chlorate
"... .
9 9 " ''''::::''77:'/''/.;':''/'>'' 93 ' "'>:•.'"
a
salurated
Reiehhold Allae 382 Reiehhotd Allae 4010; mix!. Allae 382/387
H :;:. ·' . . . ; . 't",,:" .:;: (82
a
"
Reiehhold Allae 711
',:',
82,'/i>
~
all concentrations
. , . ; ; ••
C·
8 .
,
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387
8 2 , , : . . :::..... 82 •. '>}...
a saturated
Reiehhold Allae 711
·····O~iomillCstable:l~nip,ioi'rea9ilnt . ... }A' ." . /~
8
all concentrations
Ashland Hetron 700 (bisphenol-A fumarate)
88
a Calcium Bisulfite
.•'
88
a
It::
Material Note Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 71t
32
" 8
Calcium Bisulfide
r
Note
43 43
8 , 8
100
Cadmium Chloride
. Resist~,nce
Reiehhold Allae 382 Reiehhold AIIae 4010; mix!. Allae 382/387 Reiehhold Allae 711
I,
Ashland Helron 700 (bisphenol-A fumarate)
71
I"
'~~
j...:
....'.. ... ."
ii<."::' { w,.\\,\ .
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
.$pecijllelll~;Srs!~ri{geQ:~/(l)IY:~~M·
Ashland Hetron 700 (bisphenol·A fumarate)
~.}~t.1&~:t~" o.·::::":,'g~fg~~~::"·'
JJ. :)~J!f~.:~
o.::::~:~;~i.~rE:~~·'
1
:::J
o
:l> '"t:J
~
01
Chemical Resistance - Bisphenol A Polyester
~
c.n
Chemical Resistance - Bisphenol A Polyester
tD
en' "0
-.j ~
::::T (1)
:::l
o
»
Reagent
Reagent Note
""tJ
o
'<
Calcium Sulfate
Cone.
Temp.
("I
('C)
POL
';".
TeJTIP, (~C)
8 8 8 8 8
93 99 93 99 104
8 8
all concentrations
" " " saturaled
Calcium Sulfite
all concentrations
8
82 82 82
8 8 8
82 82 82
all concentrations
8
"
8
"
8 8
71 71 71 71 71 93
"
" " Cane Sugar
,
liquor & sweetwater; all cone.
.
"
" Capric Acid
saturated 5 100
Caprylic Acid
;
all concentrations
" " saturated
;.
5 100
Carbamide Carbolic Acid Carbon Dioxide
saturated 10 10 10
>
gas, dry
" wet, acidic
100
lumes
100 100 100 100
Carbon Monoxide
::s! p ri' en
i?en
lEi' ;:3
t
..,0' P .., \r;:
gas
" " Carbon Tetrachloride
100
"
vapor
" " "
100 100 100
8 8 8 8 8
82 71 82 71 71 93
8
71
29
Resistance Note
8 8 8 8 8 8 2 6
Material Note Owens Corn, Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 71 I Ashland Hetron 700 (bisphenol-A fumarate)
".
, '.
",
.,
"
"
..
"
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AUae 382/387 Reiehhold Allae 711
-
"
.
Reiehhold Allae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 711
.'
Reiehhold Allae 382 Reiehhold AUae 4010: mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate)
.
,.
, 3
"
I
.' Owens Corn. Vibrin E-750 (bisphenol-A lumarate)
':.
' .
Reiehhold Allae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A lumarate)
!
" Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Ashland Hetron 700 (bisphenol-A lumarate)
:
..
'not iiii:Oiniiie.ii~dfofuS8
2
2 2 8 8
"
~
8 8,
2 8 2 2 2
" "
©
8
2 2 8 8 8 8 8'
"
Carbon Disulfide
Max.
Rating
Reiehhold AUae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 711
"
177 93 177 121 49 49
. " " .....".,. ".
, , ,
Reiehhold Allae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate)
;';;'
..;
Reiehhold Allae 382 Reiehhold Allae 4010: mixt. AUae 382/387 Reiehhold Allae 71 I Owens Corn, Vibrin E-750 (bisphenol-A lumarate) Ashland Helron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 71 I
not recommended for use
,
not recommended lor use
"
,
" "
177 93 177 71 43 43 43 32
"
,
"
,
Reiehhold AUae 382 Reiehhold Allae 4010: mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate)
;. v.
., 1
r
'/'
.',,'
,,; .
.";';"{'
."
', .•..
':
not recommended for usa expos_tamp. Is inax.fOr:lntarlllltta"texp~f"o~!Yl
>
Reiehhold Allae 382 Reiehhold AUae 4010: mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A lumarale) " Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
@
::g ~
~~a~e,nt
'"t l
Carbonic Acid
'....." r;'
.'R~~;!f:. I:I,=~?j;~}.
Material Note
8
32
C1l
8::."
;:l
8
43 43 43
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
38 38 38
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
82 82 82
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
82 71 82
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
71 71 71
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
saturated
tE· '"
s:.,
0-
8
Carbowax
100 100 100
.,
~
<.t::
Carbowax Polyethylene Glycols Carboxyethyl Cellulose Carboxymethyl Cellulose Carpet Cleaners Cashew Nut Oil
8
8
all concentrations
··
8
8 10 10 10
········,'·":.ir.. . . . . ."·,· 8 8
all concentrations
8
shampoo
8 8 8
··
Castor Oil Caustic Cellulosic Resins Cerous Nitrate Chlorine
8
8
100 100 100
..8
100 100 100
8
8
8 8'
8
spent. phenolic relinery film resins; all cone. saturated
8
chlorine water; all cone.
8 8 8
gas, wet or dry
8
8
·
8
·
liquid dry gas liquid
wet gas
Chlorine Dioxide
8 8 8 8 2 2 2 8
100 100 100 100 100 100 100
8 2
<1 gil all concentrations wet; all concentrations
8 8 ..... .... ~.
\.;
OJ
en"
"0
=r CD
='
2-
Chlorine Gas Chlorine Water Chloroacetic Acid
in air
15
dry saturated
100
38
Ashland Hetron 700 (bisphenol-A fumarate)
66 66 66 66 66 66
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
54 38 32
Ashland Hetron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Ashland Hetron 700 (bisphenol-A lumarate)
93 93 93 99 93 99
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E·750 (bisphenol-A lumarate) Ashland Hetron 700 (bisphenol-A fumarale) Reiehhold Allae 382 Reiehhold AIIae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AIIae 382/387 Reiehhold Allae 711
"
-48
93 -48
good (es~"s shan expos. not ;.eom~ndedfohlse . .
leSt
93 93 93 93 7
8
93
8
32
afler
Ashland Hetron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E·750 (bisphenol-A lumarate) Ashland Hetron 700 (bisphenol-A lumarate)
2
concentrated 25 25
~.
8'
32
99
Reiehhold Allae 382
»
"'U
o
'<
(J1
Chemical Resistance - Bisphenol A Polyester
-...J
(J1
Chemical Resistance - Bisphenol A Polyester
OJ
en' -c
'::T
CD
:::J
o
» ""U
Reagent Note
Reagent
-
o
-<
~
,'r
..
Chloroacetic Acid
Cone.
Temp.
(%)
('C)
25 25 50 50 50 50 80 80 80 80 100
Chlorobenzene
monochlorobenzene
100 100 100 100 100
27
,.' liquid; trichloromethane vapor
Chloroproplonic Acid Chloropyridine
100 100 100 100
Chlorosulfonic Acid
100 100 100 100
Chlorotoluene
100 100 100
Chromic Acid
saturated with 13.7% sulluric acid
" " w/16% sulluric acid with 15% nitric acid
'i:l ~
V> ..... 0' V>
1? V>
tE· ;:l
~
., .,
0'
P
lC:
100 100 100 100 100
"
"
2.5 2.5 2.5 3 3 3 3 5 5 5 5 5 10 10 10 10
,.
;:~OL
71 63
Chloroform
@
01 -.J
Ol '
~
..
;r,mp;(Wl
8 8 8 8 8 8 8 8 8 2 2
93 99 66 60 60 60 43 43 43
Resistance Note
, , , ,
nOI recommended for use
·
".
" "
y'
"
,
:>::
.:,q
•••••••••••••••
"
expos.lemp. is max. for interminent expos. only not recommended fohlse
,
Ashland Hetron 700 (bisphenol-A fumarate)
" Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 3821387 Reichhold Allac 711
"
· "
"
Owens Corn. Vibrin E-750 (bisphenol-A fumarale)
"
Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
"
:::
"
··· · ,. ·· ·· ,~,
··
: 43 43 43
6 2 2"
~:
43 43
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
,., >"'.
"
Reichhold AIIac 382 Reichhold Allac 4010; mix\. Atlac 382/387 Reichhold Allac 711
Ashland Hetron 700 (bisphenol·A tumarale) Reichhold Allac 382 Reichhold AIIac 4010; mix\. Allac 382/387 Reichhold Allac 711 " Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold AIIac 4010; mix\. Allac 382/387 " Reichhold AIIac 711 " Ashland Hetron 700 (bisphenol-A fumarate) " Reichhold Allac 382 , Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 expos. lemp. is max. for in{~rmittent e~pos. only. Owens Corn. Vibrin E-750 (bisphenol-A fumarate) not recommended' fo( use Ashland Hetron 700 (bisphenol-A fumarate) .. . Owens Corn. Vibrin E-750 (bisphenol-A fumarale) " Reichhold Allac 382 , ..., Reichhold AIIac 4010; mix\. Allac 382/387
"
2 2 2
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
"
··
l
2
8 8
Reichhold Allac 4010; mix\. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold AIIac 4010; mix\. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
..
,
2 2 2 2 2 2 2 2 2 2 2 2
29
Material Note
., '.
2
2 8 8 8
........ ,.
..•.
:~.
Max.
Rating
2 2 2 2 6 2 2 2 2 2 2 2 2
... ...
,
.
"
@
po ~
Reagent Note
Reagent
r;'
1?'" '" 15'
:»
.
'1:l
..
~
..
,-
".......
..
~
",
Cone. (%1
.~~
Temb.
('CI
POL Max. Rating Temp. ('CI
t""
;: ...,
10
8
wi 16% sulfuric acid
12.5
2
intermittent
15-20
2
wi 20% sulfuric acid wi 32% sulfuric acid
20
2
20
2
20
2
l=l ...,
20
2
20
2
20
2
30
2
30
2
30
2
30
Chromium Potassium Sulfate Chromium Sulfate
Chromous Sulfate
Citric Acid
Cobalt Nitrate
60
"
8
60
"
8
60
" "
8
60
8
60
all concentrations
8
93
"
8 8
99
OJ
~
Q..
,
99
8
104
82
8
66
8 8 8
66
8 8
66
,
66
,
,
,
82 82 66 66
8
66 93
"
8
93
!}
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
66
8
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
66
60
" ..
82
"
8 8 8 8
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711 Ashland HelTon 700 (bisphenol-A fumarate)
not reeommend.ed for use
2
8 8 8 8 8 8
alf concentrations saturated
','.
93
8
82
100
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
..
8 8
"
,
1
" " " "
alf concentrations
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
..
82
"0
Copper Acetate
Ashland Hetron 700 (bisphenol-A fumarate)
8
" " Coconut Oil
60
l
alf concentrations
"
Cobalt Octoate
" 60
" " " " Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AUae 711
"
" " " "
8
saturated
,
•.
"
60
" " " " "
" " "
:
8'
129
Reiehhold Atlae 711 Ashland Hetron 700 (bisphenol-A fumarate)
for use
"
" "
"
Cobalt Naphthenate
r8eommend~d
nol
•
93
all concentrations saturated
"
Cobalt Citrate
,
8 8 8
salurated
Cobalt Chloride
43
2
saturated
" "
CD
Material Note
"
Chromic Acid
;:l
00=r
Resistance Note
I
.. ,
Reiehhold AUae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Attae 711
.~.
.\'
..
/..:
T "'.'
93
>:< ",
79 93 82
;
:.
Reiehhold Allae 382 Reiehhold AUae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland HetTon 700 (bisphenol-A tumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Helron 700 (bisphenol-A fumarate)
»
<J
o
-<
01
Chemical Resistance - Bisphenol A Polyester
-..l ......
Chemical Resistance - Bisphenol A Polyester
OJ
00'
(]l
-...J
(Xl
"C
~
(1)
~
o
»
Reagent
Temp. lOCI
Reage'nt Note
\J
o
'<
Copper Acetate Copper Chloride
Copper Cyanide
saturated
all concentrations
,Ma~. ' FTemp;,(,c)
>'1
POL Rating
Re$ist~ri~~ Note
::..,:..)::
Reiehhold AIIae 382
8' 8
Reiehhold AIIae 4010; mix\. Atlae 382/387 Reiehhold Allae 711
8
Reiehhold AIIae 382
8
Reiehhold Allae 4010; mix\. Allae 382/387
8
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A lumarate)
saluraled
8
all concentrations
'8
8 8
~.;.
8
Ashland Hetron 700 (bisphenol-A fumarate}
..
8
.
8
Owens Corn, Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382
..
8
8 8 8, 8
all concentrations
.. ..
.
,8'
saturated wi 28% sulfuric acid
Jl
8 12
100
Corn Sugar
slurry
.. ..
all concentrations
Corn Syrup Cottonseed Oil
@
Ashland Hetren 700 (bisphenol-A fumarate)
8 8
Reiehhold AIIae 382 Reiehhold AIIae 4010; mix\. Allae 382/387
8
Reiehhold AIIae 711
8 8
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold Allae 711
8
Owens Corn, Vibrin E-7S0 (bisphenol-A fumarate)
8
Reiehhold Allae 382
8
Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold Allae 711
2
"0
2
p~
n'
'"tl to'" (1)
;:l
t"'
0: .,
.,P
lOD
Crude Oils
24
"2 '"" 8
sour salt water sour sour and sweet crude
IS 100
"8
100
8 8
sour or sweet
100 100 100
.. .. ..
100
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold AIIae 711 Ashland Hetron 700 (bisphenol-A fumarate)
"8"
8 2
all concentrations
Owens Corn, Vibrin E-750 (bisphenol-A lumarate)
Reiehhold Allae 382 Reiehhold Allae 4010; mix!, Allae 382/387 Reiehhold Allae 711
,8 100
Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold AIIae 711 Ashland Hetron 700 (bisphenol-A fumarate)
8". 8 8 8
8
,Cresylic Acid
Reiehhold AIIae 4010; mix\. Allae 382/387 Reiehhold Allae 711
saturated
Corn Oil
Corn Starch
\'
Owens Corn, Vibrin E-7S0 (bisphenol-A fumarate) Reiehhold Allae 382
all concentrations
saturated
Copper Sulfate
....,....
8
8
Copper Nitrate
M~~efiaINote
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhotd Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn, Vibrin E-750 (bisphenol-A fumarate)
8 8
a
Ashland Helron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold AIIae 4010; mix\. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387
@
"1:l
S" ~
n'
'tl" cEo '"
Crude Oils
t
Cyanides
(ll
sour or sweet sweet
CWT 102
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate) 100
52
;:l
..,0'" P ..,
It:
[Cyansize 400 Cyansize 420 Cyansize 430 Cyanuric Chloride Cyclohexane
cyanide disposal; all cone.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
sizes; all concentrations sizing emulsion; all cone.
Owens Corn. Vibrin E·750 (bisphenol·A lumarale)
sizes; all concentrations scrubbed wi 5.25% NaOH
99
Ashland Hetron 700 (bisphenol·A fumarate)
vapor 100 100 100 100 100
...
~
··.not.reeommended 10("$e
100 100 100 100
Cygon 400 Decyl Alcohol
100
Ashland Hetron 700 (bispheno/·A lumarate)
100 100 100
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
29
dishwashing liquid, bideg. liquid, biodegradable Renex; all eoneentralions
" sullonated; all concentrations
" " liquid; biodegradeable organic
DFR 121 Diallyl Phthalate
Diammonlum Phosphate
Reiehhold Allae 382 Reiehhold At/ae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A lumarate)
Ashland Hetron 700 (bisphenol·A fumarate)
"
OJ
Owens Corn. Vibrin E·750 (bisphenol·A lumarate) Reiehhold Allae 382 Reiehho/d Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
Cyclohexanone
Detergents
en'
~
100 100 100 100
Arapahoe Chemicals
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Atlae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bispheno/·A fumarate)
all concentrations
100
Reiehhold Atlae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold Atlae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
65 65 65
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
Dibromophenol
Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
"U
=r
:J
Q.
»
""1J
o
-<
Chemical Resistance - Bisphenol A Polyester
01 ......
<0
<.1l
Chemical Resistance - Bisphenol A Polyester
CD
en' "'0
:::r CO
~
::l
...
... ,
o
;
»
Reagent
.. ,-
""U
...
'<
r
Reagent Note ...
o
-
Dibromopropanol
Cone.
Temp.
(%)
reI
"
100
49
100 100 100 100
8
8 8 8 8
100 all concentrations
"
8
" in 32% HCI
Dichlorobenzene (0') Dichloroethane
Dichloroethane (1,2-) Dichloroethylene
Dichloromethane
"0
Dichloropropene
..,
p
.. ,
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
.,
82 82
Reichhold Allac 382 Reiehhold Allae 4010; mix\. Allac 382/387 Reichhold Allae 711
99 93 99
Reiehhold AIIae 382 Reiehhold Allae 4010; mix\. Allac 382/387 Reiehhold Allae 711
.
".,
Ashland Hetron 700 (bisphenol-A fumarate)
100 100 100
8
... "' ..... ...
Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold AIIae 711
100
2
. noirecomiiiendadior US8
Ashland Hetron 700 (bisphenol-A fumarate)
100 100 100
"
"
"
Reichhold Allae 382
100
2 2 2 2
100
2
100
2
100 100 100
2
43
,
2
8
"
" not reeommended for use
43
~,
,
Reiehhold Allae 4010; mix\. Atlae 382/387 Reichhold Allae 711
"
" ....
..
,
2 2
")
Ashland Hetron 700 (bisphenol·A fumarate)
"
.
..
Reichhold AIIae 382 Reiehhold Allac 4010; mix\. Allae 382/387 Reiehhold Allae 711
N,:,
"..
•
2
Ashland Hetron 700 (bisphenol-A fumarate)
" "
2 2
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold Allae 711
"
2
"
100
2
"ii'"
100 100 100
2 2
" " "
100
.2
100 100
100
Diesel Fuels
82 82
nolreeommen!led for use
100 100
t-'
..,0:
66
Reichhold Allac 4010; mix\. Allac 382/387 Reichhold Allac 711
2 2
100
;:l
nof recommended for use
43
100 100
100
Dichloroproplonic Acid
..
Reichhold AIIac 382
43
limited service life expected
100 100
@
27
Ashland Hetron 700 (bisphenol-A fumarate)
6
77
100 100
Dichlorophenol Dichloropropane
Reichhold Allac 711
.. ~. ....... ,......... ,.
2
8 8 8
". /
'.
.,
i
2
8 8
100
Oibutyl Phthalate
'~" tEo '"
Reichhold Allae 382 Reichhold AIIac 4010; mix\. Allae 382/387
not recommended for use
2 2
100
~ ;:;.
Material Note
2
100 100
E"'
Resistance Note
"
..
Dichloro·4·Aniline (2,6-) Dichlorobenzene
Max. POL Rating Tllm.p, ('l;l
all concentrations
Oibromopropanol (2,3·) Dibutyl Ether
Dibutyl Sebacate
ex>
o
2
ii·
Ashland Hetron 700 (bisphenol-A fumarate)
" Reiehhold Allae 382 Reiehhold Allae 4010; mix\. AIIae 382/387 Reiehhold AIIae 711
,
~.
"
...•.
" "
Ashland Hetron 700 (bisphenol·A lumarate)
2 2 2
"
Reiehhold Allac 4010; mix\. Allae 382/387 Reiehhold Allae 711
2
·. ·
2 2
2
all concentrations
8
"
8
w•'
82 82
.-.
...
Reiehhold Allae 382
';~
,_:~_:
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 3821387 Reiehhold Allee 711 Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allac 382/387
@
~
!=l
POL
'....." ;:;. '"
~
Rating Diesel Fuels
t-'
Diethanolamine
.,
!=l
Diethyl Benzene Diethyl Ether
ethyl ether
Diethyl Ketone
Diethyl Maleate
waler
Diethylamine Diethylene Glycol
8
Reiehhold Atlae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
100 100 100
0: ., \t::
100
2
100 100 100 100 100
2 2 24
2
29
6 2
100 100 100 100 100
29
97 100
100 24
Diethylhexyl Phosphoric Acid
in kerosene
8 8
8 8
8
II 8 8
8 8
OJ
00"
"0
:::T
99 93 99 38
Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold AlIae 711
38 27 38
Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Relehhold Allae 711
2 2
2 24
? ···.8
" .. 1\
NJ(
82
~ '2' 2
g 82
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Helron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
27 38
2 2" 2
20 5 100 100 100 100
93 104
2
100 100 100 100
20 20
Diethylmaleate
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
2 8
100 100 100 100
Diethylformamide
Ashland Hetron 700 (bisphenol·A fumarale)
2.
2
100 100 100
oETA
/'6. 2"
2
100 100 100
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A 'umarale) • Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Helron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
2
all eoneenlrations
Diethylene Glycol EthylEther Carbltol
e.po.~, le~p: ism~.,·I~(!~;iij;uneni;&pos/~nly
2
100 100 100
Diethylene Glycol Butyl Ether Butyl Carbitol
Ashland Helron 700 (bisphenol·A fumarate)
2
100 100 100 100
Diethylenetriamine
Reiehhold AlIae 711 Ashland Helron 700 (bisphenol·A lumarale) Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
,8
100 100
tE· '" ;::l
il
all eoneenlrations
6
Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reiehhold AlIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
:::J
2-
»
"'U
o
'<
Chemical Resistance - Bisphenol A Polyester
01 00 -'"
Chemical Resistance - Bisphenol A Polyester
CD
w-
01 00 f\)
"0
~
CD
='
£.
»
""U
~aterlalNote
Resistance Note
Reagent
o
-<
Diglycol Amine
saturated with C02 and H2S
100 100
Diisobutyl Ketone Diisobutyl Phthalate Diisobutylene Diisocyanate Diisopropanolamine
diphenyl methane
132 132
limited service life expected ,., : :... :.. ~-:)/" '"::>-::
100
Reichhold Atlac 382
100
Reichhold Atlac 4010; mixt. Atlac 382/387
100
Reichhold Atlac 711
100
Reichhold Atlac 382
100
Reichhold Atlac 4010; mixt. Atlac 382/387
100
Reichhold Atlac 711
100
Reichhold Atlac 382
100 100
Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711
100
Ashland Hetron 700 (bisphenol-A fumarate)
100 100
Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711
100
Dimethyl Acetamide
70 100
Dimethyl Formamide Dimethyl Morpholine Dimethyl Phthalate
100 100
Ashland Hetron 700 (bisphenol-A fumarate)
24 32 49
100 100
Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387
100 100
Dimethyl Sulfoxide
Reichhold Atlac 711
100 100 100 100
Dimethylacetamide Dimethylformamide
Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711 Ashland Hetron 700 (bisphenol-A fumarate)
24
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
100 100 100 100
Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711
100
Dioctyl Phthalate
©
Dioctyl Sulfosuccinate Dioxane
po
~ ;::;0 V>
t"'
0: .,
.,
~
\t:
Ashland Hetron 700 (bisphenol-A fumarate)
82
100 100
82 71
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Atlac 382
100
82
70
49
100
Diphenyl Ether
~
;::l
66
100
V>
<E-
100 100
100 100
'1:l
Diphenyl Methane Diisocyanate Dipiperazine Sulfate
solution; all concentrations
Ashland Helron 700 (bisphenol-A fumarate)
Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
noiiecommiiiided lor use' .
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387
" :~::
Reichhold Atlac 711
100
Reichhold Atlac 382
100 100
Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711
100
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711
...
@
..
1'\, ..
"1::J
S' ~
Reagent
Ctl
~ Ctl
Dipropylene Glycol
;:s
... ... u:
0~
Reagent~ote
'
.~:.
I·,·
Cone• (%)
100
8 8
93 99 93 99 82
100 100
8 8
49 52
all concenlralions
" Dipropylene Glycol Dibenzoate Dispersant Divinylbenzene
Dodecyl Alcohol
nonanionic, blend
8 8 8
100 100 100 100 all concenlralions
· "
Dodecylbenzenesulfonic Acid
;
....
all concentralions
Dowtherm Drewsperse Drewsperse Drewsperse Drewsperse Dual8E EDTA Electisol Electrosol
heal transfer agenl
732 735 738 741
Emulsifiers Epichlorohydrin
Epoxy
oil & grease, alkanolamide type
Epoxy 828
"
" Erional NW Etchant Ethacrylic Acid Ethanolamine
en"
"0
;;;r CD ~
2-
100 100 100 100 100 100 38 5
·8 8 8
~.
~.""
.::--::.::,.,~
·w,·
;:--:"
.,";.;.
nofiecommend&d
,
8 8
8
99 93 99 60
,
8
99 93 99
8
38
8
lor use
Reichhold AUac 382 Reichhold AUac 4010; mixt. AUac 382/387 Reichhold AUac 711
.. "
8
,
~:
" Ashland Hetron 700 (bisphenol-A fumarate)
" " "
\
..
.
"
"
.<,
.' .
...
,.
".
.,.,'.
"
8
49
100 100 100
2
nol recommended for use
2
"
29 100 100 100 100 100 100
8 8
32 49
"
6 8
8 8 8 8
8
43 43 43 32 32 82
Reichhold AUac 382 Reichhold AUac 4010; mixt. AlIac 382/387 Reichhold AUac 711
":.
>:,.;
.
100
8
Owens Corn. Vibrin E-750 (bisphenol-A fumarale)
.,.
8 8
43 43 43
Reichhold AUac 382 Reichhold AUac 4010; mixt. AUac 382/387 Reichhold AUac 711 ., Owens Corn. Vibrin E·750 (bisphenol-A fumarale)
"
43 43 43
2 8 8
Reichhold AUac 382 Reichhold AlIac 4010; mixt. AUac 382/387 Reichhold Atlac 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
"
100 100 100
100 100 100
" " "
'.'
z·
Ashland Helron 700 (bisphenol·A fumarate) Reichhold AUac 382 Reichhold AlIac 4010; mixi. AUac 382/387 Reichhold AUac 711 Ashland Helron 700 (bisphenol-A fumarale)
",
Reichhold AUac 382 Reichhold Atlac 4010; mixt. AUac 382/387 Reichhold AUac 711
~ "., ..
....
.
>-
':
this is the preferred malerial.
..
"
.'·~~P9~",!Wl1P",\~',.'Wl~;. !Q.!"j"\!~;mj\1.~!\!• ~~P9~;;9"\1y "':;;::::,"'->"'" -'-·-'.;,'·':'·-i/::""···'--·
~
I .
:
Reichhold AUac 382 Reichhold AUac 4010; mixt. AUac 382/387 Reichhold AUac 711 Ashland Helron 700 (bisphenol-A fumarate)
" Owens Corn. Vibrin E-750 (bisphenol-A fumarale) Reichhold AlIac 382 Reichhold AUac 4010; mixt. AUac 382/387 Reichhold AUac 711 Ashland Helron 700 (bisphenol-A tumarale)
"
>'>
""U
'<
','
....,
» o
,-,-=.,:.
.~.
65 65 65 71
49 52 52 52 52 38 32 82
8 8 8
lresh; 50% ammonium hydroxide
··
.:~::
"
".\ -.:..
Owens Corn. Vibrin E-750 (bisphenol-A fumarale) Reichhold AUac 382 Reichhold AUac 4010; mixt. AUac 382/387 Reichhold AUac 711 Ashland Helron 700 (bisphenol-A fumarale)
.'
,.
/;
8 8
8
100
monoelhanolamine
~.
"
"
8 8
5 5 5
Elvase Embalming Fluid
,,
2
8 8 8
99
Material Note
>:.
2 ..
100 100 100 100
""""
Resistance ., . ;."'" Note
"
2
..
'
2
" "
OJ
POL Max. Rating !eIllP,J~c)
('C). ....., .......
" "
cEo
s:
.,
.. ....... ;,..: .......... ; ... ;...,....... , ......
ri'
' .Temp.
Chemical Resistance - Bisphenol A Polyester
Owens Corn. Vibrin E-750 (bisphenol·A lumarate)
01 CD
W
Chemical Resistance - Bisphenol A Polyester
OJ
(ii'
01
OJ
~
"'0
= ( I)
··c.·····
::J
-co<·
o
»
,Reagent
"'U
,.
(%)
Ether Ethyl Acetate
100
o
'<
Reagent Note
w/83% methylene chloride, 1% caustic
Cone.
Ethyl Alcohol
with 2.5% acetic acid
Ethyl Benzene
Ethyl Bromide
Ethyl Chloride
Ethyl Chlorohydrin Ethyl Ether
~
Ethyl Hexyl Acrylate (2-) Ethylene Chloride
ri'
VI
Ii?
VI
tEo
Ethylene Chloroformate
;:l
t""
0:...
...
I:l
tt::
Ethylene Chlorohydrin
24
2 6 , 2 • 2
nOlrecommende~f~L~~~ ..
2 2
.
6 2 2 2
expos. temp. is max. for intermiUent expos. only nol recommended for use
2 2 2 2
10 100 100 100
2 2 2 2
100 100 100
2
.,
..
60 60 60 60 52 60
8 8
49 49 49 43 43 43
8
,
.. lower surf. ·hard. can occur, drying can restore hard.
..
, 1
not recommended for use
Ashland Helron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
..
. " " "
.
.,
~
. .
"
I 66
..
"
Owens Corn. Vibrin E-750 (bisphenol-A fumarale) nol recommended for use
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixt. Allae 382/387 Reiehhold Allae 711
..
~:
,
49
2 2
" "
,.,
,'-
Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
not recommended, for u.se
" "
.
.:
....,
2
Ashland Hetron 700 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
i .~.
,
"
2
Reiehhotd Allae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711
"
.
2
2
u.
,:, 38 43
,
Ashland Helron 700 (bisphenol·A fumarale) Reiehhotd Allae 382 Reiehhold Allae 4010; mixt. AUae 382/387 Reiehhold Allae 711 Reiehhold AUae 382 Reiehhold AUae 4010; mixt. Allae 382/387 Reiehhold Allae 711
!
2 2 2
..8 .
Reiehhold Atlae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AUae 711
,
."
8 2
Owens Corn. Vibrin E·750 (bisphenol-A lumarale) Reiehhold Allae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Helron 700 (bisphenol·A fumarate)
.,
,
2 2
8
Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AUae 382/387 Reiehhold Allae 711
. ..
8 8
2
u
u·
8
100 100
Ashland Hetron 700 (bisphenol·A lumarate)
Reiehhold Allae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold Allae 711
100 100 100 100
100 100 100
..
u
8 8 8 8 8
100 100 100 100
;.;.;.,
2,
50 50 50 100 100 100
all concentrations ethylene dichloride
Material Note
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Helron 700 (bisphenol-A fumarale)
8 8
100 100 100 100
Resistance Note
:'&i#ostt&mpismiU'}j~i 'nlermillenlexpos.onty nOI recommended for use
10 10 10 10 12.5 50
100
@
Max. POL Rating ·rllmp,{l~l
29
29 100 100 100
'1:l
{'Ct,."
16 100 100 100 100
Ethyl Acrylate
P
Temp.
.,
..
..•••'..
' ,... ......
Ashland Helron 700 (bisphenol-A fumarale) Reiehhold AUae 382
@
"l:l
;:i ~
nen
15' en tE;:l
t""
Reagent
Reagent Note
Ethylene Chlorohydrin I Ethylene O~brom~de Ethylene Dichloride
0: .,
.,
>l
u:::
Ethylene Glycol
Cone. I"') 100
8
43
100 100 100 100 100 100
8
43
all concentrations
Ethylenediamine
aqueous
Ethy!enedlamlnetetraacetic Acid
Ethylhexyl Orthophosphorlc Acid (01-2-)
Ethylhexyl Phosphate (01-2-)
2 2
:. ~:.
8
104
8
93 99 93 99
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mix!. Atlac 382/387 Reichhold Atlac 711
104 38 38 38
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mix!. Atlac 382/387 Reichhold Atlac 711
Eucalyptus Oil
~
Q.
Ferric Acetate
no(riieoii\l'iie~diil1loiusii
Reichhold Atlac 382 Reichhold Atlac 4010; mix!. Atlac 382/387 Reichhold Atlac 711
:.~
2
8 2 2
38 100 100 100
8
29
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mix\. Atlac 382/387 Reichhold Atlac 711
nol recomme~ded for ~se
•
2
8
8 8 8 -8
8 8 8 8 8 8
8 8 8 8 8 ,,8
/8
j; .~.
32 43 43 43
100 100
,<;
,,8
Reichhold Atlac 382 Reichhold Allec 4010; mix\. Atlac 382/387 Reichhold Atlac 711
:t\· ~:
Ashland Hetron 700 (bisphenol-A fumarate)
~::~
82 82 82 82
82
Reichhold Atlec 382 Reichhold Atlac 4010; mix\. Atlac 382/387 Reichhold Atlac 711
,~
38 27
93 99
Reichhold Atlac 382 Reichhold Atlac 4010; mix\. Atlac 382/387 Reichhold Atlac 711
,;~;
, ..
Reichhold Atlac 382 Reichhold Atlac 4010; mix\. Atlac 382/387 Reichhold Atlac 711 ", ····.:7
Reichhold Atlac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Atlac 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
38
8
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mix\. Atlac 382/387 Reichhold Atlac 711
:~: "
99 93 99 99 93 99 60 60 60
99 93 99 93
all concentrations
all concentrations
""",'
2
100 100 100 100
100 100 100 100
coconut
en" "C (l)
2
8
8
saturated
OJ
;;r
100 100 100
100 100 100
EVA Exalt Fatty Acid Esters
Fatty Acids
8 8
100 100 100
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Atlac 4010; mix!. Atiac 382/387 Reichhold Atlac 711
. '." •.
2
100 100 100 100
20 20 20
Reichhold Atlac 4010; mix!. Atlac 382/387 Reichhold Atlac 711
....•.••. \k...
2
8 8
Ethylene Oxide
Material Note
2 · .nofreiiOmmenl1edJoiuse
8
Ethylene Glycol Butyl Ether
Resist~nce Note·;
POL I Max. Rating JeITlP. ('C)
r ,,: > I
'.'
Reichhold Atlac 382
»
-c o
-<
Chemical Resistance - Bisphenol A Polyester
U'1 00 U'1
Chemical Resistance - Bisphenol A Polyester
OJ
00·
0"1
CD (j)
"0 ;;;T
CO :::J
2-
»
R~agentNpte
-U
. >:::.
o
-<
Ferric Acetate
Cc;)Oc.
Max.
(%)
T~mPd;l;)
all concenlrations
8
8
Ferric Chloride
all concenlrations
saluraled all concentralions
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reichhold AIIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A fumarale)
" " " saturated
Ferrous Chloride
all concenlrations
" " saluraled with 1% hydrochloric acid
Ferrous Nitrate
22
all concentralions
"
saturated all concenlralions
Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 • Ashland Hetron 700 (bisphenol·A fumarale)
" " saluraled
Fertilizers
8·8-8 composition
Reichhold Allac 382 Reichhold AIIac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Reichhold Allac 382
" " URAN;44.3%NA4N03.35.4%CH4N20.20.3 %H20
Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
" "
@
Fish Oils Flue Gases IFluoboric Acid
and meal exhausl gas coal fired
Ashland Helron 700 (bisphenol·A fumarale)
all concenlralions
Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A lumarale)
~
l=l
(I) ..... r;. (I)
t::l (l) (I)
<E. ;:l
t-'
0: ..,
..,
l=l
It:
Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Reichhold Allac 382 Reichhold AIIac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarale)
" Ferrous Sulfate
Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711
Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
" " " Ferric Sulfate
toI° te
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reichhold Allac 382 Reichhold AIIac 4010; mixt. Atlac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarale)
saluraled
Ferric Nitrate
",aterial
salurated 10 10 10 10 15 15 15
Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Atlac 711
@
'1:l
I:i' ~
Re~gent
,
-',
;,-
Reagent Note
,~:,""
,.
0' C/)
~
C/)
t-'
Fluoride Salt
Cone. I")
Temp.
\r;:
I
'7 7 7 7
Fluosilicic Acid
Fluosulfonic Acid Fly Ash Formaldehyde
fumes
49 49 49
10 10 10 10
8
25
8
82 82 82 66 66 66 66 32
25 35
8
49
7 7 7 7 7 7
32
8 8
fumes, wet
66 82 82 82 43 43 43 32
7 7 7 8
slurry
all concentrations
8 8
Formamide Formic Acid
25-37 37-44
66
2
50
52
o
8
100
8
10 10 10 10
8 8 8
25
Jl
50 50 50 50 100
Freon 11 Bunker C
no. 1 and no. 2
OJ
en'
"0
~
(!)
Fungicide
phenate based
100 100 100 100 100 100 100 100
43
8
43
100
'.:;
2
8
43
8
43 43
8
8 8 8 8
71
99 93 99 52
8 8
~."
,(
:?
M;:.:
:.·:·:Y~ (':.'
..
::,:...
"::)~;.'.::~ .
',"
:.:\
synth. surl·. veil genarally usad surleeing me:! iaeommand~d };
" ~enar~liy usad
synth, surl :~a~1
synth.surl. ;;'eilg~~;;;'jIY
>:
Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I
'"
U~~d
Reiehhold Allae 382 Reiehhold AIIae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Ashland Helron 700 (bisphenol-A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate)
::-:':~:iY ~{ <.;:::
" surlaeing ~I r~'r1mmanded ~.. >.-,--"
Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Atlae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E·750 (bisphenol-A tumarate) Ashland Hetron 700 (bisphenol·A fumarate)
~:
,:":: nof reeommendedJor use
99 93 99 32
8 8
mallaeomlllanded
38
8
8
.',
Material Note
not r8Commendj,d lor use al"52 degrees'C
8
8
sul1ael~g
de.eompos~
66 66 66 66 66 32 43
Jl. Fuel Oils
Resistance Note
Max. 60 60 60
7 7
c;:
....p ....
POL
:~
fluoride salts & HCL, 30:10
::::!:\::::{::::;:::::::
RatlnTem' de g ..... ltJI
J:~)
25 25 25
Fluoboric Acid
15' ;:l
,t:~:
.~\:
.~~: {
Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Atlae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold AIIae 382 Reiehhold Allae 4010; miX!. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Atlae 382/387 Reiehhold Allae 71 I Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 71 I Ashland Hetron 700 (bisphenol-A fumarate)
::J
o
» "'0
o
-<
01
Chemical Resistance - Bisphenol A Polyester
CD
......
01
Chemical Resistance - Bisphenol A Polyester
OJ Ci;-
<Xl <Xl
-0
~
: ...•..
::::l
2-
,.
....
~
"'x
""0
o
-<
Re~ge'ilt Note"
:~--
"/
/.
-,','
. . :'~':";'"
... /.:' ... :': .
Furfural
Conc. ("I
Temp. .....PO.L (:CI ~p:~lng
saturated
Gases Gasohol
oxidizing
··
u
S'"
100 100 100 100
2 2 2
100
. •.• 8 8 8 8
100 100 100 100 100
Glycerin @
S ~
Glycerine Glycolic Acid
riC/)
tl
(1) C/)
to;:l
t""
0: ..,
..,p
<e::
Glycols
hydroxyaeetie aeid
··
,
: ;
.
\
,..
:~
reeom~'end.ed·lor '. ,;.
..
use
..,
·
. . ...
norre~orniiiilnded
8 8 8 8
8
......
;
,
....... ..
.,
49 49 49
100 100 100 100
S
8
93 99 93 99
100
8
71
"
35 35 35 35 70
8
60 60 60 60 38
:;.-;
B
8 8
8 8
~i,[:, · iii.
93 93 93
.
Reiehhold AIIae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A tumarate)
..
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn, Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
,,-
8
8
"
.
38 82 82 82 82
50 50 50
8
Reiehhold AIIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E-750 (bisphenol·A fumarate)
.............
,.~
49
8
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711
.. '
8 8
Ashland Helron 700 (bisphenol-A fumarate)
,.
49
8
.""
..,..
...
71 71 71 38 38
8
... ,
for use
· i·. :10.:'
~::
43 43 43 38
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711 Reiehhold AIIae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Relehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold AIIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
.....
....
..,
32
100
100 100 100
I
I
'~.
,.8 8 •8 ;
, I
38 38 38
8 50 50
71 71 71 43 43 43
Material Note
.'
;'d
not
8 8 8 8
100
Glutaraldehyde Glutaric Acid
1l
;;-
Resistarl6e 'Note
2 2 2 2
all concentrations
Glucose
. • •,
8 8 8
Gasoline
··
Max.
!l!I11P,('C)
s
5 5 5 20 20 20 50-100 100 100 100
Gallic Acid
Gelatin Gluconic Acid
,
;.:
:,.
c..;.
,.
Owens Corn, Vibrin E·750 (bisphenol-A fumarate)
"c.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711
. ,.
...
Owens Corn, Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
.
..
..
Ashland Hetron 700 (bisphenol·A fumarate)
,
,
"',.
..{
'
..
,.'.....".
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
@
'1:l
S" ~
o'en tl ~ en
.. .Reagent
Reage,nt Note
_.. _..
~
,'"
..
.
.~
":'.,,
.:',
Glyoxal
;:l
..,c::r ~ ..,
<s::
Glyoxylic Acid
w/ saturated 802
25 25
Golden-Glo Green Liquor
Gypsum
~
CD ~
i
:.
6
" "
8 8 8
99 93 99 82
gypsum slurry & H3P04. fluorine water
7 7 7
43 43 43
-C.
Heptane (n-)
100 100 100
8 8 8
66 66 66
Hexachlorocyclopentadiene
100 100 100 100
2 8 8 8
43 43 43
,
Hexachloropentadiene
100 100
8 8
43 43
7
Hexamethalinetetramine
65 65 65
8 8 8
43 43 43
28
8
27
100 100 100 100 100
8 8 8 8 8
71 49 43 43 43
8
49
Hydrazine Propellants Hydriodie Acid
6 8 8 •., 8
70 100 100 100
2 2
;
Reiehhold AUae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AlIae 711 ............... "noliecommendedIMuse
Ashland Hetron 700 (bisphenol·A lumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AUae 711
..
Reiehhold AUae 382 Reiehhold AUae 711 Reiehhold AUae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AUae 71 I
I).'
Ashland Hetron 700 (bisphenol-A lumarale)
" Owens Corn. Vlbrin E-750 (bisphenol·A lumarale) Reiehhold AUae 382 Reiehhold Atlae 4010; mixl. AUae 382/387 Reiehhold AUae 71 I
,
t
. '.' notrecomirieM8illo{use ,:.
2
;
.:
I
Ashland Helron 700 (bisphenol-A lumarate) Reiehhold AlIae 382 Reiehhold AUae 4010; mlxl. AUae 382/387 Reiehhold AUae 71 I
" " K:
0 65 65 65
"
, I
Ashland Hetron 700 (bisphenol-A tumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AUae 71 I
.,. 2
8
Ashland Hetron 700 (bisphenol·A lumarate)
limited service tife expected
-8 :-8
"
Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Ashland Hetron 700 (bisphenol·A fumarate)
'
82 66 82
"
Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711
nofieco.iiilTiendedl.o(use
? 40 40 40
veil only
" "
82 93
Ashland Hetron 700 (bisphenol-A lumarate)
Relehhold AlIae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AUae 71 I Ashland Hetron 700 (bisphenol·A lumarate)
sunaeing mal recommended
2
100 100 100 100
m? .,
'.'
8 8
Ashland
),
.
6 8
heptane-n normal
..
:
Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mix I. AUae 382/387 Reiehhold AUae 711
limited seNi,ee lile expected; Ihisis prelerred: ,lIlaterial " . )
pulp mill
.
Material Note .....,
100
Hydrazine
en'
,.
!l
Note
,
100 100
Hexylene Glycol Ammonium Chloride Hydraulic Fluids
-0
102
"
38
Hexamethylenetetramine Hexane
CD
i
82 43 43 43
.. 8 8 8
a
.. Halso 99 Heptane
l'cI
102
Reslst~'nee
POL Max. Ratlnglll!rtp;r C)
Temp.
35 40 40 40
~.
t
Cone. ("'I
:_.':_. _.:.,._:.
" .. ;.:.. :~. FJ •.
" ...
"
Owens Corn. Vibrin E-750 (bisphenoi-A lumarate)
:
,!
Reiehhold AUae 382 Reiehhold AUae 4010; mixl. AUae 382/387 Reiehhold AlIae 71 I
o
»
-u o
"<
01
Chemical Resistance - Bisphenol A Polyester
co co
Chemical Resistance - Bisphenol A Polyester
lD
(ii'
-a
~
",.
','
''<'',
o
...
.
.. .. .........
..... , .....
~
~
(]'I
co o . .. .. .. ···w ".'
··'··,W,W
""
.
.~
...
...
(
,
»
~~agent.
""0
'<
Reagent Note
~;.
-
o
~'.
.......
~-
"-.- '
...
i ".,,'~:.~
'"
~~,-
"'-
.
Hydrobromic Acid
Hydrochloric Hydrochloric Acid
8 8 8
8 2
wi 2.6·dichlor-4-nitroaniline
r;' CIl
32 32 36 36-37 37 37 37 37 37 37 37 37.5
" "
t-<
saturated hydrogen cyanide
8 8 2
110 99 99 93 99 66 99 93 99
8 8 8 8
8 8
8 8
8 2 8 8
8 8 8 8
77 66 66 60 54 54 54 71 43 43 43
8 8
8 8 8 8
8 8 8
8
,
Material Note
.
Ashland Hetron 700 (bisphenol·A fumarafe) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Relchhold Allac 711 Ashland Hefron 700 (bisphenol·A fumarate)
"
.,
"
•
Owens Corn. Vibrln E·750 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
I
~
notrl'.commended lor use
..
... ,.. .....im
Ashland Helron 700 (bisphenol·A lumarate)
" nol recommended for use synth. surf. veil generally used
"
, synth. surf. veil'generally used I
, ,
~:
'i
i'
99 93 99 93 71
Reichhold Allac 382 Reichhold Atlac 4010; mixt. Atlac 382/387 Reichhold Allac 711 Owens Corn. Vlbrin E·750 (bisphenol-A fumarate) Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vlbrin E·750 (bisphenol-A fumarate) Relchhold Atlac 382 Reichhold Allac 4010; mlxt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
not recommended lor use synth. surf. veil generally used
"
Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
"
Ashland Helron 700 (blsphenol·A lumarale) synth. surf. veil generally used
"
" "
" "
.'.
,
.'
1 >
limited servl~e life expected; this is preferred material
8
."., ...8,
.'
.-
;
6
8 10
,
"
66 82 66 66 66
8 8
all concentralions
to·
8
32
Resistance Note
...
60 60 60 66
~
...
8
8
P
!=l
8 8 8
2 2 2 8 10 10 10 10 10 10 15 18 18 18 20 20 20 25 25 25
"
It:
93 99 93 99 93 71 71 71 71 71
with 8% nitric acid
@ '\:l
...c;:
8
' 8
93
"
;:l
Max.
8
wi 2% sulluric acid, 5% acetic acid
Hydrocyanic Acid
POL
Rating Temp. ('C)
1.1
al boiling point
~
I'C)
wi 1.1 % amine
wilh 18% phosphoric acid wi 20% phenol. 70% waler
CIl
Temp.
('I.) 18 18 18 18 25 48 48 48 48 48 62
" "
Hydrochloric Acid
Cone.
i'
1 , ,
<
....... ,-.,..
:-:
:'
synlh, surf. veil generally used
,.
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 3821387 Reichhold Allac 711 Owens Corn. Vibrln E·750 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold AlIac 4010; mixt. Allac 382/387 Reichhold Atlac 711 Ashland Hetron 700 (bisphenol·A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
@
'U
~Reagent ~
~_
1_ ~. .'
Reagent Note
Hydrofluoric Acid
~
<E' ;:l
w/15% nitric acid
~ ~
wi 50% nitric acid
!:; tt::
wi 12% nitric acid
Hydrofluosilicic Acid
Hydrogen Hydrogen Chloride
gas, dry gas
vapor gas
Hydrogen Peroxide
~ Q..
7 7
1 4 5 5 10 15 20
7 88;o! 8 49 2 8
20 20 20 22 24 40
7 7 7 6
Hydrogen Sulfide
51.8 51.8
8
27
surlaclng mat
38 38 38
1
I
2
10 30 35 35 35 35
7 8 8 7 7 7
100
8
;
66 49 32 43 43 43
R8IchholdAllac711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Ashland Hetron 700 (bisphenol·A fumarate)
surlacing mal recommended .. .. limited service 'Jf~ expected nOI !.ecommended for use •
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
Reichhold AlIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Atlac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
l i
~
"
..
synth. surf: veif generaIlY"used surlacing mal recom"1ended • •
I
i
~. . . Mater~.~.I ..Note Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
66'syii\l($uii:velt'gei\~iailY'u~8a 66 surleclng mlii (8,ommendell' 66 .~........
8 . .7 7
reco.~mended •
2
10 10 10
It
Resistance Note
51.8,," not reComm.ended for use 49 ' n o t recommended for use' 38 synth. surl. vell'generally used 32 38
8
104
Ashland Helron 700 (bisphenol-A fumarate)
2 " ' n o l recommended for use' 99-100 100 100 100 100
2
99 82. 99 82
.7 7
99 93,
10 35 100 100 100
7 8 7 7
.7
99! 35, 82, 65 , 82
5
8
32
8 2
32
8 6
60
10 10
..
1•
8 8 8 8
". J .~
:; ..:;
~urlacing mat re~ommended'
'.
•....
"".'
• :":. synlh. surl. v.lI genehillyu~d surf.acing'mal recommende;s.." .•.".: ..•
;.< ·'L;' .•..
~,,/·.,·t::,,;r
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhotd Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Reichhotd Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhotd Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
hyd. perox:su~pil!!SI)l~~CiIPPJ~~;!11aterials·.
Ashland Hetron 700 (bisphenol·A fumarate)
hyd. pero}.suPPII;i~
Ashtand Hetron 700 (bisphenol·A fumarate)
),!! l"',~!,:~ ~': : : '~:1~:~1~ E: "
35 50
en"
IR~~~9 ITe~;~('c) I
1 1
~
OJ
-g.
I Ci~c'ljlj:§f"
steam concentrated gas
Hydrogen Fluoride
_.
all concentrations 93
mi;J;~prov,:;"~lel,al$
expos. lemp. is max. for.ii)Jermil!ent
eXjlos.~~fjif
Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
»
""U
~
01
Chemical Resistance - Bisphenol A Polyester
~
Chemical Resistance - Bisphenol A Polyester
OJ
en'
01
co I\)
'"0
~
CD
::::)
9-
»
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'<
Reagent Note
Reagent ,.....
,
Hydrogen Sulfide
.•...
...
~~'"
gas
" " " "
" Hydrosulfite
Cone.
Temp.
(%)
('C)
POL Max. Rating fa 'T"mp!u!;} ..............
5 5 5 100 100 100
8 8 8 8
8
aq. sol. w/5% ZnHS03+2.5% tripolyphosphate
8
"
8 8
" Hydroxyacetic Acid
35 70
Hydroxyethyl Carbamate Hydroxylammonium Sulfate Hydroxypropyl Carbamate Hypochlorous Acid
10 20
8 • 8 8 8 8
50 50 50
8 8 8
Incinerator Gases Insecticides Iodine
Cygon 2E Cygon 267
100 100
crystals
100 100 100 100 100
" vapor
" "
losprep 44 Irgasol DA Isoamyl Alcohol
@
Isobutyl Alcohol
~
~
~ V>
<E' ;:l
t'"'
.,p0: .,
u::
10 oz/gal 100 100 100 100 100
~
all concentrations
" Isocure 306 Isodecyl Alcohol
100 all concentrations
','
" " Isononyl Alcohol
100 100 100
,.
C";",
1,., I.
.,
;'.
.. "'. OKiomax:Siilbieiemp'iiiheilgerif
..
'.
Reichhold Allac 4010; mix!. Atlac 382/387 Reichhold At/ac 711 Ashland Hetron 700 (bisphenol·A tumarate)
..
52 60 52
" ~
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
" " O~
to max. $lable temp. lor reagenl
" "
Reichhold Allac 382 Reichhold At/ac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A tumarate)
00.
~.
.,
32 32
..
49 49 49
7 7 7
149 93 149
8 6
49
7 7 7 7
65 65 82 82 82
8 8
82 32
e'\\r 7 7 7
129 49 49 49
8 8 8
51.8 51.8 51.8
8
32
8 8 8
66 66 66
~
at
52 52 52
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AIIac 711 Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382
" "
..
60 38
'7
"
S'
n'V>
29
Material Note
I
,
8 8 8
J
Resistance Note
........
""i
8 8
100
Hypophosphorous Acid
177 93 177 99 93 99
I~
i
,
"
-
Reichhold Allac 382 Reichhold At/ac 4010; mix!. Allac 382/387 Reichhold At/ac 711
~
surfacing mat recommended
t:
Reichhold At/ac 382 Reichhotd Allac 4010; mix!. At/ac 382/387 Reichhold Allac 711
" • • • • • • • • • , • . -• • •
',"
"
,.>,
•••••••••-.
~
•
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
:'expOs.lemp. is max. tor interminent expos. only
"
surfacing mal recommended
Reichhold At/ac 382 Reichhold At/ac 711 Reichhold Allac 382 Reichhold At/ac 4010; mix!. At/ac 382/387 Reichhold At/ac 711
r
.."
i':'
,
~:: ~.
" "
Ashland Hetron 700 (bisphenol·A fumarate) .. this isth!pref!i(ed'!lal~ri~1
..............-:;.
.. ; ..
..•.
"
~
"
surfacing mat recommend~d
>:
~
".
\ .~.'
',.
Reichhold AIIac 382 Reichhold At/ac 4010; mix!. At/ac 382/387 Reichhold Allac 711
.,
'.'
f~'
Reichhold At/ac 382 Reichhold At/ac 4010; mix!. Allac 382/387 Reichhold At/ac 711
f
,"
. . . . ,-.
....
..
~:
,t:
Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold At/ac 4010; mix!. Allac 382/387 Reichhold Allac 711 Reichhold AIIac 382 Reichhold Allac 4010; mix!. At/ac 382/387 Reichhold AIIac 711
~
,.
'.'
[
~eagent
;:;:
;,
~
tl
••••••••••••••
Reagent Note , • • • • , •• , ••,• • • " , ••• , ••.•.. _ . "
..
_
v
_.'.
Isooctyl Adipate Isooctyl Alcohol
~ ~ te
Isoprep 33 Isopropyl Alcohol
Isopropyl Myristate Isopropyl Palmitate
POL
Lactic Acid
Reichhold Allac 711
8
65
" R e i c h h o l d Allac 382
1DO
8
38
1DO
8
65'
8,
74
8
43
8
43
10
8 8
43 32;;
3D
8
49
1DO
8
8"
32 99
".
8
93
'"
all concentrations
"
100
1
all concentrations
-g. (l)
g
99
8
99
8
93
\
.. ""'.......,
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol-A lumarate)
§.
Reichhold Atlac 382 Reichhold Allac 4010; mixt. Allac 382/387
t '
Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A lumarate)
-':
Owens Corn, Vibrin E-750 (bisphenol-A lumarate)
'i .'
, .,.
.
". ..
..,
Ashland Hetron 700 (bisphenol-A 'umarate) Reichhold Allac 382
,....
Reichhold Allac 4010; mixt. Allac 382/387 '.,
Reichhold AlIac 711
.......,.",
"."
Reichhold Allac 382
'"
Reichhold Allac 4010; mixt. Allac 382/387
8
99
Reichhold Allac 711
8
104
Ashland Hetron 700 (bisphenol,A lumarate)
8
38
8
51.8
8 8
51.8. 51.8"
8
52
8
52
,... ;,'"
l
,.,
Owens Corn. Vibrin E·750 (bisphenol-A tumarate)
.. ","''''.,
Reichhold AlIac 382 . ,
Reichhold AlIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A lumarate)
'.,',".' ... "."
.......'.... , .•.,.:'.'.•:.
8 8
.,
65" 43
1DO
8' 8
"
65 38
1DO
8
82
1DO
8
82
1DO
8
82
Reichhold Allac 711
100
8
32
Ashland Hetron 700 (bisphenol-A lumarale)
8 8
99 93
1DO
8 8
99 79
100
8
38
8
104
8
9 3 ,
8 8
99 1 93'"
8
99
8
27
100
Latex
.;
.8
10
1DO
OJ (ii'
82
25
all concentrations
Lasso EC
,.r;
1DO
all concentrations
jet aircraft luel
Material Note
",,,-,
82
Jet Aircraft Fuels
JP4- - - .. Kerosine
"
82
SOl/gal
Jojoba Oil
"..','
1 . 8 1D O d 8 100 8
1DO
Isopropyl Sulfate Itaconic Acid
Max.
Ra.tingr~mihlj91 '
1DO
~
~
Cone. .' Temp. .1."'.1.0. :.. (:£1
'J
',.,.:.0.
. V"
.,.,..•
eEl' ;:s
~T
._ _ .._ -
60
2
','
Reichhold Allac 382 Reichhold Allac 4010; mixt. AlIac 382/387 ""
ReichhoidAlIac711 Owens Corn, Vibrin E-750 (bisphenol-A lumarale)
.. ..... " ,
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
, I
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
•
'
.. ,
,
'
Reichhold Allac 711 Ashland Helron 700 (bisphenol-A fumarale)
,'.. ".:',..' '0<.',......
Owens Corn, Vibrin E·750 (bisphenol-A fumarale) Ashland Helron 700 (bisphenol-A fumarale)
t"
Owens Corn, Vibrin E·750 (bisphenol-A lumarale)
'''., :' .,,'
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387
:>~
,."it:': . ;,;""
Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarale)
\
I
".'
all concentrations "
8 8
65 "'1 6 5 ! ' "
" latex paint emulsion; all conc.
8 8
65 65
1 \'
"
.,>
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382
»
-c
~
(}l
Chemical Resistance - Bisphenol A Polyester
~
Chemical Resistance - Bisphenol A Polyester
OJ
(ii' "'C
01 CO
~
::::r
(l)
1.::\
:::::l
£.
»
Reagent
i ;'·· ::':, .
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Reagent Note
Cone. (%)
I Temp. .·1: Rating flDL ! Max. !I'!ffiP.IWt
Reslsta!ice NQte
(·C).· •
Material Note .... ..., ~
I
Latex
latex paint emulsion; all cone.
65 65 65 65 65 49 99 93 99
8
.ll latex rubber emulsion; all cone.
8
8 8 8
Lauric Acid
all concentrations
8
8
100
8 8 8
100 100 100 100
8 8 8 8
saturated
Lauryl Alcohol
Lauryl Mercaptan
all concentrations
93 49 82 71 82
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold AlIac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
65 65 65
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold AlIac 711
8
71
8. 8 8 8 8 8 8 8
99 93 99 93 99 93 99
Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
8
8
100
Lead Chloride
all concentrations
Lead Nitrate
all concentrations
saturated
Lead Sulfate Levulinic Acid
100 all concentrations
8
104
8
93 99 93 99 99 49 99
'8
100
@
'1:l
S" ~ (:;.
Linseed Oil
pH 3-7 slurry
50 50 100 100
all concentrations
8
8 8 8 8 8
8
(I)
8
t:l
100
(l) (I)
8
Lithium Bromide
8
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
104
8
8 8
Lignin Lignin Sulfate Lime Linoleic Acid
:;;
99 93 99
8 8
saturated
,~.".
Reichhold Allac 382 Reichhold Allac 4010; mixt. AlIac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
104
8
Lead Acetate
. ,,:..:
Reichhold AlIac 4010; mixt. Allac 382/387 Reichhold AlIac 711 Reichhold AlIac 382 Reichhold AlIac 4010; mixt. AlIac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
82
99 99 93 93 93 93
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrln E·750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
.:~:
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
8
82
;:s
8
t
8 8
99 93 99
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
8
82
Ashland Hetron 700 (bisphenol·A fumarate)
~.
all concentrations
.,
0-
.,P \l:
Lithium Carbonate
saturated
@ .'>~
'1:l
S' ~
n'V>
l?
Owens Corn. Vibrin E-750 (bisphenol·A fumarale) Reichhold Allac 382
10'
Reichhold AIIac 4010; mix!. Allac 382/387
V>
;J
Reichhold Allac 711
t""'
0: .,
.,~
\C:
Lithium Hydroxide Lithium Sulfate Magnesium Bicarbonate
0-45
Ashland Helron 700 (bisphenol-A fumarale)
20
Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
saluraled all concentralions Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AIIac 711
Magnesium Bisulfite
saturated
Ashland Helron 700 (bisphenol·A fumarale)
all concenlralions
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387
" "
Magnesium Carbonate
Reichhold Allac 711
saluraled
Ashland Helron 700 (bisphenol·A fumarale) Reichhold Allac 382
15 15
Reichhold AIIac 4010; mix!. Allac 382/387 Reichhold Allac 711
15
Magnesium Chloride
all concenlrations
Reichhold Allac 382 Reichhold AIIac 4010; mix!. AIIac 382/387
" "
Reichhold AIIac 711 Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
saluraled 100
Magnesium Hydroxide
all concentralions
Reichhold Allac 382
" "
Reichhold AIIac 4010; mixi. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarale)
salurated
Magnesium Nitrate Magnesium Silica Fluoride
100
Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
37.5
Reichhold Allac 382 Reichhold Allac 4010; mix!. AIIac 382/387
37.5 37.5
Magnesium Sulfate
Reichhold Allac 711
all concenlralions
Reichhold Allac 382 Reichhold Allac 4010; mix!. AIIac 382/387 Reichhold AIIac 711
" " saluraled with 5% acelic acid
Maleic Acid
Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A lumarale)
30 100
all con centralions
Reichhold Allac 382
" "
Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
salurated
Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
40
Maleic Anhydride Manganese Sulfate OJ
00' -0
=r
::::J
Q.
mollen
60
all concenlrations
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387
" " wilh 10% sulluric acid
90 90 90
Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mix!. AIIac 382/387 Reichhold Allac 711
» ""tJ
o
-<
Chemical Resistance - Bisphenol A Polyester
01 CO 01
0'1
Chemical Resistance - Bisphenol A Polyester
OJ
00'
CD
(j)
"'C
~
<0 ::::l
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»
;Reagent
Reagent Note
"'U
o
Melamine Resins Mercuric Chloride
'<
Conc. I")
Temp. ('C!
aqueous
I
8 8 8
saturated
Mercurous Chloride
100
Metex 5483 Methanamide Methyl Alcohol
82 100 methanol
100
Methyl Bromide
gas
8
8
99 93 99 99 93 99
8
104
6 8
38
Methyl Carbamate Methyl Cellosolve Methyl Ethyl Ketone
100 100 100 100 100 100 100 100 100 100
~
r;'
't"l to· '"
Methyl Styrene
;:l
~ c:r
., !=l .,
It:
Methyl·2·Pyrrolidone Methylamine Methyldiethanolamine Methylene Bisthiocyanate
n-methyl-2·pyrrolidone
polyehlorophenol blend
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
l
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
'exposi:iem~;iS max.iolirit"minerit e:qlOs. only! Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate) :;','.
, lower surt hard. ean occur. drying ean festore hard.' ,
Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
not recommended for use
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
, 49
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) not rel;ilmmended lor use
2 27
100 100
100 40 100
..
Ashland Hetron 700 (bisphenol-A fumarale) Reiehhold Altae 382 Reiehhold Allae 4010; mixt. Altae 382/387 Reiehhold Allae 711 lor interm~leht expos_ only, Owens Corn. Vibrin E-750 (bisphenol-A fumarate) '
'J
2
38
:~imA'~fMni[fu;u.
6 6
~.
~
,,,v.=C=",,,,'7"'==~
2 2
not reeommended lor use
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Altae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold AIIae 711
2 2
24 38
N "::..
~ 2 6
.'expos:
2
lemp, is max,for ..' , ",.
i~;ermiU~nt.exiio$.only. , .. :.;.:
,
,'
nol fecommen(led for use
':"/u':
2
.
2 2
"'a:
2 2 8 8
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
expos. lemp. is max. lor inl,ermiltent expos_ only
2 2
100 100 100 100
(\)
.,
2 2 2
all concentrations
MMA
!=l
6 2
8
@
~
38 43 27 43 38
2 2
80 100
Methyl Isobutyl Ketone
Methyl Methacrylate
8 8 8
10 10 10
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
104
8
38
Owens Corn. Vibrin E·750 (bisphenol-A lumarate)
8
8
10 100 100 100 100
38
8 8
8
Material Note
104
99 93 99
8 8 8
Mercury
Resistance Note
POL Max. Rating Temp. ('C)
82 52
:'.'
'
,.:. ;.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarale) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
Ashland Hetron 700 (bisphenol·A fumarate)
'.,
@ ~
po ~
. Reagent Note
Reagent
n' IJ)
f? IJ)
to· ;:l
t
.... Methylene Methylene Methylene Methylene
Blue Blue Salts Bromide Chloride
.,~~
."....
,~
""'·
...m
~~'7"'"
••••
.-... ;......'..,;.;. ",:::,:-:.>.,•.
-::..:~
.. :
j%I ..
::
100 100 100 100 100
tt::
Methylhydrazine Methylol Acrylamide Methylstyrene (Ct-)
2 2 2
48
8
100 100 100
2 2 2 8 8
II 8 8
100 100 100 100 100
" "
100 100 100 100
2 2 2 2
Naphtha OJ
w·
-0'
::r
co
:::J
49
. >' .• '
Ashland Hetron 700 (bisphenot·A lumarate) Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reichhold Allae 711
.." ... . . >..
..
~
, 71 71 71 27 32
,•••••/l'.
...... :\
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AlIae 711
:....:; '':;
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
nOI recommended lor use:··· .
:' ..
..
Reichhold Allac 382 Reiehhold AlIae 4010; mix!. Allae 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A fumarate)
, ,
,.
"
" Reiehhold Allae 382 Reichhold Allae 4010; mix!. AlIac 382/387 Reichhold Allac 711
..
.-
..";.;::.,:..:......
! /
Reichhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reichhold AlIae 711
;
.......
Reichhold AlIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
;
, !
reeOmff)e~ded ~"::' .,
not
lor use'
Reichhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
~
"
B 8 8
99 93 99
8 8 8
99 93 99
" "
8 8 8
99 93 99
heavy aromatic
8
" "
8 8 8
43 43 43
,
100 100 100
" "
(~eOl1lm';;dlld tor~;il,
32
66 66 66
Morpholine
all concentrations
nof
·····-_··:::··u
43 43 43
8 8 8
Myristic Acid
.~
..
.
"
B 8 8 25 25 25
Mustard
"
,
8 8
Molybdic Acid
100 100 100
Owens Corn. Vibrin E-750 (bisphenol·A fumarate)
,
......
104 99 93 99
8 '8
and invert molasses
Motor Oils
.:~
i
2
wagon cleaner; acid
Molasses
82
2
100 100 100
Material Note
10
2
" " and milk products
8 8 2
Resistance Note
2 2
milk and milk products; all cone.
Mineral Oils
POL Max. Rating .T~mpl.lt!;J
Temp. ......... r~) ..
with sodium nitrate pH 2-5.5
..,CT ..,$:I
Milk
Cone.
•..
,
...
,.
Reiehhold Allae 382 Reiehhold Allac 4010; mix!. Allac 382/387 Reiehhold Allae 711
,
.... :...
Reichhold Allae 382 Reichhold Allae 4010; mix!. Allac 382/387 Reichhold Allae 711
...
..
,
66
.;:
8
38
f
,.•.... 8.
66
.
.}.... {\... }(
.......
Reiehhold Allac 382 Reichhold Allae 4010; mix!. Atlae 382/387 Reiehhold Allae 711
:.
.....
, :~:
.
"':
Reichhold Allac 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Allae 382
o
::x> "1J
o
-<
Ul
Chemical Resistance - Bisphenol A Polyester
co --oJ
Chemical Resistance - Bisphenol A Polyester
OJ
en'
01
co
00
"0
=r
co
:::l
Q.
» ""U
-<
Reagent Note
Reagent
o
,-
..
-.
Cone.
Temp.
(%)
('C)
POL Max. .• Rating T!ll!lp,l'c:)
100 100
8 8
66 66
Reiehhold Allae 4010; mixt. AlIae 382/387 Reiehhold Allae 711
Naphthalene
100 100
8 8
82 99
Ashland Hetron 700 (bisphenol-A fumarale) Owens Corn. Vibrin E-750 (bisphenol·A fumarate)
100
8
99
"
8 8 8 8
99 93 99 104 99
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AlIae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A tumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) •. Owens Corn. Vibrin E,750 (bisphenol-A fumarate)
all eoneenlrations
" " saturated
8
100
Nickel Nitrate
all concentrations
8
«
100
8 8 8 8
99 93 99 104 99
100
8 8 8 8 8
99 93 99 104 99
8 8 8
43 43 43
" saturated
Nickel Sulfate
all concentrations
" " saturated
Nicotinic Acid
Niacin; all concentrations «
"
Nitrating Acid Nitric Nitric Acid
spent strong red fuming
; 100
24
fumes «
2 2 2 5 5 5 5 5
Nitric Acid
with 2% hydrochloric acid
"
@
«
~
with 5% hydrofluoric acid
~
"
C/)
" w/10% hydrochloric acid
tl ~ C/)
15' ;:l
with 3% chromic acid
t"-
" "
o:., >:l .,
It:
8 8 8 8 10 10 10 15 15 15 15
«
~
«
:.~
8 8
. 8 ~
8 8
8 8
>
(
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
;
I
2
8
::',
l
«
8 8 8
?,
Reiehhold Allae 382 Reichhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashfand Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
l
not recommended for use
8 8
8 8
,
2 2 8 8 8' 8,
«
ri'
MaterialNote
Naphtha
Naphthenic Acids Nickel Chloride
>:l
Resistance Note
...
8. 8 8 2 2 2 8
82 82 82 99 93 99 71 66 79 79 79 60 60 60 49 49 49 93 66 60
66
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AlIae 382/387 Reiehhold AlIae 711 Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarale) Owens Corn. Vibrin E-750 (bisphenol·A tumarate) Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711
.'.
,';',
.
~::
I
.;'
,',
I,
, ~.
!
,
• t
",
I.
·•,
I I
.,.
Ashland Hetron 700 (bisphenol·A fumarate)
f
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold AlIae 711 Ashland Hetron 700 (bisphenol-A fumarate)
.,
.
,
~"
synth. s·url. veil generally used .
•
"
,".;.
«
not recommended .Ior use «
.'
c'
...
~.:
.
,-, .
:~
'"
Owens Corn. Vibrin E·750 (bisphenol-A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Atlae 382
@
I
"1:1
po ~ ;:;. V>
1?
'Reagent
Reagent Note
Conc. (llo]'
Nitric Acid
V>
15'
wi 4% hydrolluoric acid
;:l
~
0.... P ....
<.c::
w/5% hydrolluoric acid
Nitroaniline Nitrobenzene
Nitrogen Oxide Nitrogen Tetroxide Nonyl Phenol Octanoic Acid
Octylamine Oils Oleic Acid
15 15 15 20 25
35 40 50 50 50 50 50 100
Temp.;~DL l'C)
'8 i
88
....~.....
tertiary
s il
not recommended lor use
2 8 8 49
43 43 43
8 2
no! recomme~ded .Ior US8. _.' N.···
:'2."
2 2'
.. ~ ?:i:"
Reichhold Atlac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
2
"
100 100 100
8 8
43 71 82 71 82 43 43 43
8.
8 8 :8
8
:~r.
fuming sulfuric
Ashland Hetron 700 (bisphenol·A fumarafe)
·2····:·
'.8
Oleum
..
". ::--i·2,i •. /'
8 ·8 '2
Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. AUac 382/387 Reichhold Allac 711
.';.;"
.:- ..
99 93 99 93 99 93 99
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
;.
Reichhold Allac 382 Reichhold AUac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A lumarale) Owens Corn. Vibrin E-750 (bisphenol·A fumarate) not recommende'! lor use,,:;·.
...
2..•.•
"
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E-750 (bisphenol·A lumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
'
/ .2"
luming sulfuric acid
2
2 Oleum Sulfates (a-) ~.
Olive Oil OJ
00' 00
:::r-
100 100 100 100
::.
49 49 49
.;<:;~~
32
93 93 93
Owens Corn. Vibrin E-750 (bisphenol·A lumarate) Ashland Hetron 700 (bisphenol·A lumarate) Reichhold Atlac 382 Reichhold AUac 4010; mix!. Allac 382/387 Reichhold AUac 711
'. '2
8 '8
100 100
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
2
100 100 100
all concentralions
Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A tumarate) Ashland Hetron 700 (bisphenol·A lumarate)
2
·····8
sour crude, wyoming sweet crude
Material tioie
52 49 32
100 saturated caprylic acid
ResistariceNote
noi recommended lor use.
s··
104 100 100 100
Max.
temp: ('C) 66 66
"8
100 100 100 100 wi methanol tumes
. F\i1ting
.);
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol·A lumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. AUac 382/387 Reichhold Allac 711
eD ::3
o
}>
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o
-<
01
Chemical Resistance - Bisphenol A Polyester
<0 <0
en o
Chemical Resistance - Bisphenol A Polyester
CD
en-
o
"0
;;;T
CD
:::J
Q.
»
Reagent
Reagent Note
""U
o
-<
Orange Oil Oxalic Acid
Cone.
Temp.
("}
I'C)
all concentrations saturated
Paraffin Parathion Peanut Oil Pentachlorophenol Pentasodium Triphosphate
Perchloroethylene
perchloroethylene
Phenol
all concentrations carbolic acid
100 100 100 100 98.5
8
99 99 93 99 93 38
8
49
6 10 10 10
27
10 25
27 27
100 100 100 100 100 100 100 100 100
@
'tl
P carbolic acid
~
<E;:l
t""
0: .,
.,I=l
It:
88 88 88 100
C1l
Phenol Resins
phenol formaldehyde resin; all cone.
8
8 8
Reiehhold AIIae 382 Reichhold AUac 4010; mixt. AUae 382/387 Reiehhold AUae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn, Vibrin E-750 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold AUac 4010; mlxt. AUae 382/387 Reiehhold AUae 711
.
,~
Reichhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reichhold AUae 711 Ashland Hetron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Reiehhold AUae 382 Reiehhold AIIae 4010; mixt. Atiae 382/387 Reiehhold AUae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
'expos. lemp_ is
max. lor intelmit1ent ~~pos. only'
99 93 99
Reichhold AUae 382 Reichhold AUac 4010; mixt. AUae 382/387 Reichhold AUae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
6 6
8
II 8. 2 27 49
Material Note
Resistance Note
104
6
6 2
8 '8"
8 2
5 5
5
~
8
8 8 8 8 8 8
10 10 10 10
n'C1l
8
wax
Perclene
99 99 93 99 93 93 93
8
saturated
Perelene
104
8
8 8
100 100 100
Perchloric Acid
8 8
100 100 100
Palmitic Acid
"8
93 93 93
8 8
100 100 100
Palm Oil
I
POL Max. . Rating Temp. ('C)
8 8 8 2 2 2 ',8' . 2' 2 '~
.;~'
norr~~~ended ,o(l:$e..<
'expos. temp: maio IJ;~iryiermiiteil\'~X~D~: ~nly i· . 'not re~oni;ri;nd8dI~i~se~\'
Is
Reiehhold AUae 382 Reiehhold AIIae 4010; mixt. AUae 382/387 Reiehhold AUae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenof-A fumarate) , Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reichhold AUae 4010; mixt. AIIae 382/387 Reichhold AUae 711 Owens Corn. Vibrin E-7S0 (bisphenol-A fumarate) Reichhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711 Reichhold AUae 382 Reichhold AUae 4010; mixt. AUae 382/387 Reichhold AUae 711 Ashland Helron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reichhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reichhold AUae 382 Reiehhold AUae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
@
'I:l
S" ~
Reagent
Reagent Note
en tl en
I Conc_ (")
ri'
Phosphoric Acid
vapor and condensate
I
Temp. ('C)
I
I
POL Max. Rating Temp. ('~) 99
8
(1)
82
<5'
20 80 80 80
8 8 8
8
99 99 93 99 93 99
85
8
104
70
8
82
;:l
t
., $:I .,
0-
tr::
Phosphorous Acid Phosphorous Trichloride
w/1-2% hydrochloric acid
Phthalic Anhydride
Pickling Solutions Picric Acid
Pine Oil
.;:
Reiehhold AUae 382 Reiehhold AUac 4010; mixt. AUae 382/387 Reiehhold AUae 711 Ashland Hetron 700 (bisphenol-A fumarate)
100 100
all concentrations
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarete) Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711
100 100 100 100
Ashland Hetron 700 (bisphenol-A fumarete) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold AUae 382 Reichhold AUae 4010; mixt. AUae 382/387 Reichhold Atlae 711
gold; sulfuric
25
Ashland Hetron 700 (bisphenol-A fumarate)
alcoholic
10 10 10 10
Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711
100 100 100
Reiehhold AUae 382 Reichhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711 Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387 Reiehhold AUae 711
saturated
disinfectant
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold AUae 382 Reichhold AUae 4010; mixt. AUae 382/387 Reichhold AUae 711 brass
OJ
=s-
Ashland Hetron 700 (bisphenol-A fumarate)
100 100 100 100
(ij-
-c
Reichhold AUae 382 Reiehhold Atlae 4010; mixt. AUac 382/387 Reiehhold AUae 711
Reiehhold AUac 382 Reichhold AUae 4010; mixt. Atlae 382/387 Reichhold AUae 711
Piperazine Hydrochloride
Plating Solutions
Material Note Reichhold AUac 382 Reichhold AUac 4010; mixt. AUae 382/387 Reichhold AUae 711 Owens Corn. Vibrin E-750 (bisphenol-A lumarate)
noCiiieommeiided liir-use
Phosphorus Oxychloride Phosphorus Trichloride Phossy Water Phthalic Acid
Resistance Note
cadmium cyanide
:::J
o
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixt. Atlac 382/387 Reiehhold AUae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AUae 382 Reiehhold AUae 4010; mixt. AUae 382/387
» "U
o
-<
0>
Chemical Resistance - Bisphenol A Polyester
o ......
Chemical Resistance - Bisphenol A Polyester
OJ
en' "0
0>
o N
=r
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o
»
,Reagel)t
""U
Reagent Note.
'.
o
"<
Plating Solutions
Iconc'l (%1
Temp. {'CI
IRating POL I' Max. I Temp. ('CI
cadmium cyanide
8
chrome
2
Reiehhold Allae 711 not recommended lor use
82 99
8 8
93 99
I
Reiehhold Allae 4010; mix\. Atlae 382/387 Reiehhold Allae 711
gold plating gold; pH 4.4 iron plating
8 8' 8
93 52 82
~
Ashland Hetron 700 (bisphenol·A fumarate)
lead
8 8 8 8 8
Reiehhold Allae 382 Reiehhold Allae 4010; mix!, Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarale)
,,'
99 I 93. 99' 93 I 82
8
.'
99
nickel
" A s h l a n d Hetron 700 (bisphenol·A fumarale)
8 8' nickel plate nickel plating
S"
<J>
.....
ri' <J>
'·8 8
63 93
8
Ashland Hetron 700 (blsphenol·A fumarate)
·C.k·.
."
silver
Reiehhold Allae 4010; mix\. Allae 382/387 Reiehhold AIIae 711 Reiehhold Allae 382
8 8
93 9 9 , ..
Reiehhold AIIae 4010; mix\. AIIae 382/387 Reiehhold AIIae 711
8 8 .7 7 7
93 l 93 I. 99 93 99;
zinc f1uoborate
7 7
99 93
7
99
pH 12
100
40
:: ~ 100
adhesive; all concentrations
"""
Ashland Hetron 700 (bisphenol·A fumarate)
sUrfaClng~al[eC6';;mended ~:" ·c. ,,:., "
~
82
38
.., :.,..
sy~th, slI'rl:;'!ilgeneriilly 9Sed Reiehhold AIIae 382 Reiehhold Atlae 4010; mix\. Allae 382/387 Reiehhold Allae 711
I ' ". ,., <::!
8
chrome plating surfactant
Reiehhold AIIae 382
i
zinc cyanide bath
Polyvinyl Alcohol Polyvinyl Acetate
..,
Reiehhold Allae 382 Reiehhold Allae 4010; mix\. Allae 382/387 Relehhold Allae 711
82 82 9 9 '
;:l
p
:.
8 8 8
~ <J>
tt:
I
93 82
tE'
t""
synth. surL:"ell generally. used .'. I..(·: ., .,,'. , .
8
Polyphosphoric Acid
0: ..,
Reiehhold Allae 382
93 99,''.
~
Pluronic 25R·2 Plus 5 Polyacrylamide
,
platinum plating solution
silver plating tin f1uoborate
'1::l
Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
8
i'
lead plating, acid lead plating, alkaline
@
Reiehhold Allae 382
.• •
2 2 8
gold
Plating Solutions
Material Note
99
2 2 chrome bath chrome, hard copper cyanide bath
I.
Resistance Note
.' .
'.:.
l
Ashland Hetron 700 (bisphenol·A lumarate)
l
SUrfaein~'matrecommended
Reiehhold Allae 382 Reiehhold Allae 4010; mix!, Allae 382/387
.... '~'..
1
.:~.:
"."
. ' . , .1\()11,eo.'!1n;~~e!t!or.use." ... " ,:." ....•,., .....:•.•.;" ;:: .... ".
2 8
43
8
38
:
:~:: ·,,;;;.~;i\:.;i-l',
<,,:....
,.
....
',," """,.
, ." .'
Ashland Hetron 700 (bisphenol·A fumarate)
': . ,
,
~j; ~; i'" H ;ii':fl;;:;,'1;i::~;i~~1~:;ll';l~~~;~~;;;i~~:~;>, :; ~:. 'U!
':'.; '-8'
,':; ..~'
27{
49
Reiehhold AIIae 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn, Vibrin E·750 (bisphenol·A fumarate)
·i':\,/S@@:@F#":'::;:'W:>: '\:;
~~ .:.:>: ~::t~;~~~~:::;@ff~~~[~ i~~f:~:%~Wt+im;i:~~ :~~;)~y
.
Ow::~I~:~n~~ir~~n7~:~~is(:~S:nho~~:~·:~~::;;te) Reiehhold
~t~~;:~~:~:~:x:,:~t;ae
38V387
Ashland Helron 700 (bisphenol·A fumarate)
Reichhold Atlac 382 Reiehhold Allae 4010; mix!. Allae 38V387
@
'p"o
.:;....
Reagent Note
~
r;' C1>
f?
. ··· ..···· ......· ..:···1·
Polyvinyl Acetate
adhesive; all concentrations emulsion emulsions; all concentrations
Polyvinyl Alcohol
all concentrations
Polyvinyl Chloride
latex with plasticizer
C1>
<E'
Icon~'1 T~rnP'1
....W~E
;:l
t
., .,>l
0-
It::
Potassium Alum Potassium Aluminum Sulfate
all concentrations
saturated
Potassium Amyl Xanthate Potassium Bicarbonate
5 5 5 saturated 10 10 10 10 50 50 50
Potassium Bromide
all concentrations
saturated 10 10 10 10 10 25 all concentrations
OJ
Cjj" "0 ::::T (1)
:=J
o
Potassium Cyanide Potassium Dichromate
8 '8 .8 8 8 8 8 8 8 8 8 8 8 8 8 8 .• 8 8 8 8 8 8 8 8 8 8 8
8 8 8 8 8
Resistance Note.
40 all concentrations
8 8 8 8 8 8 8
8 8 8 8 8 8 8' ';;8 8 8
Materia' Note
49 66 66 66 66
Reichhold Atlac 711 Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
49 65 65 65
Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
49 49 49
Reichhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
104
Ashland Hetron 700 (bisphenol-A fumarate)
99 93 99 82
Reiehhold Allae 382 Reiehhold AUae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
66 66 66
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
71 71 71 71 71 60 60 60
Ashland Hetron 700 (bisphenol·A fumarate)
99 99 93 99
Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reichhold AUae 4010; mixt. Allae 382/387 Reiehhold Allae 711
-8--~
Potassium Carbonate
Potassium Chloride
I.
POL Max.] ..~t$t) Rating TlilffiPlllq!
43 43 32 82 71 66 66 66 66
Reichhold Allac 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AUae 382/387 Reiehhold AUae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
104 99 99 93 99 71
Owens Corn, Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
93 99
Ashland Helron 700 (bisphenol-A fumarate) Reiehhold Allae 382
-----
Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
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Chemical Resistance - Bisphenol A Polyester
C>
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Chemical Resistance - Bisphenol A Polyester
CD
w-
C)
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>
Reagent Note
jReagent ;
""U
..
o
-<
Potassium Dichromate Potassium Ferricyanide
Potassium Ferrocyanide
..
Cone.
Temp.
.(%\
.rei
all concentrations
6
..
.. ~ .
.
8
.. ..
6 B
Potassium Iodide Potassium Nitrate
..
6 6 6
99 93 99 104
B
66
6 6
49 66 66 66 66 66 43 43 43 32
5 10 10 10 10 25 25 25 25 45 50 all concentrations
..
. . .
"tl
Ei ~
8 8
~
CIl
<5' ;J
I: ~
..,>l
\t:
Potassium Sulfate
B
8 8 8
.. .. .. .. .. .. ..
Potassium Pyrophosphate
8
8 8 8 B 60 60 60 100
all concentrations
.. ..
.. ..
2 8 8 8 8
...• 8••.
.. ..
n'CIl
93
8
. .
@
B B B
B
.
Potassium Persulfate
8 8 8 8 8
B
..
Potassium Peroxymonosulfate Oxone
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Relchhold Allac 711 Ashland Hetron 700 (bisphenol·A fumarate)
6
.. Potassium Permanganate
99 93 99 104
B
..
8 8
8 8 8 8 8 B
8
Material Note
':
Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
saturated
..
Resistance Note
93 99
all concentrations
saturated
Potassium Fluoride Potassium Hydroxide
POL Max. Rating T.9mp•.I~~1
•
, ,
;
,
..
synlh. surt. veil generally used
Owens Corn. Vibrin E-750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AlIac 711 Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold At/ac 711 Ashland Hetron 700 (bisphenol-A fumarate)
,
..
....•........ notr8comme~dedforus~ 65 65 65
Reichhold At/ac 382 Reichhold AlIac 4010; mix!. Allac 382/387 Reichhold At/ac 711
,
104 93 99 93 99
Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold At/ac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 ..
93 99 93 99 38 36 36 93 99 93 99 65 65 65 36 104 93 99 93 99
Reichhold Allac 382 Reichhold AlIac 4010; mix!. Allac 382/387 Reichhold AlIac 711 Ashland Hetron 700 (bisphenol·A fumarate)
. , ,
."
.,
.•
............ ,...
","
Ashland Hetron 700 (bisphenoi-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold At/ac 711 Reichhold Allac 382 Reichhold At/ac 4010; mix\. At/ac 382/387 Reichhold AlIac 711
.-
--.
I
.,. ':-.
.,
I
i
"
Reichhold Allac 382 Reichhold Allac 4010; mix!. Atlac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
, .,~
.... :.
..-.-.-.,
..
,
,~:
".}',
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold At/ac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold At/ac 711
,.
,
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix\. AlIac 382/387 Reichhold Atlac 711
......
@
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S"
Reagent
c:;.
...........
'~"
Preptone
;:s t""'
Propane Propionic Acid
~
'" lEi'
.,&I=l .,
«.'-
Reagent Note ".
~
-.. ,
.
.....
"
........... ..,.. ~
Propylene Glycol
Pulp Pyranol Pyridine
Rayon Coagulating Bath Rayon Spin Bath RJ·4 Fuel Rust Stripper
.. 1%)
liquid
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A fumarale)
99 93 99
8 8 8 8 8
93 99 93 99 93
8 8 8
93 82 93
100
8
49
100 100 100 100 100
2
100
Oakite
·
:::l
"
..•
Ashland Helron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E·750 (blsphenol·A fumarale)
, ,. j
,
Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711
.
Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
i 'nofiecomiiiiindeillorusii
Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
·.'
2 2
•
2
"
8 8 8
60 60 60
8 R
60 27
8 8 8
82 65 82
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
·
Ashland Helron 700 (bisphenol·A fumarale)
" Reichhold Atlac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhoid Allac 711
:,:
49
8 8 8 8
66 66 66 66
ReichhoJd Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol·A fumarale)
30 30 30
8 8 8
99 93 99
Reichhold AIIac 382 Reichhold Allac 4010; mix I. Allac 382/387 Reichhold Allac 711
100
8 8 8 8
99 93 99 82
I
49 82
i'
Sea Water
all concentrations
Reichhold Allac 382 Reichhold Allac 40tO; mixt. Allac 382/387 Reichhold Allac 711
8 all concentrations
c;;'
,
2
. 100
OJ
not.recommeJlded for use
8 8 8
··
•
2
49
rayon spin bath
Salt Brine
Selenious Acid
8 8
chlorlnaled
Iransformer fluid
Reichhold Allac 382 Reichhold AlIac 4010; mixt. Allac 382/387 Reichhold Allac 711
7
·
··
43 43 43 27 93 82 71 82
all concenlralions
·· ·· ·
Material Note
8
·
:::r
8 8 8
Resistance Note
8 8 8
saluraled
CD
POL Max. .Rating Temp. ('C)
1 25 50 50 50 80
"
"'0
('C) .....•
100
"
Safflower Oil Salicylic Acid
Temp.
100 100 100
u:
Propyl Palmitate (i·)
Conc.
<
....
~.
8 8
, ';~
"
, I
,,<' ';"
.:
Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
Reichhold AIIac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold AIIac 711 Ashland Hetron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol·A tumarale) Reichhold Allac 382
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Chemical Resistance - Bisphenol A Polyester
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Reagent N?te ...........~ -.
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Selenious Acid
,
Temp.
POL
(%)
('C)
Rating.
all concentrations
Shortening Silver Cyanide
100
8 8
32 32 29 32 32
100
8 8 8 8
all concentrations
"
Silver Nitrate
" " "
" " "
Slimetrol Slimicide Soaps Sodium Acetate
organotin amine blend thiocyanate polyehlorophenol blend
100 100
solution
all concentrations
" " 100
Sodium Alkyl Arylsulfonates
all concentrations
Sodium Aluminate
" " " " "
Sodium Benzoate
all concentrations
saturated
Sodium Bicarbonate @
S'
with 20% sodium carbonate
n°C1l
1?
" "
Sodium Bisulfate
"
,
to'
"
8
;:l
"
8
t""
"
8
.,
93 99 93 99
" " " "
..;
l
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
?
:",
''"
...
~'
..... ············"e
., .
j
,,
••
Reiehhold Allae 382 Reiehhold AlIae 4010; mix!. Allae 382/387 Reiehhold Allae 711
......
,
1
p
;
1
:::::::.,/':
.,:
>.
i"C.,);
,,'
Ashland Hetron 700 (bisphenol-A fumarate) .,; Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Atiae 4010; mix!. Allae 382/387 Reiehhold AlIae 711
~~
~::
,.
~.:,.
Reiehhold Allae 382 Reichhold Allac 4010; mix!. AlIae 382/387 Reichhold Allae 711
." ......
,
'.~
..
1
Ashland Hetron 700 (bisphenol·A fumarate)
, ', ....
""C"
~
"', , ...
» :~
.
~:"
..
;.
~
:;
"
,-,.,~
~ ' ~ .Ii'''': .. " .··'·..\ , . L " . ,.. {·"'O;;:·;...;
.
I,....... .' •••••••..,••..
'\"
82 82 82 82 82 82 71 82 80 80 80
Ashland Hetron 700 (bisphenol-A fumarate)
"
99 93 99
i' ;';
C1l
.,..
·.r.
99 93 99 93
66 66 66 66
Material Note Reiehhold Allae 4010; mix!. AlIac 382/387 Reiehhold Allae 711
32
8 8'-,8 8
8
I:l tr:
52 52
8 8
10 15 15 15
93 93 99 93 99
~
,.
43 43 43
8
all concentrations
.,0:
.'
8
saturated
~
99 93 99
8 8
" " " " "
"tl
60
8 8 8 8 8 8 8 8 '8 8 8 8 8 8 8 8 8 8 8 8 8 8' ...." 8 ""8 ,.
Resistance NQte
Temp~('CI 82 82
anaerobic municipal; treated & untreated treatment hydrogenated, liquid
Max.
8 8
"
Septic System Sequestrene 30A Sewage
,.
Cone.
·";·:!;:j;..
;:;'~ :lj, ~ .;:;·:ti!;t.~t: • '.i .,.:V:;
•"., ,:;. V.. . <
.
., •
."
0-
;.,.,
I'"~j .•. .~
~
:~-V
~.
~ i\:
':~ . •. . i
";-:
~;~
:-.:
y >~;.
~::::, :t'
~.
....".
....
.:.~
,
.t
;~:~.:
?
.~
"'
:~:
Reiehhold Allac 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Relehhold Allae 382 Reiehhold Allae 4010; mix!. Atlae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold AlIae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold AlIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AlIae 711 Ashland Hetron 700 (bisphenol-A fumarate)
~.,
"
.'
{
}.. . '<';{%'<{;: "//.;.., <"C'}
"
:;;
" "
/
,"~I
.,
~;;
S}(' y .......
~~:
'."
Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allac 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
@
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~
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Reagent
Reagent Note
Sodium Bisulfide
w/15% sodium hydroxide
Sodium Bisulfite
all concentrations
Sodium Borate
all concentrations
15' CI>
15'
;:s t"'
...0:i=l ... u:
Conc.
Temp.
("')
("C)
I
POL Max. Rating •. Te!llp. ("C) .
Resistance Note
15 15 45
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reichhold AIIac 382 Reichhold At/ac 4010; mix!. At/ac 382/387 Reichhold At/ac 711 Ashland Hetron 700 (bisphenol·A fumarale)
saturated w/48% sodium hydroxide; BOROL
Sodium Bromate with 20% sodium bromide
Sodium Bromide
12 12 12
Reichhold At/ac 382 Reichhofd At/ac 4010; mix!. At/ae 382/387 Reiehhold At/ae 711
5 5 5 20 20 20 50
Raiehheld At/ae 382 Raiehhold At/ae 4010; mix!. At/ae 382/387 Reichhold At/ae 711 Reiehhold At/ae 382 Reiehhold At/ae 4010; mix!. At/ae 382/387 Reiehhold At/ae 711 Owens Corn. Vibrin E·750 (bisphenof·A fumarata)
20 20 20
Raiehhold At/ae 382 Raiehhold At/ae 4010; mix!. At/ae 382/387 Raiehhold At/ae 711 Reiehhold AIIae 382 Reiehhold At/ae 4010; mix!. At/ae 382/387 Reiehhold At/ae 711
all concentrations
with 20% sodium bromate
Sodium Butyl Xanthate
5 5
5
Sodium Carbonate
saturated
with 15% sodium bicarbonate
OJ
00' "0
~
(I)
::::I
Sodium Chlorate
Ashland Helron 700 (bisphenol·A fumarate)
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reichhold At/ac 382 Reichhold At/ac 4010; mix!. At/ac 382/387 Reichhold Atlac 711 Ashland Hetron 700 (bisphenol·A fumarate)
saturated
Sodium Borohydride
Material Note
Reiehhold At/ae 382 Reiehhold AUae 4010; mix!. AUae 382/387 Reiehhold AIIae 711 Ashland Hetron 700 (bisphenol·A fumarate)
2 10 10 10 10 10 20 20 20 25 32 35 35 35 36
saturated
46
o
Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold At/ae 382 Raiehhold AUae 4010; mix!. AUae 382/387 Reiehhold AIIae 711 Reiehhold At/ae 382 Reiehhold AUae 4010; mix!. At/ae 382/387 Reiehhold At/ae 711 Ashland Hetron 700 (bisphenol-A fumarata) Reiehhold AUae 382 Reichhold AIIae 4010; mix!. Atlae 382/387 Reiehhold At/ae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
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Chemical Resistance - Bisphenol A Polyester
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Chemical Resistance - Bisphenol A Polyester
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Reagent
Reagent ~ote
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Sodium Chlorate
Sodium Chloride
50 50 50 90 all concentrations
pH 10.5, C12; saturated saturated wi 15% ammonium carbonate; pH 13 with 1% arsenic acid wi 0.1 % sodium fluoride wi 1% sodium fluoride
Sodium Chlorite
Conc.
5 5 20 20
saturated 10 10 10 50 50 50
Sodium Chromate
saturated 50 50 50
Sodium Citrate Sodium Cyanide
25
saturated 45 50 50 50
Sodium Diphosphate
all concentrations 100 100 100
@
::2 >:l ~
0-
Sodium Dodecylbenzenesulfonate
all concentrations
CIl
I?
pH 8
CIl
tE'
;:s t"'
~
.,
>:l
II:
Sodium Ethoxysulfate Sodium Ethyl Xanthate
8
s 8 8 8' 0
8 8 S 8 2 8
'0
S 8 8 8
8 8 S 8 8 8 8 8 S 8
Resistal)ce Note:
Material Note Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate) Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate)
Reiehhold AIIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711 Reiehhold Allae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate)
8
all concentrations saturated
5 5 5 15 15 15
Sodium Dichromate
Temp. I" PDL··I· Max. I'C) .... Rating ·!!P\P,llH
40
8 S 8 S 8 8 8 S 8 8 8 S
"8; ..... S 8 8
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold AIIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A lumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
100
5 5 5
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
@ ~
!:i
rteage~t
Reage,rl;Note
CJ>
Sodium Ferricyanide
all concentrations
~ ::;.
tJ
.~f~C. J}'£L' JR~g~9 II~~~~i.~)1
C1l CJ>
cO' ;:l
t-
...o:. ... \C:
Sodium Ferrocyanide
Sodium Glucohptonate Sodium Gluconate Sodium Hexametaphosphate
99
Reiehhold At/ae 382
93
Reiehhold Allae 4010; mix!. Allae 382/387
8.
99
Reiehhold Allae 711
104
Ashland Hetron 700 (bisphenol·A lumarate)
all concentrations
8 8""
99
Reiehhold Allae 382
93
Reiehhold Allae 4010; mix!. Allae 382/387
"8
99
Reiehhold At/ae 711
saturated
8
104
Ashland Hetron 700 (bisphenol·A fumarate)
all concentrations
7 7
49siirladi\{imaiJ~~6illiiieiidaif
7
49 66
{.'.
w/ 15% sodium hydroxide
Sodium Hydrosulfite Sodium Hydroxide with chlorine gas
w/ 12% sodium borohydride; 80ROl
,;'
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AIIae 382/387
,"
Reiehhold At/ae 711 Owens Corn. Vibrin E.750 (bisphenol·A fumarate)
' .
49
8
66..
Ashland Hetron 700 (bisphenol·A fumarate)
65 65
10 15
8
60
20
8
82
Reiehhold Allae 382
20
8
82
Reiehhold Allae 4010; mix!. Allae 382/387
20
8
82
45
8
60
8
38
8
66
1
8
93
1 5 5
8 8
93 21 66
8
surfacing mat recommended •..... / ~.i···"·,:('::,"
Reichhold At/ae 382 Reiehhold Allae 4010; mix!. At/ae382/387
,i·.......~.... :,<",",:c:
65
1
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A lumarate)
Reiehhold AIIae 711 ......... .3 t05yeer~~.!liisellfe
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Ashland Hetron 700 (bisphenol·A lumarate) Reichhold Allae 382
:/:,. 310 5year me .,.. . ..•
Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenoi·A fumarate) Ashland Hetron 700 (bisphenol·A lumarate)
5
8
49
5
8
66
5
8
66
5
8
66
Reiehhold Allac 711
10
8
66
Ashland Hetron 700 (bisphenol·A fumarate)
10
8
66
Reiehhold Allae 382
10
8 8
66
Reiehhold Allae 4010; mix!. Allae 382/387
66
Reiehhold At/ac 711
8
Ashland Hetron 700 (bisphenol·A fumarate)
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) ,.
Reiehhold Allae 382 Reiehhold AIIae 4010; mix!. AIIae 382/387
15 25
8
66 66
25
8
66
25
8
66
Reichhold Allae 4010; mix!. Allae 382/387
25
8
66
Reiehhold Allae 711
48
8"
43
48
8
43
:~
(ii' -0
..
8
488
OJ
49
7 7 '('7
10
Sodium Hydroxide
8
'8 8:,'
10 10
Sodium Hydrosulfide
Material N9 te
I
saturated
j:l
Sodium Fluorosilicate
j:leSistilri~eNole
:~
.:
,I
Reiehhold Allae 382
Reiehhold AIIac 382 ,., .. ,": '",' .
43:<'ii~';;' ::..
:: !"
:::
:,."'.,.
.i,·;·
.:it';;t~):·l: I ' ; i';;;;;
Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland
He~:~e~~~I~b~t~::~;~A fumarate)
Reiehhold
~t~~:h~~;~~~:~'7~~ac
382/387
~
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Chemical Resistance - Bisphenol A Polyester
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Chemical Resistance - Bisphenol A Polyester
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o
CD
:::J
o
»
Reagent
Reagent Note
Cone. ("I
slable
2
8
52
"
5.25
8
52
~
"
5.25
8
OK 10 rna•. sleble temp. for reagenl u
Reichhold Allae 382 Reichhold Allae 4010; mi.t. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarate)
. ..
-u o
~.-
-<
Sodium Hypochlorite
Sodium Lauryl Ether Ethoxylate Sodium Lauryl Sulfate
Sodium Nitrate
Sodium Nitrite
Sodium Oxalate
5.25
8 8
slable
10
8
49
u
15
8
49
15
8
15
8
15
8
17
8
38
60
8
82
all concentrations
8
71
" "
8
71
8
71
60
8
43
60
8
43
100
8
38
all concentrations
8
99
"
8
99
" "
8
93
8
99
8
104 93
" "
8
99
8
93
"
8
99
saturaled
8
104
all concentrations
8
93
8
82
8
93
8
99
8
93
· ··
8
99
8
93 93
"
8 8
sodium monophosphate; all cone.
8
93
all concentrations
8
66
" " " "
8
66
8 8 8
99
"
© ~
Sodium Polyacrylate
o'
Sodium Silicate
p ~
'"tJ
"
(1)
tEo '"
pH 12 6
;:l
t'"'
0:.,
.,p
lC
Sodium Sulfate
all eoneenlrations
" "
special cura & synth. surt. veil used: nonlhi.otropie resins preferable
Ashland Helron 700 (bisphenol·A fumarale)
special cure & synlh. surf. veil used; nonthilcolropic resins preferable u
"
..
8
·
Material Note
OK to rna.. steble lemp. for reagent
saluraled
:~
Resistance Note
u
all concentrations
"
Sodium Phosphate
POL Max. Rating Tt:lfflP·t<W
5.25
" Sodium Persulfate
Temp. (·CI
Reiehhold Allae 382 Reiehhold Allae 4010; mi.t. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarale)
"
l
,
,.
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold AIIae 4010; mixt. AIIae 382/387 Reiehhold AIIae 711 Ashland Helron 700 (bisphenol·A fumarate)
,
",
Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol·A fumarale)
"
Reiehhold Allae 382 Reiehhold AIIae 4010; mixl. Allae 382/387 Reiehhold Allae 711
': .~ .,...
Reiehhold AIIae 382 Reiehhold AIIae 4010; mi.t. Allae 382/387 Reiehhold Allae 711
"
,.
93 .
'",.
66
99 93
8
71
8 8
104
8
99
·~.:x
.'.'
"
Ihis is the preferred fualerial
synlh,su~,veIH)ene~~ily "'/
99
\
:",
used .-: ~:
..
~
(".'
Reiehhold Allee 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bispheno/·A fumerate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allee 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allee 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
.; J
.....::,
,", ~-.;; '.,',
93
8 8
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhoid Allae 711 Ashland Helron 700 (bisphenol·A fumarale)
,
.
" " Owens Corn. Vibrin E·750 (bisphenol·A fumarale) Reiehhold Allae 382
""
@
"I:l
~ ~
n'
'"
~ tEo '"
Reagent Note'
Reagent ~d.
; ... -;~•. ; . .
Sodium Sulfate
.. ....
Cone.
(%)
...................
Temp.
all concentrations
" Sodium Sulfhydrate
w/15% sodium hydroxide
;:l
t"'
0: ..,
..,i=l
u:
Sodium Sulfide
15 15 20 20 20 45
all concentrations
" " saturated 10
Sodium Sulfite
all concentrations
concentrated all concentrations
saturated
Sodium Triphosphate
Soy Sauce
CD
::::l
o
Soya Oil
99 93 99 49 49
.,,'
I
Reichhold Atlac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
"
99 93 99 93
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
".
Reichhold Allac 382 Reichhold Allac 4010; mix!. AlIac 382/387 Reichhold Allac 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
77
77 77 82
,
8 8 8 8 8
99 93 99
Reichhold AlIac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
8 8 8
99 93 99 93
8 8 8
99 93 99
clay
8
32
Varsol
8 8
43 43 43
" " "
8 40 40 40
100
68
8. 6
"
8 8
"
8
all concentrations
8 8
solutions; all concentrations
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AlIac 711 Ashland Hetron 700 (bisphenol-A fumarate)
,
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
!MM;\~mp;Mm~*H9r'illfeirniUent exposoilly. Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
8 .8.
"".'
e
66 66 66
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AlIac 711
43 43 43
Reichhold AlIac 382 Reichhold Atlac 4010; mix!. Atlac 382/387 Reichhold Allac 711
99
..
;',
.
'
.,:
.
",
,.;.
' • Ai
Owens Corn. Vibrin E·750 (bisphenol-A fumarate) 0>
-0
'<
" Reichhold Allac 382 Reichhold AlIac 4010; mix!. Allac 382/387 Reichhoid Allac 711 Ashland Hetron 700 (bisphenol·A fumarale)
» o
Ashland Hetron 700 (bisphenol-A fumarate) .":
Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AlIac 711
" "
:::r
8 8 8 8 8 8 •
8
" "
en' "0
60 60 82 82 82 60
32 66 66 66
Sodium Xylene Sulfonate
OJ
8 8 8 8 8 8
Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
..
8
" " " " " "
"
Solvesso 150 Sorbitol
93 99
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
saturated
Soil Solvents
Material Note
82 71 82
"
Sodium Tripolyphosphate
,
Resistance NotE!
8 8 8
all concentrations
"
Sodium Thiosulfate
8 8
8 8 8 8
" " Sodium Tetrabromide
Max.
rTemp,('C)
8 8 '8
" " Sodium Tetraborate
POL
I'C) .. ;Rating
Chemical Resistance - Bisphenol A Polyester
-'-'-
0) -"
Chemical Resistance - Bisphenol A Polyester
OJ Ci;-
'"
"'C
:=T
.~'
(1)
:::J
2-
»
Reagent
Reagent Note
Soybean Oil
all concentrations
"U
o
'<
Span
Conc. 1"1
Temp. I'CI
POL Rating
ITernPillPY Max.
8 8 8
93 93 93
Reiehhold Allae 382 Reiehhold AIIae 4010; mix!. AIIae 382/387 Reiehhold Allae 711
66 66 66
Reiehhold Allae 382 Reichhold Allac 4010; mix!. Allae 382/387 Reichhold Allae 711
65 65 65
Reiehhold Allae 382 Reiehhold Allac 4010; mix!. Allae 382/387 Reiehhold Allac 711
·····ll··
surfactant; all concentrations
8
8
Spearmint Oil
all concentrations
8
e e
Stannic Chloride
8 8
8 8
8
Stannous Chloride
99
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
8
104 104 104
Reiehhold Allae 382 Reichhofd Allac 4010; mixt. AIIae 382/387 Reichhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
8
8
Stearic Acid
all concentrations
Styrene
Styrene Acrylic Emulsion Succinonitrile
100 100 100 100 100 all concentrations
aqueous; all concentrations
@
""0
E"
Sucrose
all concentrations
(I)
~ tEo
alkanolamide. non ionic
55
liquor; all concentrations
t"-
o:... I:l ...
Sugars Sulfamic Acid
43 43 43
8
88 88 88
8
49
8
99 93 99
e
saturated
8 10
•
8 8 8
liquid
8't
:' Owens Corn. Vibrin E·750 (bisphenol·A fumarate) i Reiehhold Allae 382 Reichhold Allae 4010; mixt. Allac 382/387 Reichhold Allae 71 I
.
8 8 " .,
8
;:l
:\
;~~
no(i.comrn.nif8d·jo",i~e
49 49 49
e'
(I)
,-",'
2
2 6 8
""8
Sufactants Sugar Beet
not reeomm,nded'lor ,,~e·
93 99 99 93 99
2
8
~
r:;'
8 2 8 8 8 8 8 2
27
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allae 382 Reichhold Allac 4010; mixt. Allac 382/387 Reiehhold Allac 71 I
"
8
8
107
>
82 99 66 66 66
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reiehhold Allac 382 Reiehhold Allac 4010; mixt. Allae 382/387 Reiehhold Atlae 71 I
e e
hydrogen chloride
.:"",
104 99 99 93 99
8
Stannous Sulfate Steam
Material Note
Resistance Note
49 82 99
.
.
;~
;~,
~xpos. i~l11P';~n>ax. ~;il)l:;~in';'texpO~:;PIiIy;
::::
~:'
:{
:~~l
;};
t
.4 t
Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reichhold Allae 4010; mixt. Allac 382/387 Reichhold AIIae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Reichhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reichhold Allae 711 Reichhold Allac 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reichhold AIIae 711 Reichhold Allac 382 Reiehhold Allac 4010; mixt. Allae 382/387 Reiehhold Allac 71 I
,.>{~-
"
"
'~"';
~:: '~.,
Ashland Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allac 71 I
·-i:~::,·
Owens Corn. Vibrin E·750 (bisphenol·A tumarate) .~ .:~
Ashiand Hetron 700 (bisphenol·A fumarate) Reichhold Allac 382
@
'\l
po
Material Note
'Jl ~
ri'Jl
Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold AlIae 382 Reiehhold AlIae 4010; mixl. Allae 382/387 Reiehhold Allae 711
~ 'Jl
<E;:l
~
.., >l ..,
0-
Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 711
~
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Atlae 4010; mixl. Atlae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. AlIae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. AlIae 382/387 Reiehhold Allae 711 Ashland Hefron 700 (bisphenol-A fumarate) Owens Corn_ Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixl. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae
CD
00" -0
::T
CD
~
Q..
382/387
382/387
382/387
382/387
»
""U
o
'<
0)
Chemical Resistance - Bisphenol A Polyester
......
U)
~
~
Chemical Resistance - Bisphenol A Polyester
w
~
""0
:::r CD ~
o
i
IReagent
•
,,",L
Reag~nt~,oteHw,
Sulfuric Acid
'<
with 90% manganese sulfate
with phossphorie acid
with saturated ferrous sulfate
with 2.5% chromic acid
w/12.5% chromic acid
Sulfuric Acid
w/3% chromic acid
w/12% copper sulfate w/ 3% sodium dichromate w/4% sodium dichromate
Ic~~)c'l T~·~r IR~g~9 ITe:;~i'c)' 5 10 10 10 10 10 10 10 10 10 10 10 10 13,7 13.7
8
treee organics @
"1:l
S ~
w/ chlorine, saturated
~
Iraee organics
n(\) (I)
tE;J
t Sf
~ te:
vapor
70 70 70 70 72 75 75 75 75 80 80 80 93 93 93 93 98 98
8 8
;;
8
8 8 8 8
8 8
99 104, 93 104 82 I 82 82 99 I 93 99 99 93 99
2
68
.,.
a
: ' not reeolJlmended I~ruse F ''''::::'''." ,:.,/.
. ~;: . ·r· . '0>·"::;····,;,;..
Reiehhold
Reiehhold
<.' ..::;
Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
107 99: . H., '" 9 9 " 93, 99 '" 49 I .. , n o t recommended' lor use
8
8 8
8 2 2 8
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AlIae 711 Ashland Hetron 700 (bisphenol-A fumarate)
1~
8 8 8
93 99 93 99
6 8.
88
8
,: Owens Corn. Vibrin E-750 (bisphenol-A fumarate) .". Reiehhold Allae 382 .'" Reiehhold Allae 4010; mix!. Allae 382/387 '..': ~.:' Reiehhold Allae 71 I iimite~$erViCe..lileeXiiect8d;;" Ashland Hetron 700 (bisphenol-A lumarate) . . . . :>.: '::,. "
't,.
71 1 88 88 88'
8 8 8 8
74
"Reiehhold
;.,
Reiehhold AlIae 711 Reiehhold Atlae 382 Atlae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold AlIae 382 Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Reiehhold AlIae 382 Allae 4010; mixt. Allae 382/387 Reiehhold Allae 71 I Reiehhold AlIae 382 Allae 4010; mixt. AlIae 382/387
?: 8
121
Material Note
Reiehhold
•
2 ;, 2
I.
Reiehhold
I
:h
~
Sulfuric Acid
\
8
25 25 25 25 28 30 32 50 50 50 50 50 70
8 8
13.7 16 16 25
~
Resistan.ce Note
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Atlae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate)
"2! 8 8 8 8
32' 43' 43: . 43'
;'l!,
., .'
" Reiehhold Allae 382 Reiehhoid Allae 4010; mix!. AlIae 382/387 Reiehhold Allae 711 Ashland Helron 700 (bisphenol-A fumarale)
2
74
.~
2'
t
2 I' 2.!· 2 .:) 2 . 2 't
I
82
.or
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 3821387 Reiehhold Allae 711 Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Ashlend Hetron 700 (bisphenol-A fumarate)
..
'?{' ,
'X","," ,.'::-:'
ReagentNote
Cone.
T.rnp·
POL
)C ' .•
("') -. ................
@ ,~.
:,:
,.
S' ~
n'en tl en
Reagent'
........ Sulfurous Acid
(1l
.:'-8 ·8 8
all concentralions
.
..
;:l
8 10
t-
Sulfuryl Chloride
100 100 100 100
...
~
(t:
Superphosphoric Acid
.8
;:..,,:"'.. . 2'
105% orthophosphoric acid
100 100 SPAN; all concentrations
.
" Tween; all concentrations
" Ultrawet; all concentrations
"
"
anionic amide type linear primary alcohol type
Surfonic N95 Tall Oil
58 100 100
" " saturated
Tanning Solutions Tartaric Acid
Tanak MRX
100
all concenlrations
" "
8
"
8 8
saturated
Tellone Tetrachloroethane Tetrachloroethylene OJ
(ii' "0
:::r
100
" "
::;
I
,I t,
..
, _.
2
i
99 99 93 99 104
~
,
,)
:;~.,
38
r
8 8
:.
Owens Corn. Vibrin E-750 (bisphenol-A lumarate)
..
99 99 93 99 104
:~.
., .. ;,;
.'''.
:.:
j
..
: }r .. . , ,.'
.:ii:i.,.. ~
.
Reichhold Allac 382 Reichhold Allac 4010; mixt. Atlac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenoi-A fumarate)
use}' i,..
.......
"
"
..
.'.' ." nol
43 43 43
Owens Corn. Vibrin E-750 (bisphenol-A lumarate) Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A lumarate)
.""\
"
2
. " 8'
Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
2' ;;~
Reichhold Atlac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Helron 700 (bisphenol-A fumarale)
" "
.
2 '
66
100 100 100 all concentrations
•• J'
66 66 66
8 . 8 8 8 8 8 8
"
..
..
..
'"
Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allee 711 Ashland Hetron 700 (bisphenol-A lumarate)
,
I
49
8
"
o'
49 49 49
8 8 8 8 8
" " Tannic Acid
66 66 66 66 66 66 66 66 66
8
all concentrations
Reichhold AIIac 382 Reichhold Allac 4010; mixt. AIIac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
>.:::."
"
:t· ..
.8 8 8 8 8 8 8
"
......:....
'
:.'
99 93 99 104 104
"'aterial Note
Reichhold Allac 382 Reichhold AIIac 4010; mixt. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A lumarate)
,.
l' ,
8 8 8 8 8 8 8 8'
..
~l
noti"comm,naed'loruse
2 2
24
..
){ Owens Corn. Vibrin E·750 (bisphenol-A lumarate) ~.
...,
2
"
Surfactants
49 43 43 43 32
.,
Resistan~e··N~te:,·
Max.
Rathlg IllnP;IWi
..
<E'
o:...
"
.J.t~f'
.":
.'
'U
.
.....
"j) . .
. , iF .:)ii.
",,(
iii
Owens Corn, Vibrin E·750 (bisphenol-A lumarate) Reichhold Allac 382 Reichhold AIIac 4010; mixl. Allac 382/387 Reichhold Allac 711 Reichhold Allac 382 Reichhold Allac 4010; mixt. Allac 382/387 Reichhold Allac 711
CD ::J
2-
»
" -< o
0)
Chemical Resistance - Bisphenol A Polyester
...... c.n
m ......
Chemical Resistance - Bisphenol A Polyester
OJ
00-
m
"0
=r
.
co
::::l
'-':'
.... ,....
o
Reagent Note
Reagent
~
,
-0
o
...... : ..... ,..
,,~
..
~~.
Tetrachloropentane
'<
Cone.
Temp.
(%)
('C)
100 100 100
49
60 60 60 60
8 8 8 8
54 52 52 52
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
8
49
Reiehhold Allae 382
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 2 2 2 2
49 49
Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711
. 5 5 5 5 60 60 60
Textone Thioglycolic Acid
10 10 10
Thionyl Chloride
100 100 100 100 2-naphfhylamine sulfonie aeid
..
.. 2-naphthylamine-l-sulfonie acid
Toluene
'1l
S ~
r;'
Toluene Oiisocyanate
100 100 100 100 100 100 100
@
TDI
;:l
t-'
0: .,
.,p
u:
..
Toluenesulfonic Acid
. ...
alf eoneentrations
49 71
,
8 8 8 8 2 2 2 2 2 6
e
saturated
Vl
~ Vl tE-
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AIIae 711 Ashland Helron 700 (blsphenol-A fumarate)
100
..
Tobias Acid
Reiehhold Atlae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
2 2 8
all concentrations
Tetrasodium Pyrophosphate
~
·· ·· ·
2
Tetrapotassium Pyrophosphate
Materia I Note
not recommended for use
2 2 2
Tetrachloropyridine
Tetrasodium Ethylenediaminetetraacetic Acid Salts
Resistance Note
POL Max. Rating Temp. ('C)
100 100 100
8 2 2 2 ., 8 8< 8
104 99 93 99 52 52 52 99 93 99
.
Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Atlae 4010; mixt. AIIae 382/387 Reiehhold Allae 711 Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711
,
,.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
I
49 43 49
-.
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
..
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold AIIae 4010; mixt. Allae 382/387 Reiehhold Allae 711
"riOi,ecom'miiiiie
99 99 99 99
M··:······
·,
,. ;;'
~
....
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AIIae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
...... -.- - -:;.
'oofiecommiiiaea,forusi'
·
,",:
I
M'i(
. expos. lemp. \s 32 27
f,
,
maxHo~I~;~iml\1enl
..not
;~e~~rii;n~;~ for use . .,,. ..
l
expos_ only
,;> . . '< ..
99 93 99
<
.,
{
'.:".
._'0
...
,
,
.;" .,
Ashland Hetron 700 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Reiehhold AIIae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
""0"",,,"0
@
'"
p
~
n'V>
Reagent Note
Reagent , ....
Cone.
Temp.
(%)
('C)
Max. POL Rating Temp. (re)
Toluenesulfonic Acid
Resistance Note
Material Note
8
27
8
38
Ashland Hetron 700 (bisphenol-A tumarate)
8
66
Owens Corn. Vibrin E·750 (bisphenol-A lumarale)
;:l
8
99
t""'
8
93
~ V>
cE'
65
Transformer Oils
& .,
., ~
u:
99
Reichhold Allac 711
32
Ashland Hetron 700 (bisphenol-A fumarate)
100
8
52
100
2
100
2 2 2
100 38
8
82
8
82
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
99
Reichhold Allac 382
50
8
93
50
8
99
100
2 2 2 2 2 2 2
100
2
100
2 2 2
100
'.
100
49
:::T
CD
::::l
o
Triethanolamine
,
·" " " "
·· "
·"
Owens Corn. Vibrin E-750 (bisphenol-A lumarate)
" Ashland Hetron 700 (bisphenol-A lumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AIIac 711 Ashland Hetron 700 (bisphenol-A fumarate) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A fumarate)
100
8
38
Reichhold Allac 382
100
8
38
Reichhold Allac 4010; mix!. Allac 382/387
"
100
8
38
chloroform
100
Tricresyl Phosphate
w· "0
Reichhold Allac 711 nof recommended tor use
"
27
2
Reichhold Allac 711 nol recommended fO,r,u,se
Ashland Helron 700 (bisphenol-A fumarate)
100
2
"
Reichhold Allac 382
100
2
"
Reichhold Allac 4010; mix!. Allac 382/387
"
Ashland Hetron 700 (bisphenol-A fumarate)
100
CD
Reichhold Allac 4010; mix!. AIIac 382/387 I
Freon II
100
Tridecylbenzene Sulfonate
"
93
8
100
Tridecylbenzene
"
8
100
Trichloromethane Trichlorophenol
Reichhold Allac 711 Ashland Hetron 700 (bisphenol-A lumarale)
50
100
Trichloroethylene (1,1,2-) Trichlorofluoromethane
·
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387
50
100
Trichloroethylene
··
50
100 l,l,l-trichloroethane
Owens Corn. Vibrin E·750 (bisphenol-A lumarate) not recommended lor use
0-50
100
Trichlorobenzene Trichloroethane
Reichhold AIIac 382 Reichhold Allac 4010; mix!. AIIac 382/387
8
100
Trichloroacetic Acid
,
8
;
100
Treflan Trichloroacetaldehyde
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
·
2 79
2
Reichhold Allac 71 1
100
8
82
Reichhold Allac 382
100
8
82
Reichhold Allac 4010; mix!. Allac 382/387
100
Reichhold Aflac 711
8
82
all concentrations
8
99
Reichhold Allac 382
"
8
93
Reichhold Allac 4010; mix!. Allac 382/387
" " " " " " "
8
99
Reichhold Allac 711
8
99
Reichhold Allac 382
8
93
Reichhold Allac 4010; mix!. Allac 382/387
8
99
Reichhold Allac 711
8
66
Reichhold AIIac 382
8
66
Reichhold Allac 4010; mix!. Allac 382/387
8
66
Reichhold Allac 711
» "'U
o
-<
Chemical Resistance - Bisphenol A Polyester
0> ......
........
en ......
Chemical Resistance - Bisphenol A Polyester
OJ
en' '"0
(Xl
:::T
Ctl
='
o
:P
Reagent
Reagent Note
\J
I Conc. (%)
o
'<
Triethanolamine Lauryl Sulfate
Triethylamine
Trimethylamine Hydrochloride
100
50 50 50 wetting agent
"
pure gum
100
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AlIae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
surfactant; all concentrations
Reiehhold Atlae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711
surfaetants; all cone.
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. AlIae 382/387 Reiehhold Allae 711
fertil.;44.3%NA4N03.35.4%CH4N20.20.3% H20
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
Uranium
extraelion
Reiehhold Allae 382 Relehhold Allae 4010; mix!. Allae 382/387 Relehhold AlIae 711
all concentrations
Reiehhold Allae 382 Reiehhold Atlae 4010; mix!. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
r;' CIl
16' CIl
Urea
tEl' ;:l
t""
0: ..,
..,
~
Ashland Hetron 700 (bisphenol·A fumarate) Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold AlIae 382 Reiehhold AlIae 4010; mix!. Allae 382/387 Reiehhold Allae 711
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
"1:l
~
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
100
@
~
Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
93
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Attae 382/387 Reiehhold Allae 711
"
Uran
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
25
Ultrawet
Reiehhold AlIae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold Allae 711
100 100 100 saturated
Tung Oil Turpentine
Material Note
100
10
Tween
Resistance Note
Reiehhold Allae 382 Reiehhold Allae 4010; mix!. Allae 382/387 Reiehhold AlIae 711 Ashland Hetron 700 (bisphenol·A fumarate)
saturated
Tripropylene Glycol
Triton
I
POL Max. Rating Temp. ('C)
•. notrecommended !iiiuse
" "
Trisodium Phosphate
('C)
43 43 43 52 52 52
all concentrations
Triethylene Glycol Trimethylamine Chlorobromide
Temp.
saturated 100
@
'1:l
po ~
Reagent
Reagent ~ote
r;' CIl
1\? CIl
:·:N:·:~·:':·.
Varsol
cO'
.. ..
0: ..,
..,p
100
Vegetable Oils Versene
Na EDTA, ehelating agents
u::
Vinegar
10.8 19 100
Vinylldene Chloride Vivo-Zyne Water
Ashland Hetron 700 (bisphenol·A fumarate)
all concentrations
100
24
Reiehhold Atlae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Atlae 711
100 100
Owens Corn. Vibrin E·750 (bisphenol·A fumarate) Ashland Hetron 700 (bisphenol·A fumarete)
deionized deionized, all concentrations
distilled
irrigation sea water, all concentrations
OJ
en'
"0 :::7 CD
Waxes
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol·A fumarate)
100 100 100 100
50 ppm phenol
tap deionized demineralized distilled
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. AUae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate)
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Atlae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A fumarate)
.. ..
Vinyl Toluene
Material Note
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold AlIae 711 Reiehhold Allae 382 Reichhold AlIae 4010; mixt. Allae 382/387 Reiehhold Allae 711
2 2 2 100 100 100
all concentrations
grain·corn
Vinyl Acetate
Resistance No.te
43 43 43 93
solvent
;:I
t""
L~f~~'J~~;r- R~~~9 hl!:;:i~~l
100 100 100
chlorinated, all cone.
::l
Reiehhold Allae 382 Reiehhold AlIae 4010; mixt. Allae 382/387 Reiehhold Atlae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol·A tumarate) Reiehhold AlIae 382 Reiehhold Allae 4010; mlxt. Allae 382/387 Reiehhold Allae 711 Ashland Hetron 700 (bisphenol·A fumarate) Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711 Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Hetron 700 (bisphenol·A fumarate)
Reiehhold Allae 382 Reiehhold Allae 4010; mixt. Allae 382/387 Reiehhold Allae 711
Q.
» o
'<
..... to
0)
"'U
Chemical Resistance - Bisphenol A Polyester
0)
Chemical Resistance - Bisphenol A Polyester
OJ
en-
N
o
"0
= CD
"e'
".
~
o
» -0
o
'<
~eagent .,':
Reagent Note
Whiskey
all concentrations
.
_.
Cone.
Temp..
("I
('c~
7 ... .-r;,
.••..•. /1""
pulp mill pUlp mill; all concentralions
Wines Xylene
" " " " "
Zinc Chloride
Zinc Cyanide
1;1
" " " " " "
8
salurated all concentrations
8
"
8 8 8
~
n'
'~"
<E'" ;J
t"'
0: .,
.,J,:l
\l::
\ .. :~
99 93 99 99 99 93 99 104 82 82 82
8 8 1
8
38
50
8 8 8 8 8
99 93 99 82 99
all concenlralions
8
"
8 8 8 8 8
104 99 99 93 99
all concentrations
.. "
Zirconium Tetrachloride
::-
65 65 65
saturaled
'p"o
32
8
8 8 8
"
.,..,. ~.:
.
~:
,
"
....:
54
~:
,.
..
"
,i
:'.
iasiii mayl>e a problem "
..
.
t
:"::
I
.,
,
. ',.
:"
:..:0:
./\
"
i·:/: ':,..,
"'<
Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Reichhold AHac 382 Reichhold AHac 4010; mix!. AHac 382/387 Reichhold AHac 711 Ashland Helron 700 (bisphenol·A fumarale)
',' :~.
i t
..
I I
,. '
'"
Reichhold Allac 382 Reichhold Allac 4010; mix!. AHac 382/387 Reichhold Atlac 711
:~ :
~
, '
......
. "
1
Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold Allac 711
,
:;
"',
?
"
..
y . .,.. . .,'
s
,---, ;~~
.
~Y'
! :-,J·,.;ii' ........
- .r
',~
I
.H
,
:.; .
-{'... "
.
/ ..
' "::~~,
Owens Corn. Vibrin E-750 (bisphenol-A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mix!. Allac 382/387 Reichhold AIIac 711 Ashland Helron 700 (bisphenol·A fumarale) Owens Corn. Vibrin E·750 (bisphenol-A fumarate) Ashland Helron 700 (bisphenol-A fumarate) Owens Corn. Vibrin E-750 (bisphenol-A fumarale) Reichhold Allac 382 Reichhold Allac 4010; mix!. AHac 382/387 Reichhold AHac 711
~
I
t ;
Reichhold Allac 382 Reichhold AHac 4010; mix!. AHac 382/387 Reichhold AHac 711
Reichhold AHac 382 Reichhold AHac 4010; mix!. AHac 382/387 Reichhold AHac 711
""
""';/i;;::'
Ashland Helron 700 (bisphenol·A fumarate) Reichhold AHac 382 Reichhold AHac 4010; mix!. Allac 382/387 Reichhold AHac 711
Reichhold AHac 382 Reichhold AHac 4010; mix!. AHac 382/387 Reichhold AHac 711 Ashland Hetron 700 (bisphenol-A fumarale)
nol recommended lor use
r
.j
:
.
. Reichhold AHac 382 Reichhold AHac 4010; mix!. AHac 382/387 Reichhold AHac 711
"
.
,.
:"{' ;.
/
>
i
8
" "
@
:
'''8
"
Zinc Sulfate
:'
8
all concentrations
Zinc Electrolyte Zinc Hydrosulfite Zinc Nitrate
43 43 43
,~.
2 2 2 100
Zeolites
7 7 7
8
" " all concenlrations
8
8
•• ""hl~~
~t
."
.....
~~:
~~
tasie may
43 43 43 66 82 82 82
Material Note
-Resistance Note '"
7 7
" " White Liquor
Max. POL Rating Temp. ('C)
.'
..Hi
Owens Corn. Vibrin E-750 (bisphenol-A fumarate)
621
Chemical Resistance - Chlorendic Polyester
Acetaldehyde
.• ;>.;
all concentrations fumes; <40 Ibs/cubic foot
'. not recommended. fOf use 32 100 100 100
Acetic Acid
wi 50% acetic
vapor & condensate
Acetic Acid
wi 18.5% HCI
w/20% HCI
Acetic Acid
wi 30%sodium dichromate with 30% sodium dichromate wi 1.5% H202
glacial vapor
Acetic Anhydride
10 10 10 10 15 15 15 18.5 18.5 18,5
99 93 99 99 93 52 29 29
82 99 93 52 99
·8....... 8 8. 8 8 8 8.,.:':' 8
8 .8 •. • '." . ,..8 ·.. . ,. ·.. 8
8·i·· .";
0"
8 8 8 8 6'
38 38 100
2 ·····... 8
:-;,-
.. ,
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hellon 197 ., .. Ashland Hetron 197A Ashland Hetron 92 Reichhoid Atlac 797
71 71 71 32 32 32
Ashiand Hetron 197 Ashland Hetron 197A . ::~}" . Reichhold Allac 797 Ashland Hellon 197 Ashland Hetron t97A Ashland Hetron 92 Ashland Hetron 197 notl~commende~for use ••• Ashland Hetron 197A Ashland Hetron 92 .- ........'....'.- ...
~.:
,
':limifed~~fVICe:llfaeXP.c1ei .~
8 ~..,.....
38 38 38
6..···
49 49
:',
29 29 29 32 32 32 52 52 32 52
2.
all concentrations
wll0% cyclohexane, 1% hexane
,"
29 82
50 50 50 50 50 50 50 50 50 50 70 70 70 95 95 95 100 100 100
.'
Reichhold Allac 797 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Ashland Hetlon 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 ~) Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron '97 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
66
25 25 25 25 25 25
100 100 100 100
Acetone
not recommended fOl use'
..
~
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 @!tecol]jmendedJor use; Ashland Hetron t97A .~: .~
limJf~d:S~Ni~&lIleexP~;;:d;
10
2
10 10 100 100 100
2 '2
2 2
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Acetonitrile
100 100 100
2 2 2
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Acetophenone
100 100 100
8 8 8
Ashland Hetron 197 Ashland Hetron 197A Reichhold Atlac 797
Acetyl Chloride
100 100 100
·.. 2..
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
Acrylamide Acrylic Acid
54 54 54
. ..
.'
2
~
2
,.
50
...
all concentrations 10 10 25 25 100 100 100
© Plastics Design Library
2
~"
8 8 8 8 '8 38 38 38
2 2
:2
~~
.... :.;
27
Ashland Hetron 197
38 38 38 38 38
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
not recommended 101 use
Chlorendic Poly
622
Chemical Resistance - Chlorendic Polyester
Acrylics
dispersion wi 2% acrylonitrile dispersion wi 2% vinylidene chloride glacial
Acrylonitrile
Air
98 98 98 98 100 100
'·8" :'~ {'·',·8':C\·:' '8
100 100 100 100
2 2
8 8"" 8
humid, trace sulfur fumes
phenate based
Alkyl Benzenesulfonic Acid Almond Oil Alum
Aluminum Chloride
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A not recommended tor use
2 2 8 8 ,8:'"
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
8
93 93 93 93
100 100
8 8
52 52
Ashland Helron 197 Ashland Hetron 197A
100 100
8 8
38 38
Ashland Hetron 197 Ashland Hetron 197A
humid; trace sulfur fumes
Algaecide
32 32 32 32 32 32
100
~ot'iecorT1rT1e~clecl for use
2
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A
Ashland Helron 92
all concentrations saturated
8 8 8 8
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
all concentrations
8 8 8,
Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197
slurry; w 2% tluosilicic acid
8 ":-.
Aluminum Chlorohydrate
alf concentrations 50 50
Aluminum Fluoride
93
Ashland Helron 197A
74 74
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
74
all concentrations
32
drying
8
all concentrations
8 8 8 8 8
vapor & condensate
Aluminum Sulfate
5 5 5
all concentrations
Aluminum Trichloride
40 40
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
,/If
8 8
Aluminum Oxide Aluminum Potassium Sulfate
synlh, surL v8il gen8'ally., used' .,
"
Ashiand Hetron 197
II
Ashland Hetron t97A Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
8' '8 8.,.· 8"
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
8
Ii
Ashland Hetron t97 Ashland Hetron 197A
Amerex 201
100 100
8 '. 8
Ashland Hetron 197 Ashland Hetron t97A
Amerex 209
100 100
8 8
Ashland Hetron 197 Ashland Helron 197A
Amergei
100 100
.6
Aminoethanol (2-)
100 100
Amlnoethoxyethanol
100 100 100
Aminoethylpiperazine
100 100
Ammonia
dry; gas
wi nitric fumes wi 0,6 % 802 vapor by volume liquid
Chlorendic Poly
0,02 0.02 100
limited serVice lile expecled
Ashland Hetron 197 Ashland Hetron 197A
29 29 132 132 132
not recommended for use '{.II
".:::-:., 32 32 32 32 32 49 49
Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron t 97 Ashland Hetron t97A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
'. ~?'
notrecommended tor ti~\
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron t97A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
© Plastics Design Library
623
Chemical Resistance - Chlorendic Polyester
.,y,'
.../
Resistance Note .:::""
Ammonia Ammonium Acid Sulfite
not recommended· for use'
wi 3% ammonium sulfite, 5% ammonium
18
8
46
Ashland Hetron 197
18
8
46
Ashland Hetron 197A
54 54 54
Ashiand Hetron 197 Ashland Hetron 197A
sulfate
Ammonium Bicarbonate
15 15 15
Ammonium Bisulfate
wi 30% sulfuric, 10% surfactant
Ammonium BIsulfite
black liquor cooking liquor liquor
Ammonium Carbonate
;:',
all concentrations saturated
Ammonium Fluoride
all concentrations
Ammonium Hydroxide vapors
8
, ..;
. 8,.· 8 8
8 8
synth. surl. I/elr generally used
66
Ashland Hetron 197
66
5
2
5 5 >5 10 10 10 20 20 20
2 32
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
8 66
2 2
8
2. .2 ,.,2' '2 2 8 8 6 8 8' 8
8
di-H all concentrations saturated
8 8 8 8 8., .'.,
8 8' 8
dibasic; saturated
8 65 65 65
all concentrations saturated
,8
8 8
....JL..
Ashland Hetron 197 Ashiand Hetron 197A Ashland Helron 92 foiuse Ashland Hetron 197 '- ...' :(:: Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 ". Ashland Helron 197A
54 54
Ashland Hetron 197 Ashland Helron 197A
,..... Iimite~,serviceHfeexpected
93 38 38 93 93 93 49 49 93 93
.thls.ls lhe preferred material
~:.
.'.
'.
,
.
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A
Ashland Hetron 197 .,.....: Ashland Hetron 197A Reichhold AUac 797 Ashland Helron 197 . Ashland Hetron 197A Ashland Hetron 92
66 66
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold AUac 797
66 66 66 82 limited sell/ice life expected nol recommended lor use 104 104 93 93 82 82 82
Ashland Hetron 197 Reichhold Atlac 797
66 66
2
8;
not ie~~mmend~d
:: ,
8 .2
8 8 10.5 10.5 10.5
32
2 2 ...'
82
44 44
not recommended lor use
2
8.. .8
© Plastics Design Library
Reichhold AUac 797 Ashland Hetron 197 . Ashland Hetron 197A Ashland Hetron 92
66
all concentrations fluoride nuclear waste sol'n
wi 20% lerric sulfate
Ashland Hetron 197 Ashland Hetron 197A
7
.8'
Ammonium Sulfate
".'..
Reichhold Atlac 797 , ~:
8
wi 50% W03; pH 3.3
mono basic; all conc. monobasic
91
93 93 93 93
'. :8".
Ammonium Phosphate
i
8 8 8 8 8
'8
Ammonium Persulfate
'.".
91 91 91
10
satureted
Ammonium Orthophosphate
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
Ashiand Hetron 197A Reichhold AUac 797
100 100
wi 35% urea, 21 % waler
".",.
43 43
2 2 2
28 28 30 30
Ammonium Lauryl Sulfate
8 8 8
6 6
10 10 10
Ammonium Chloride
Ammonium Metatun!lstate Ammonium Nitrate
Ashland Hetron 197A Ashland Hetron 92
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AIIac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
Chlorendic Poly
624
Chemical Resistance - Chlorendic Polyester '
"""".
.. .. " ~
Reagllnt"'"
,
""'i>?' ....
.
;';6
,.',
it;
·'i;.·..
'
Ammonium Sulfide
' ...m.'"
........
,., .. :
-.j:.-: :-.;:
R~agentNote' ..;: '.' '
.......
,.. ~'"
,.'>,
.;.;
./
.
"
, .. '>"
,
,.
Cone. Temp. , POL ·Max. .(:'1. (O~) Rating TemP; (Oc)
all concentrations
8 8 8 8 8
25 25
Ammonium Thiocyanate
saturated
"
wi hydrochloric acid
8 8 8
" 20 20 20 50
Ammonium Thiosulfate
8 8 8 8
all concentrations 60 60
Amsco Solvents Amyl Acetate
BKOH solvents
100
all concentrations
49 49 49
all concentrations
,
"
Amyl Chloride
Aniline
49 49 49
all concentrations 100 100 100
Aniline Sulfate
all concentrations saturated
Anodizing Bath
chrome
Anthium Dioxide Anthracene
" oil
" "
Anthraquinonedisulfonic Acid
1 1
Antimony Pentachlorlde Antimony Trichloride
6 6 6
".
";"
not recommended lor use JJmhed"selVicelile·"e~pected'
2 2 2 2
."
not recommended tor US8
."
,-,'
B 8 .
Reichhold Atiac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atiac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
.." 93 93 93 93
" Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atiac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
2
8 .. .. 8
Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
"
66 66 32 32
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A
38 38
Ashland Hetron 197 Ashland Hetron 197A
32 32 32
Ashland Hetron 197 Ashland Hetron 197A Ashland Hellon 92
66 not recommended lor use 32 32 32
i.'
,
'."
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helfon 197A Ashland Helron 92 Ashland Hetlon 197 Ashland Helron 197A ' . Ashland Hetron 92
B 8
93 93 93
B' 8
66 66
8 8
35 35
Ashland Holron 197 . Ashland Hetron 197A
concentrated concentrated; fumes
.8 8····
" "
8
54 32 32 32 43
Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Atiac 797
49 49
.. Ashland Helfon 197A
saturated
" 50 50
Apple Acid
10 10
Chlorendic Poly
93 93 93 93 60 60 60
6' 2 2
8
100 100 100
Apache
Armeen C
8.
2
66
"
Aqua Regia
••
."
8 8 8 8 8 8 8
concentrated
ii' Ashland Helron 197
2
8
"
i
not 'recommended lor use
8 8 8. 8 8
" "
Ashland Hetron 197 Ashland Hetron 197A
2
8 B 8 100 100 100
" "
2
8
"
Ashland Hetfon 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Atlac 797
38
"
"
82 82 82 82 96 96 82 82
32 32 32
vapor
all concentrations
Reichhold Atiac 797 Ashland Hetron 197 Ashland Hetron 197A
B
8 8
"
49 49 49
8 8 8 100 100 100
Material Note
82 82 82
8 8
" "
Amyl Alcohol
;
Resistance Note
,.
8
fumes
8
concentrated
8
"
.8
.
Ashland Helron 197 Ashland Hetron 197A
Ashland Hetron 197
© Plastics Design Library
625 Chemical Resistance - Chlorendic Polyester
\:.:: . ..,'
.R~adent:NQte,
"., 'Material' Note '.
Resistance Note
'.'
.;./: .. ~,
Arquad CSD Azelaic Acid
concenlraled
'B
49 49
B 8
32 32
Ashland Helron 197 Ashland Hetron 197A
B 8
82 82 B2
Ashland Hetron 197 Ashland Helron 197A Reichhold Allac 797
B
saluraled
Barium Acetate
8
Barium Carbonate
all concenlrations
B
8 B
B
Barium Chloride
B
B'· . 8"
8
Barium Hydroxide
saturaled
.
Barium Sulfate
'8
saluraled
Benzaldehyde Benzene
\,
50
8
B2
50
8
82
100 100 100
2 2
Benzenesulfonic Acid
,.
Benzoic Acid
8 ",. 8 8 B 8,· B
49 49 49
2
B B'
B'
,.:.B 8 . B'·':" B 8
© Plastics Design Library
93 38 3B 32 93 93 B2
"': Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Hetron 197 '" Ashland Helron 197A Ashland Hetron 92 usa Ashland Halron 197 '., Ashland Hetron 197A Ashland Helron 92
nor;~comniandad'fcl,
121 93 121 104
Ashland Hatron 197 . Ashland Helron 197A Ashland Halron 92 Reichhoid Allac 797
'.
Ashland Hatron 92
100
2
100 100 100
:2 2,' ,
Ashland Halron 197 Ashland Halron 197A Ashland Hetron 92
2
Reichhold Atlac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
,
all concantratlons
not ,.acommanded for'usa
2" . 2':"""
2,.: 2
pH >7 pulp mill; all concentralions calcium hypochlorile; sat.
Ashland Halron 92 Ashland Hetron 197 Ashland Hatron 197A
",,:
a.'," .'
100 100 100
Bleach
. Ashland Helron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Halron 92 Reichhold Atlac 797 not racomll)endad for use Ashland Hetron 197 ~:..~; .., Ashland Hetron 197A
2. /
8 8
Black Liquor
'"
2
salurated
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
91 91
'2
B2 82 82
Ashland Hetron 197
Ashland Helron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Helron 197
I
B
.B
Benzyl Chloride
i
2 2
all concenlralions saturated
Benzotrichlorlde Benzoyl Chloride
32 32 32 38 38 32 32 32 24
Ashland Helron 197 Ashland Helron 197A , Ashland Helron 92
Ashland Helron 197A
2
100 100
30 30 30 100 100 100
good lesl resolls'aller short axpos. nol recommanded for Usa
8 8 33.3 33.3 100 100 100 100 100 100 100
Ashland Hetron 92
,i:} Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797
'/.
noflilCoiiiiiiiliiOilcfJoYWiI
II
Benzenedlsulfonic Acid
82 B2 82
2 2
vapor
w/66.7% elhyl benzene
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
2
100 100 100
Bentec
93 93 93 93
hlioftecommeilctedfiidise
8
Beer
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
~.
8\
all concenlrations
,.
93 93 93 93
'2
10
Ashland Hetron 197 Ashland Helron 197A
,
C'.
Reichhold Allac 797
91
:
B
49
'.,.
8
49
specfiilcuifSvsiem ."
Ashland Hetron 197
., "generally used'
',:."
/""',.,
Ashland Helron 197A
Chlorendic Poly
626
Chemical Resistance - Chlorendic Polyester
I::,
"""::"
"'r:;.
. ..>.
i
Re.slstance ~,()te,Miiteda(~otl' Bleach
chlorine dioxide
8
7
8 8 8 8 8
7 93 71 71 52
8 8 8,;" 8
52 52 43 43
specla) cure sys'tem . generaUy used .
.:'
chlorine waler bleach sol.; sal. hydrosulfile
Blow Down
sodium hypochlorite
5 5 5.25
Texlone .. Olin producl; aq.sol. NaCl03
5.25 5.25 15 15 15 50
2
8 8
digesler; vapors <104
Borax
mixture
Boric Acid
salurated
Brine Brines Bromine
mild
salt; saluraled
chlorinated brines; saluraled salt brines; saturated fumes, gas liquid dry gas
liquid
wei gas
Butoxyethanol (2-)
Butyl Alcohol Butyl Alcohol (sec-) Butyl Alcohol (tert-) Butyl Carbltol
100 100 100 100 all concenfrations normal
100 100 100 100 100 100 100 100 100
Butyl Ether
100 100 100
Chlorendic Poly
'.
::'
100 100
'" :.,
8.
, •
93 93 93 38 38 38 38 104 93 82 104 104
Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashiand Hetron 197 Ashland Helron 197A
.'
.....'
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
',::.
Reichhold Allac 797 i ... recomme~ded'lor
use Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
32 32 32 not recommended fo/use
"
.".
32 32 32 29 29 .,
.,
8 8 8 8 8' 8 .... 8 8 .; 8 8'
" 'f"
32 32 32 38
38 38 38
..
32 32 29
:;
27 27 27
8 8
38 38
"
.'
.
..
Ashland Helron 197 Ashland Helron 197A
..
....,
.......
Ashland Helron 197 .. Ashland Helron 197A
.:,
.• , .., ,
·.···"·i.
.
;
!
Ashland Helron 197 Ashland Helron 197A ' ;
.,
.
"
v
-.:.'.
,".
.
'
..
"
..
,
Ashland Helron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797
'~'.
.
Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
..
..
.,
38 38 38 38 29 29
Reichhold Allac 797
'<j Ashland Hetron 197
nOI
8
8"
.•"....
60
8 8
,
'.
60 60
2 2
100 100
Butyl Cellosolve
Butyl Phthalate
Ashland Helron 197 Ashland Hetron 197 A
82 77 77
2
8 8 8' 8 8 8 8
Ashland Helron 197 Ashland Helron 92
nol recommended lor uSe
8 8 8
100 100 100 100 100 100 100 100 100
.. ..
"
2
100 100
Butyl Acetate
•.
.
104
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
40
Bowl Cleanse
Ashland Helron 197A Reichhold AIIac 797 Ashland Helron 197 Ashland Helron 197A . s'pecial ~ure &'syr\!h, sur!.": Ashland Helron 197 vell.used; nonlhixo.lrop~ resins preferable , ".' .;~ Ashfand Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helren 197A nol recommended lor use Ashland Helron 92 Reichhold Allac 797
2
saluraled
Bordeaux
66
Ashland Helron 197
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Helron 197A
© Plastics Design Library
627
Chemical Resistance - Chlorendic Polyester
Butylene Glycol
100 100 100
Butylene Oxide
100 100 100
Butyric Acid
25 25 25 25 70 70
71 71
, Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797
49 riohecommended lor use.
Ashland Hetron 197 Ashland Hetron 197A Ashland Hefron 92 Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
85 100 100 100
Calcium Chlorate
all concentrations saturated
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
8 8
8 .,8'
Calcium Chloride
all concentrations saturated
pH 8.5 pH 5.5
Calcium Hydroxide Calcium Hypochlorite
Reichhold AIIac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197
8
is
·.··8·'· .
35 55
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
8 '8
saturated
. . . . sjiecl1llcuie'sy'stelil ,,gerie,·ill'y··vsed Ashland Hetron 197A
Calcium Oxide Calcium Sulfate
Ashland Hetron 197 Ashland Hefron 197A Reichhold AIIac 797 Ashland Hetron 197
all concentrations saturated
Ashland Hetron 197A Ashland Helron 92
Camphor Caprylic Acid
tar
saturated
Carbon Dioxide
gas, dry wet, acidic
Carbon Monoxide
Carbon Tetrachloride
Carbonic Acid
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
5 5
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
all concentralions saturated
Carbamide
Carbon Disulfide
100 100 100
vapor
Ashland Hetron 197 Ashland Hetron 197A 100 100 100
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
25 100 100 100
Ashland Helron 197 '{ Ashland Hetron 197A Ashland Hetron 92
100 100 100
Reichhold Atlac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
gas
vapor
saturated
100 100 100 100 100 100
... ,~,
8'
8 .8,;,
.8,· ';;-{,:8 8
8 8
:::-;.
.8
·'>8····.. ."".8
Carpet Cleaners
© Plastics Design Library
shampoo
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
Chlorendic Poly
628
Chemical Resistance - Chlorendic Polyester
j;<. . . .' .·)j'!;'i1;[I;<;i)~;;,i'
R~ag·enr·· . .·. ....(.•, .. } ,'.:
,..
.~.,;):::.'
Caustic Cerous Nitrate Chlorine
.',
i •.:
:'\;;~;i;'
.....,. ··,,·j··t:?····... ..... .:i:m:mf,.. ·•.•. ..:.'.F«('··'.·
......
..
,~
( ..(
,. .. .. .::) <. ...:........ Cone. Temp.
,..:"
::~
.."'.. . .,): . ~. (i .:":.. :c.••! '.';:'~':'" . . .:....,..( ....:,.:.. "'::C": .. ,"",""'.s •.. .,.
:••/ ••••
.
:m
.i··..·
i (%)'" ('C)
POL
spent, phenolic refinery
8
"
8
8
"
8
32 32
8' 8
93 93
chlorine water; all conc,
" " wi hydrogen chloride wet wet; fumes
"
-48
"
100
-48
"
..
6 8
Ashland Helron 197A
"
60 not recommended for use special cure system generally used
Ashland Helron 197 Ashland Hetron 92 Ashland Hetron 197
absorber (water)
8
7
"
8 8 8
8
7 60 60 7 7 49 49 49
8
32
special cure syslem ' generally used
8
32 38
"
Ashland Hetron 197A Reichhoid Allac 797
93 93 149
IhiiHiflhept&feri9dmaleilal
8 8
Ashland Helron 197 Ashland Hetron 197A Ashland Helron 197
8 8 8
93 93 91
thIs Is the preferred material
8
" in air
" dry
"
8
5 5 5 15
.8
15 20
8
'&
100 100
coolers" strippers saturaled
" " concentrated
" 25 25 25 25 50 50 50 50 80 80 80 100 100
Chlorobenzene
vapor" condensate w 1% Hel, 1% HF
" liquid; Irichloromethane
" " vapor
"
" "
"
" "
..
"
"
special cure system generally used
2 2 2
"
Chlorendic Poly
nol recommended for use Ihis is Iheprelerred material
2
in air
Chloroform
.misis Ihe pielefiedmiileliiil
limited service Iile expected; this Is preferred malerial
8
Chloroacetlc Acid
"
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Reichhold Allac 797 Ashland Helren 197 Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron 197
"
"
Chlorine Water
" limited service life expected not recommended for use
6
••
<1 g/l
wet, salurated
Chlorine Gas
Reichhold Allac 797
104 32
8
Ashland Hetron 197 Ashland Hetron 197A
I
2
8
Ashland Hetron 197 Ashland Hetron 197A
.,
199 104 141 141
8 8 8
liquid
Material Note .,
,
6 2 2 8
100 100 100 100
,-,"<
ResIstance Note
54 54
saturated
liquid wet gas
..
.~:.,
..... Max.
Ratfrig Temp. ('C)
dry liquid
Chlorine Dioxide
...
::...::
100 100 100 100 100 0.5 0.5 100 100 100 100 100
32 32
82 82
Ashland Hetren 197 Ashland Helron 197A Ashland Helren 92 Ashland Hetron 197 Ashland Helren 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Helron 197 Ashtand Hetron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A
",
.'
oot recommended for use
2
8
49
"nofiecoriiiiienaedioruse"
,
43 32 32
8 8
71 71 71 63 63
Ashland Hetron 197A Ashland Hetron 92
nOI racommended lor use
2 8
38
2 2
nOI recommanded for use
2
«
2 2
u
2 2 2 2 2
"
2 2 2 2
2 2 2
u
u
"
u
" l
.
"
u
"
8 8
Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197
" " "
u u
" " "
..
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 • Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
© Plastics Design Library
629
Chemical Resistance - Chlorendic Polyester
100 100
Ash land Hetron 92 Reichhold Allac 797
Chlorosulfonic Acid
100 100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
Chlorothene NU
100 100
Ashland Hetron 197 Ashland Hetron 197A
Chlorotoluene (0-)
100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
3 3 5 5 5 5 10 10 10 10
91 91 91 91
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797
107
Ashland Hetron 197
Chromic Acid
saturated .. 2··>
w/16% sulfuric acid
Chromic Acid
wi 16% sulfuric acid intermittent
wi 20% sulfuric acid wi 32% sulfuric acid
vapor
Chromium Sulfate Chromous Sulfate Citric Acid
12.5 15-20 15-20 20 20 20 20 20 20 >20 30 30 30 65
all concentrations saturated
:.,
"
';~" • ;".' ...) 8;, 8 8
s· .
:Ei
93 93 82 82 32 32
66 66 66
"'/~':
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 . . " " .,..... - " " ,. Ashland Hetron 197A liinii~d serVice IIle expected' Ashland Hetron 92 -'.. :::'::':<.~:: - . y,' .: Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
gall ball scouring sol'n
Ashland Hetron 92
monel and nickel; HCI, CuCI2
Ashlend Hetron 197 Ashland Hetron 197A
coal dust scrubber slurry; wi 90% water
Cobalt Nitrate Coffee Copper Chloride
.. ,8 .
.,',.
Ashland Hetron 197 Ashland Hetron 197A Reiehhold AlIae 797
wi lactic acids
Coal
8
68 68 93 93 93 93
saturated
saturated; @ boiling point
Cleaners Cleaning Baths
."s
. '.'., 8
10
Ashland Hetron 197 Ashland Helron 197A .,' Ashland Helron 197-3; . abras. resist.
saturated roasting fumes
Ashland Hetron 197 Ashland Helron 92
all concentrations saturated
Reiehhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
wi 33% silver nitrate
15 15
Copper Cyanide
all concentrations saturated
Reiehhold Allae 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
Copper Nitrate
all concentrations saturated
Reichhold AlIac 797 Ashland Hetron 197
© Plastics Design Library
Chlorendic Poly
630
Chemical Resistance - Chlorendic Polyester
':'i
,.'.' . };;H~'i; ' : : , ' ...../~i ';..\..,....
, .
{; 'i\~';'
"~:
;.IF.·/········
Copper Nitrate Copper Oxychloride Copper Sulfate
.......
"
.
'\" .... }"'\iJ18ag~m Not~·.
........\{.
,\;.::.:
.'.
.:~
60 60 32 60
all concentrations
8 8 8
saturated
8
" "
8
"
wi 28% sulluric acid
" crude acidic
" Cottonseed Oil Cresol Fumes fumes
" Crude Oils
sour
" sour and sweet crude sour or sweet sweet
Cupric Sulfate
"
wi 10% ferric sullate, 10% sulluric acid
" CWT 102 Cyclohexane
8
100 100
8 8
38 38
Ashland Hetron 197 Ashland Hetron 197A
100 100 100
8 8 8
38 38 38
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
100 100
8
32 32
Ashland Hetron 197 Ashland Hetron 197A
100 100
8 8
27 27
100 100 100 100 100 100
·········8/·····
8
99 93 99 99 99 93
10 10
8
82
8
82
Ashland Hetron 197 Ashland Helron 197A
8 8 ;.
52 52
Ashland Hetron 197 Ashland Hetron t97 A
8 8 8
79 79 79
8
60 60 60 60
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron '97 A Ashland Hetron 92 Reichhold Allac 797
5 5 12 12
8
8
8 8
8 8
" 100 100 100 100
Cyclooctadlene Cygon 400 DDT Detergents
insecticide solution
95 95
8
60
"
8 8
38 38 38 38 38 38 38 82 99 93 99
Ashland Hetron 197 Ashland Hetron 197 A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron '97 A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
38 38 71 71 71 54 54 66 66 38 38
Ashland Hetron 197 Ashland Hetron '97A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron t97A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron '97 A
" Ullrawet 60K; biodegradeabte
" Ullrawet 60L; biodegradeable
"
3 5 5 5 100 100 100 100 100 100 100 100 100 100 100
"
8 8
8 8
8 8 8 8
8 8
8 8
~".
"
8
8 8
.......................
"'nofiecommendedfo{use
8'
8
Ullrawet 4505; biodegradeable
38 38
8
8
" "
Ashland Hetron 197 Ashland Hetron 197A
2.5
"
organic pH 10·11
Ashland Helron 197 Ashland Hetron 197A
2· 2 2
'8
"
"
8
"
liquid; biodegradeable
lIot recommended for use·
2 2
organic
" "
" Ashland Hetron 197 Ashland Helron 197A
100 100 100
"
Chlorendic Poly
38 38
Ashland Helron 197 Ashland Hetron t97A Reichhold Allac 797
8
germicidal, concentrated liquid, biodegradable
Detergents
8· 8 8
Ashland Hetron 197 Ashland Hetron 197A
".
100 100
dishwashing liquid, bideg.
pH 8 Cascade; solution
" "
93 121 66 66 49 49
vapor
"
Material Note Ashland Hetron 197A Ashland Hetron 92
,
104 121
8 8 ·8
100 100
wi 5% hycrochloric acid
Resistance Note
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
"
Cyclohexylamine
POL Max. Rating Temp. ('C) 8 8.
"
"
Cresylic Acid
Temp.
.(~) ...•. )('c)
saturated
wi 18% sulluric acid
Corn Syrup
'
, tone;
.;.~.
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
© Plastics Design Library
631
Chemical Resistance - Chlorendic Polyester
lJj;nl
.~.:
,.
, .,
.-
DFR 121
'.'
Reagent Note
I.·.•
. ...
;
Ii,
··Cpnc. ;:.:.:.-:.
.',
(%).
Temp.
POL Max. Rating Temp. ('C)
('C)
Arapahoe Chemicals
8 1-10 1-10 65 65
6.
49 49
8
32
8
vapor 107 107
•limited servlce')ife expected Ashland Hetron 197 ; nol iecommended fo;use . Ashland Hetron 197A Ashland Hetron 92
2 2
Dibutyl Phthalate Dlchloro-4-Aniline (2,6-)
100 100 in 32% HCI
..
Dichloroacetaldehyde
100 100 100
Dichlorobenzene
100 100 100
Dichloroethane
Dlchloroethane (1,2-)
Dichloroethylene
Dlchloropene
Dichlorophenoxyacetic Acid Dlchloropropane
2 2 2
.
..
2 2 2
I
..
.
2 2 6
expected, Ihis Is preferred ,malerial
100
2'
..."
100 100
2
"
2 2
"
..
2
2
..
6 8 . ,",
38 38
100 100 100
8 8 6 6
60 79 79 79
© Plastics Design Library
8
8
.
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
,.
"
100 100
100 100
Ashland Hetron 197 Ashland Hetron 197A
....
Dlcyclopentadiene
'8 8
.
nofiiii;ommiiiidiidfor use
.2 2 2
6 6 8
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
60
2. 2
30 30 100 100 100
.."
"
100 100 100
all concentrations
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797
..
•
1"
..'
. M?'
;/~" ... ' .,..........
.<
43 43 43 43 43 49 49
......
'"
......,
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
" " "
..
2 38 38
•
"
2' 2 2
8
" Ashland Hetron 197A Ashland Hetron 92
.
2
2 dichloropene
..
2 '
2 2
..
'nofiecommerldedfoYusil
2
100 100 100
Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197
" limited service lite
2 2 2
38 38
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
"
100 100 100
dichloropropane
Ashland Hetron 197 Ashland Hetron t 97 A Ashland Hetron 92
<
".
2
49
Ashland Hetron 197 Ashland Hetron 197A
.
Dichloropropene
Diethyl Benzene
Ashland Hetron 197 Ashland Hetron 197A
@irMWM1M~MJpg~M
2 2 2
Diethanolamine
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
l(iMed urvlce life expecte~
100 100 100
Diesel Fuels
'.
2
.,.
100 100 100
Dichlorophenol
32 32
36 36 38
100 100 100 100
Dlchloromethane
6· 8
6
100 100 100 100
Dichlorobenzene (0-)
6 8
77 77
.
"
27 27 27 27
8 8
•
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
•limited serv,ice IIle expected no! recommended. for Ose
6
100 100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
2·
:
Mliterla'l Note
,
6
Dlbromophenol
Dibutyl Ether
Resistance Note
38 38
8
..
DI-Syston Diammonium Phosphate
.
"
'.
..
Ashland Hetron t 97 Ashland Hetron 197A Ashland Helron 197 . Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A
Chlorendic Poly
632
Chemical Resistance - Chlorendic Polyester
,,;ii:\fv- '/;~~~;r';;r!\;t' :: \'~i>:';'. ,"
...'.,'~~i;i::: ~'''"~,>eilY'
~)~.:..:;..
.. ..
.
"'i/>,,( .·i.·i«('
~,
,,:>
Diethyl Ether
Dlethyl Maleate
0~;;; C.", T.mp, '>',DL.
" "'"piy",(i"\ ....;;... ethyl ether
water
..
.
Dlethyl Sulfate Diethylene Glycol
Diethylene Glycol Butyl Ether
diethylene glycol n·butyl ether
.
Diethylene Imide Oxide Diethylenetrlamlne Diglycol Amine
saturated wilh C02 and H2S
.. ..
Diisobutyl Phthalate
"(%),,
',..
100 100 100 100
24 24 24
97 97 97
100 100 100
Dimethyl Morphollne Dimethyl Sulfoxide
10 10
8 8
38 38
100 100 100
2 2,· 2
,
8
8 8
8
30 30 100 100
8 8 32 32
100 100 100
49 49 49
38 38
Ashland Helron 197 Ashland Hetron 197A
66 66
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
.
38 38 32 32
..
'
. ..
.. ,
..
2 2 2 2
... ::}:"
6"'"
.8
." a ;~
2 2 6
'.
in 25% sulfuric acid waste
Dishwashing liqUid Disinfectants
Chlorendic Poly
and cleener; PO 64
..
<16 100 100 100 100 100 100 100
66 24
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A
liiiiiied ServiCe iiieeWeiileif Ashland Hetron 197 Ashland Hetron 197A not recommended lor use Ashland HelTon 92
27 27 54 54
..
limited service IIle expeeled; this Is preferred malerial not recommended for use
2 2 2
Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
.,f'"
not recommended lo~ use
'x . Dinitrobutyl Phenol Dlphenyl Ether Diphenyl Oxide Dipropylene Glycol Dipropylene Glycol Dibenzoate
. not recommended for use'
2' 2 .••. 6"
8
27
Ashland Hetron 197 Ashland Hetron 197A Reichhold AlIac 797
..
2 2
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
not recommended for use
8
Ashland Hetron 197 Ashland Hetron 197A
32 32 38
2 2 2 2
8
,
. .. . .. .. .. . .
2
7.2 7,2
4 4 60 60 60
......
2
8
24 24 24
Ashland Hetron 197 . Ashland Hetron 197A
i
8
24 24 24
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 , Reichhold Allac 797
.
"'2 2 2 2
",>
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Ashland Hetron 197 Ashland Hetron 197A
·0
,
..,
Ashland Helron 197 . Ashland Hetron 197A Ashland Hetron 92
nofiecommendedloi'use
8
50 50
Dlmethylamine
38 38
29 29
132 132 132 132 132 132
·i' ;
.
2 8
0:
..
:;~
8 8
100 100 100 100
Dimethyl Tin Dichloride
... 121 93 121 38
.,
.-
"
.i
8 8 ' 8
100 100
Mate(laJ:N9te . . . ~
;
2" _2,
8
'.
,'..
not recommended lor use
2·
,
_.
-Resistance Note
F .....
2i
100 100 100 100
70 70 70 100 100 100
Dimethyl Formamlde
~.:.
·",,'8
100 100
Dimethyl Acetamide
2~ 2
100 100
100 100 100 100 100 100
~~;
"('c>\; Rating T~mp.('c)
100 100 100
Diisobutylene
••• 'i.
-..
.
'i'
- . i.. !}
.. ..
Ashland Helron 197 Ashland Hetron 197A
..
Ashland Hetron 92 Ashland Helron 197
Ashland Hetron 92
.. .. ..
8
71
8
8
49 49
this Is'the preferred maleiial Ashland Hetron 197 ':, Ashland Helron 197A
6 8
49 49
Ashland Helron 197 Ashland Hetron 197A
8 6 ..
38 38
Ashland Helron 197 Ashland Helron 197A
.
© Plastics Design Library
633
Chemical Resistance - Chlorendic Polyester
Ashland Hetron 197 Ashland Hetron 197A
Dispersant
anionic, blend nonanionic. blend
100 100 100 100
Ashland Hetron 197 , Ashland Hetron 197A Ashland Hetron 197 , Ashland Hetron 197A
oiversey 514
14 oz/gal
Ashland Hetron 197 .: Ashland Hetron 197A
Dlversey 808
5.3 oz/gal
Ashland Hetron 197 . Ashland Hetron 197A
Dlvlnylbenzene Dodecene
Dodecyl Alcohol
trace HCI
all concentrations
Dowclene EC Drain Cleaners
100 100
Ashland Hetron 197 Ashland Hetron 197A
100 100 100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
~:.:.:
..
100 100 100
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
100 100
Ashland Hetron 197 Ashland Hetron 197A
liquid; Spartan Chemical
27 27 27
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Drewfax 260
100 100
Ashland Hetron 197 Ashland Hetron 197A
Drewsperse 732
100 100
Ashland Hetron 197 Ashland Hetron 197A
Drewsperse 735
100 100
Ashland Hetron 197 Ashland Hetron 197A
Drewsperse 738
100 100
Ashland Hetron 197 Ashland Hetron 197A
Drewsperse 741
100 100
Ashland Hetron 197 Ashland Hetron 197A
EDTA
38 38
Ashland Hetron 197 Ashland Hetron 197A
:."
Elvase Emulsifiers Eptam
Ashland Hetron 197 Ashland Hetron 197A oil & grease, alkanolamide type
100 100
monoethanolamine
w/83% methylene chloride, 1% caustic
© Plastics Design Library
saturated
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
54 54 54
Reichhold Allac 797 Ashland Hetron 197
100 100 100 100 100 100 100 100
vapor & condensate
Ethyl Acetoacetate
Ashland Hetron 197 Ashland Hetron 197A 100 100 100
Ether Ethyl Acetate
Ashland Hetron 197 Ashland Hetron 197A
"<,:::.
fresh; 50% ammonium hydroxide
Ethanol Chloride Ethanolamine
Ashland Hetron 197 Ashland Hetron 197A
herbicide; concentrated
Erlonal NW Etchant
Ashland Hetron 197 Ashland Hetron 197A
100 100
16 16 16 100 100 100 100 100
Ashland Hetron 197A 24 24 24
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
49
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AIIac 797 Ashland Hetron 92
,
Ashland Hetron 197 Ashland Hetron 197A
Chlorendic Poly
634
Chemical Resistance - Chlorendic Polyester
lower surt hard. ~an oc'cur, drying can rosl9ro. hard. 50 50 50 95100 lOa
Ethyl Benzene
wi 33% benzene
Ethyl Bromide
66 66 65 38
. .\.:'::.:-tl"'·'
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Reichhold Allac 797
67 67 100 100 100
'
Ashland Hetron 197 Ashland Hetron 197A not recomtneiided lor ose.·· Ashland Hetron 197 .. Ashland Hetron 197A Ashland Hetron 92
:;~.
10 10 10
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
"
.;.\".
Ethyl Chloride
lOa lOa 100
Ethyl Chloroformate
100 100
Ashland Hetron 197 Ashland Hetron 197A
Ethyl Ether
100 lOa 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797
10 10
Ashland Hetron 197 Ashland Hetron 197A
Ethyl Silicate
100 100
Ashtand Hetron 197 Ashland Hetron 197A
Ethyl Sulfate
100 100
Ashland Hetron 197 Ashland Hetron 197A
Ethyl Hexyl Acetate
Ethylene Chloride
wi 85% disobutyl ketone, 5% butyl alcohol
wi 23% lally acids ethylene dichloride
Ethylene Chlorohydrin
Ethylene Diamine Ethylene Dibromide
Ethylene Dichloride Ethylene Glycol
77 77 100 100 100 100
("
66 66
not recofTlfTlonded lOr use
'" .;
"
."
100 lOa lOa 100
wi 30% methyl bromide
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
::-~
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AIIac 797
93 93 93 93
100
24
Ashland Hetron 92
70 70 70 100 100 100
24 24 24
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
..
"
"
".
100 all concentrations
.
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
Ethylene Glycol Butyl Ether
100 lOa
Ashland Hetron 197 Ashland Hetron 197A
Ethylhexyl Phosphate DI-2EVA
lOa
Reichhold Allac 797
Fatty Acid Esters
100 lOa 100
Fatty Acids
Ashland Hetron 197 Ashland Hetron 197A
all concentrations saturated
ethylene chloride
Ferric Chloride
Chlorendic Poly
Ashland Hetfon 197 Ashland Hetron 197A Reichhold Allac 797
ell concentrations mist; wi hydrocarbons saturated
23 23
66 66
Ashland Hetron 197 Ashland Hetfon 197A Ashland Hetron 92 not recommended lor· use . Ashland Hetfon 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197
© Plastics Design Library
635
Chemical Resistance - Chlorendic Polyester
;Tilfup'; ·.J:~l·.·
Ferric Chloride
saturated
wi 18.5% HCI
Ferric Nitrate
Ferric Sulfate
'I,!OL .....··Max. ,•.. '. Rating. !ell)p,('cj
29 29
8, ':
93
8
121
8
82 82
8
all concentrations saturated
8'
all concentrations saturated
8 8 8 8
8
121
93 93 93 93 82 82 82
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Ferrous Chloride
104 104 104 104
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
8 8 8
104
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
8
104 104
8 .8 . "'8
20 20 20
'.' . . 8,.'.
all concentrations saturated
Ferrous Nitrate Ferrous Sulfate
Fertilizers Fish Oils
all concentrations saturated
8 8 8
8
fumes
floor wax polymers
Flue Gases
boiler
171
8
82
8
149 171 82 82 82 177 60
Ashland Hefron 197 Ashiand Hetron 92 Ashland Hetron 197
8 .• 8 8 171 171 <204
-.
8
© Plastics Design Library
49
synth. surf. veil generally used
Ashland Hetron 92 8
,i'
38
.8--
38
8
82 82
8
8
38
,7
8-
82 82
8
82
8
71 71
8
66
8
66
71
fumes, wet
27
Ashland Helron 197 Ashland Hetron 197A
49
saturated
100
service temp,"- Ashland Hetron 197 is the·b·.p: of -,eagent '. Ashland Hetron 197A Ashland Hetron 92
24
25 35 35 35 35
Ashland Hetron 92 Ashland Hetron 197A
re~om. c.on!;
8
8
10 10 10 10 25
Fluosulfonlc Acid
to; use
2
30
100
Ashland Hetron 197A not recomme'nded
8'
30
Fluorine Fluosiliclc Acid
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
60 82
2, 2
10 10 10
and HCI
66
·8
8
Fluoride Salt
93 104
Ashland Hetron 197 Ashland Hetron 197A
8
@ boiling point
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
27 27
garbage incinerator
Fluoborlc Acid
104
,.' 8 8
8 8 8'
boiler coal fired recovery boiler upsets
93
Ashland Hetron 197 Ashland Hetron 197A
chemical incinerator coal fired
recovery boiler upsets wet: wi S02, 02, C02, N2, H20, H2S04, HCI, HF, rust water
93
79 79
and meal exhaust gas
Floor Polish
104 121
Reichhold Atlac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
8 wi 10.5% ammonium sulfate
Ashland Hetron 197A Ashland Helron 92 Ashland Helron 197 Ashland Hetron 197A
2
synth. surf. veil- generally used,
Ashland Helron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
surfacing mat recommanded': Reichhold AIIac 797 synth.surf.. veilglirieiaIlY:: Ashland Hetron 197 -'u'sed!'
".
- Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A not recommended for u~e::·· Ashland Hetron 92 Reichhold Atlac 797 synth, surf•.vell'ilenerally , used
Ashland Helron 197 Ashland Hetron 197A
riotrec&rrirnemle~Jor-use.
Ashland Helron 197
Chlorendic Poly
636
Chemical Resistance - Chlorendic Polyester
I:C\;'>i\" f.leagenf
.,
R.eagent;~6t!!>'< .':
..... '
Fluosulfonic Acid Fly Ash Formaldehyde
.w.,
Cone. Temp.. POL Max. . (%)('C) Rating Temp. ('C) 100 100
27 27
slurry all concentrations phenol, sulluric lumes
8 8 8 ,2 8
93 25 25 25 25-37 25-37 37·44 37-44 50-52
Formic Acid
vapor
50 50 90 90 100 100 100
Fuel Oils
no. 1 and no, 2
Naval MIL-F-859A
Fumigants
8 8
8
il
93 93 93 66 66 66 66 66 66 38 38
Ihls Is the preferred malerial
8 8
8 8
8
32 38 38 32 38 38 38 38 38
8
8 8
8 8,
:8 '8
8'
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A not recommended lor. use"
8 8
8 8
8
2 2 2·
2 phenate based
100 100 100
Furfural
5 5 5 5 50100 100 100
Furfuryl Alcohol Gallic Acid
saturated
Gallotannin Gases Gasoline
Chlorendic Poly
100 100
8 .-
8 8,. :
, ::,8 , 8, '
8 8
>
52 52 32
". ,,'.' Reichhold Allac 797 iiiilieciimiiieiidedliiiuse' Ashland Hetron 197 ; Ashland Helron 197A Ashland Hetron 92 'w Ashland Helron 197 Ashland Hetron 197A .::~ Ashland Helron 92 .
.
2 2
Fungicide
,
.".'
8 8' 8
32 32 32 38
OXidizing
100 100 100
8"
marine
100 100
8 8
32 32 32 27 27
re~om~ended
ior use
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A
38 38 27 27
93 93
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
y"
not
8 8 8
Ashland Hetron 92 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
77 77 77 79 79 79 80
8
Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
. 2:
8
Reichhold Atlac 797 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 , Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197
93 93 93 93 60 60
8 8
soil, concentraled
Ashland Hetron 197 Ashland Helron 197A
,
91 91 91
8
8
concentraled
Ashland Hetron 197A Ashland Helron 92
not recommended lor use
8 8 8
100 100 100 100 100 100 100
not recommen'ded lor use
65
8 ", 8 8 ......
10 10 10 10 10 10 10 25 25 25 50 50
Material Note
32 32
8
50·52 100 100
Formamide
Resistance Note
Ashland Helron 197 Ashland Hetron 197A .'.
Ashland Hetron 197 Ashland Hetron 197A Ashlend Hetron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
© Plastics Design Library
637
Chemical Resistance - Chlorendic Polyester
x:':'
Reag¢nt
I,
:~"'.·'·;.;}i,." ,
"i'
..
"
'~.
",
""
.\:.,
,
~'.:
Glass Cleaners
/"
",
Reagentt(ot~ ...
"
";.;"
'i"
-:~-;:
',-,
"
~:.'
'",.,,, "'","
·~::::"·'·::.,w··
:.{
"
\i~'"",
I'}' ,
i,,(,!,)
('C)
CO~l? TeI11P.
"
POL Rating
ammonia fortilied
" Gluconic Acid
all concentrations
50 50
Glucose
100 100 100 100
Glycerin
100 70 70 100 100 100
in salt; saturated water
"
Glycolic Acid
Glyoxylic Acid
hydrexyacetic acid
wi saturated 502
" "
Resistance Note
TernP; ('C)
Ashland Helron 197 Ashland Hetron 197A
8 8 8
52 52 52
Reichhold AlIac 797 Ashland Hetron 197 Ashland Hetron 197A
8 8 8
82 82 82 82
Ashland Hetron 197 Ashland Hetren 197A Ashland Hetren 92 Reichheld Allac 797
93 116 116 93 93 93
Ashiand Hetren 197 Ashland Hetren 197A Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 92
8
8
a
"
60 60 60 60 38 38 49
8 8
a 8 8 8
Reichheld AtJac 797 Ashland Hetren 197 Ashland Hetren 197A Ashland Hetron 92 Ashland Hetren 197 ' Ashland Hetren 197A Ashland Hetren 92 net recemmended for USe
2 2
2'
"
"
" n
2 2 2' '
Golden-Glo
8 8
Green Liquor
2 2
, 38 38
Gypsum
n
slurry; w/l% H3P04, trace HF
" Halso 99 Helium Heptane
a
38
8
38
liquid
100
a
-269
100 100 100 100 100
8" 8 8 8 8
93 32 49 49 49
100
8
93
liquid
1,10
8 8 8 8 8
n
1-10
49 49 38 38 49 49
100 100 100 100 100 100 100
82 82 32 32 32 93 93 27 93
n
Eptam; cencentrated n
pewder and fumes
"
Hexachlorocyclopentadlene
aa
nermal
n
Heptane (n-) Herbicides
8"
crude
" high purity n
"
Hexamethylenetetramine Hexane
© Plastics Design Library
28 28 28 100 100
8 8 8 8 8 8 8 8
8
....,.-
8 8,,::, 8
synth, suil, veil generally " used
Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 92 Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 197
"
Ashland Hetren 197A
not recemmended ler use
Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 92
"
"
ne sunace veil
Ashland Hetren 31 Ashland Hetren 197 Ashland Hetren 92 Ashland Hetren 197 Ashiand Hetren 197A Ashland Hetren 92 Reichheld Atlac 797
"
'
selutien may disc,olor u
/
Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 197 Ashland Hetren 197A Ashland Hetron 197 Ashland Hetren 197A Ashland Hetren 197 Ashland Hetren 197A Ashland Hetren 92 Ashland Hetren 197 Ashland Hetren 197A Ashland Hetron 92 Reichheld Allac 797 Ashland Hetren 197 ' Ashland Hetren 197A Ashland Hetron 92
27 27 27 71 71
Ashland Hetren 197 , Ashland Hetren 197A Ashland Hetren 92 Ashiand Hetren 197 Ashland Hetren 197A Ashland Hetren 92 Ashland Hetren 197 Ashland Hetren 197A
"
88
2 2 2
n
"
,n
a
100 100 100
vaper and cendensate
"
not recemmended fer use
2 slurry ceeler; fertilizer plant
Mater!al N9te,
38 38
8 8 8 8
102 102 102 102 102 102
'"M~i.
8 8
8
35 35 35 35 70 70 70 25 25 25 25 25 25
,
,
'i','
Ashland Hetren 197 Ashland Hetren 197A
Chlorendic Poly
638
Chemical Resistance - Chlorendic Polyester
Resistance Nole Hexylene Glycol Ammonium Chloride
8:
49 49 49
8~
Hydraulic Fluids
Ashland Skydrol 500
Hydrazlne
8, 8
lOa lOa lOa
:.:.
'8
10 10 70 70 70
8 8, 2 2 2 8
lOa
Hydrobromic Acid
fumes
Hydrocarbons Hydrochloric
1.1 1.1
121 71 71
93 93 93 93 93 93 93 93 143
2
not recommended lor use,
'8 '
121
8
71
8
71 93
8
wi 45% sulluric acid with 45% sulluric acid wi saturated ferrous chtoride
Hydrochloric Acid
w/5% nitric acid wi 50% acetic
with 5% nitric acid
wi silicone oils
wi 2,6'dichlor-4-nitroaniline
vapor
wi trace organics
"
Chlorendic Poly
49
8
8
49 110 93 110 110 60 60 60 116
IS IS
2 8
110
15 IS 18
8
8 8 8 8 '8 8 8
Ashland Hetron 197
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
8 8 ,8 8
;'8 8
~:.
99 32 32 32 99 110
20 20 21 21 25 32 32 32
93 110 91 91 82 77 77 82
32 32 >32 36 36
82 29 66
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 syoth surf, veil generally' Ashland Hetron 197 , "'used'
..
synth, surf. veil genarally used not recommended for use synth, surf. veil generally use,d
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797
93 110 110
8 8
20 20 20 20 20 20
Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetrori 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
not recommended for use
10 10 10 10 10 10 10 10 10 14 14 14 15
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
synth, surf. veil generally used
93 107
wi 30% fluoride salts
Ashland Hetron 197A
38 38
lumes
wi 20% phenol, 70% water
Ashland Hetron 197
38
'8 143
this is the preferred material, Ashland Hetron 197 ' u Ashland Hetron 197A Ashland Hetron 92
not recommended, for use
8 8 8 8 8 8 8 8
wi ferric chloride mist wi ammonium thiocyanate wi", % amine
Hydrochloric Acid
18 18 18 25 25 48 48 48 100 100
at
Materlal,Note
Ashland Hetron 197
:::,
synth, sur.f. veil,gener~lIy used
synth, surf. veil'generally" used ,'"
Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
not recommended'for use Ashland Hetron 197 Ashland Hetron 197A
© Plastics Design Library
639
Chemical Resistance - Chlorendic Polyester
36 36 36-37 36·37 36·37 37
32%; w/l% chlorinated organics
Hydrocyanic Acid
99 99
all concentrations saturated
40 40
Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797 Ash land Hetron 197 Ashland Hetron 197A Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Hydrofluoric Acid wi 7.5% nitric acid
1 2.5
Reichhold Atlac 797 Ashland Hetron 197
wi 20% nitric acid
2.5 2-3 2·3 5 5 5 5 5 10
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197
10 10 15 15 15
Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
wi 15% nitric acid wi 50% nitric acid
Hydrofluoric Acid wi 50% stannous fluoride wi 12% nitric acid
Hydrofluosiliclc Acid
Hydrogen
Hydrogen Bromide Hydrogen Chloride
20 20 20 24 24 24 40
Reichhold Atlac 797 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197
40
Ashland Hetron 197A
10 10 10 10 35
Ashland Hetron 197 Ashland Hetron 197A Ash land Hetron 92 Reichhold Atlac 797 Ashland Hetron 197
35 35 35
Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797
100 100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797
wi ozone
dry
100
fumes steam fumes absorber anhydrous
gas gas, dry gas, wet
© Plastics Design Library
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
and benzene vapors
36 100 100 100 100 100 100 100
Ashland Hetron 197A Ashland Hetron 197
Chlorendic Poly
640
Chemical Resistance - Chlorendic Polyester :.;;
'.,
POL"Max. Rating Temp. ('C)
Re;agent I.·,·,.
Hydrogen Chloride Hydrogen Fluoride
gas, wet wet
vapor
gas wet
Hydrogen Iodide
vapors
8
49 49
12
8
71
12 12 35 35 35 100 100
8 8 "., 8
71 32 35 35 35 71 32
Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 surfeclng mat recommended Reichhold Allac 797 synth. surf. yell9~nerally Ashland Hetron 92 used
8 8
66 66 66
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
1.5 1.5 5
8 8 8, 8
32 32 32 99
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197
5 5 30 35
2 8 8 8
99 43 41
35 35
2 8
41
50 50 50
8
60
2
8 8' 7 8
8
1.5
50 50 50
Hydrogen Sulfide
all concentrations
wet,lumes gas
Hydroxyacetic Acid
hydroxylammonium acid sulfate
Hydroxylammonium Acid Sulfate
HAS: wI 75% H2S04, 14% water HAS; wI 60% H2S04, 20% water wll% propionic acid, 10% water
wI 10% Sulfuric Acid hydroxylamine acid sullate
Hydroxysuccinlc Acid Hypochlorous Acid
5 100
35 35 35 70 70 70
Hydroxylamine Acid Sulfate
90 90 11 11 20 20 89 89 86·90 86·90 90 90 10 10
8
38
8
38
2 8
38
8 8 8 8 8 8 8 8 '8 8 8 ;8 8 8i: 8 8
~
;
8... , " 8\/
..,'It·,· 8
8 8 8 8 8 8
>-
8 'T
concentrated
8 10 10 10 20 20 20
Chlorendic Poly
Note
8
wi iodine vapor
wI 95% acetic
Ma~erlal
100 100
,.
Hydrogen Peroxide
Resistance Note
.-
8 8 8
..8"" '8 8~ 8
.;
\
Ashland Hetron 197A Ashland Hetron 92 synth. surf veil generally 'used .
hyd, perox, suppliers mu~t approve meterlals not recommended for use
Ashland Hetron 197
Ashland Hetron 197A Reichhold Allac 797
llyd,perox,supplieismtiw" Ashland Hetron 197 approve meterlals Ashland Hetron 197A nol recomm.ended lor use Ashland Helron 92 hyd, perox, suppliers must approve.melerials Ashland Hetron 197 Ashland Hetron 197A not recommended lor use hyd. perox, suppliers must, Ashland Hetron 92 appi~ve meterlels Ashland Hetron 197 Ashland Hetron 197A not recommended for use hyd. perox. suppliers must' Ashland Heiron 92 epprove materiels
121 93 121 66 121 121
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
60 60 60 38 38 49
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
99 93 38 38 38 38 79 79 82 82 99 93 35 35 32 32 32 41 41 41 32 32 32
Ashland Hetron 197 Ashland Hetron 197A
Reichhold Atlac 797
'soiulloniriiiyaiscoioi' .~:'.
II
."
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A
~.;
..
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
© Plastics Design Library
641
Chemical Resistance - Chlorendic Polyester
15i~~,"~j,"'~; "
...j
I;i~ii~;~~'i:~i;k\>
,.}.,
,:
;j~>;j' i ~(:';:':,
.....
-. 'ii'
. ..
, "
..
'~.'
'
/')}lY
."
..,.,
'.'//:i :~,
)",
.
Cone. Temp.
."(%)"
Igepal C0630
50 50
8 8
100 100
8 8
41 41
'8 8
66 66 66 49 49 79 79 79
wI hydrogen iodide vapor
"
8 8 8 8.
" " "
IrgasolOA
Isodecyl Alcohol
100 100 100
8 ..
20
Itaconic Acid
8 8 8 ... ,
"
8
"
8 10 100
8'
100 100
8
8 8
Kerosine " "
100 100 100
resin solution
"
8 8.
Lauryl Mercaptan Lauryl Pyrldinlum Chloride all concentrations
"
" "
© Plastics Design Library
'","
:~
",."~"",,.,.,..,., 8
8 8 8
49 49
10 10
8 8 '8
8
8
slurry; saturaled
8
"
8
. N•
~.
solullo", m'ay discolor
..,;::;: .~' .
.,';.
<
,.
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 not recom/llended for use' : Ashland Hetron 197A
',,,
"
Ashland Hetron 197 Ashland Hetron 197A
... :~
'.' "
,
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 . Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A
68 68
;:,'
Ashland Hetron \ 97 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
71 71 71 71 82 82
Ashland Hetron 197 ' Ashland Helron 197A
.,
49 49
100 100
8
Ashland Hetron 197 Ashland Hetron 197A
.
. . ,.
"
8
:\,."
.,:
2 .2,
8 8
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
99 93 99 93
100 100 100 100
...""
Ashland Hetron 197 Ashland Hetron 197A
27 27
"
" "
_. Ashland Helron 197A
32 32
8
crude, acidic
"
49 49 79 79 79
49 49
100 100
Ashland Helron 92
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
,8 8
60 60
".
Ashland Hetron 197
8' 8
8',
~.
71 71 32
8
100 100 100 100
~
Ashland Hetron \ 97 Ashland Hetron 197A Reichhold Allac 797
" 1·10 1·10
-~
66 66 65
saturated; wI citric acids herbicide
Ashland Hetron 197 Ashland Hetron 197A
,. "
Ashland Hetron 197 Ashland Hetron 197A
93 93 93 93 71 71
"
,
.
32 32
8 ,8 8
Lauryl Alcohol
Lime
8
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
,.
;:':~
32 32
" "
Lasso EC
Lead Acetate
8
all concentrations
"
Lauryl Chloride
8 8
30·40 30·40
Ashland Hetron 197 . Ashland Hetron 197A
80 49
8 8
100 100 100
Lasso
8
8 vapor and condensale
...," Ashland Helron 197A
27 27
.8
Material Note Ashland Hetron 197
,.
35 38 38 35 35
8 8 8
"
46 46
32 32
8
all concentrations
Kaolin Slurry
Lactic Acid
••
8
10 10 25 25
Kymene
T
,8
all concentrations
Resistance Note
60
8
100 100
Isopropyl Amine
:..
·8
"
Isopropyl Alcohol
"
8
100 100
Iron Perchlorlde Isocure 306
~
8
" wI kerosine, brine vapor
,.
POL ," Max. Rating ,Temp. ('C)
('c).
~
Hypophosphorous Acid
Iodine
".,
.
Ashland Hetron 197 Ashland Helron 197A
Chlorendic Poly
642
Chemical Resistance - Chlorendic Polyester ,,)t
~":~~;'~l~;ii!ti!~l!l~r~~'" .;.;....
'::;:;:{.::;
.',
. , , ' , . ) g ' ... :;~'~« . ",;,i;
\··//f;·;".
Lime Linseed 011
~'.
',,', '
..
~~.
.."
.... }<
"'i
".
{., ..
.............
-~
.
,\".",.,
~;:
"y;"'"
,
','
.;Y,;'" , ;!;c6nc.Tem p. POL . ; Max. '.' Rating Temp~('c}
slurry; saturated thiosorbic; saturated
'8 8 8
" all concentrations chlorinated
8 8 8 8
8 8 8
all concentrations saturated
8 2
"
Lithium Hydroxide
" " " " wi 75% melhyl alcohol
25
8
"
25 28-40 0-45 0-45 45-55 45·55 45·55
8 8
8
8 8 8
,
saturated
Magnesium Chloride
Magnesium Oxide Magnesium Sulfate
not recommended for use
8". 2 2 2
low.r surf. hard. can occur, drying can reSlor. hard.
38 141 121 121 60 60 60
Ashland Helron 197A Ashland Hetron 197
"
"
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197
" Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Helron 92 not recommended fo'r use
" "
Ashland Helron 197 Ashland Hetron 197A Ashiand Hetron 92 Reichhold Allac 797
8
" "
8 8
71 71 71
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
all concentrations saturated
8 8·
104 104
" "
8
8
93 104
Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
"
8 8
66 66
Ashland Hetron 197 Ashland Hetron 197A
8 8
"
.
all concentrations saluraled
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Helron 92
"
8
93 93 93 93
all concentrations saturated
8 8 8 8
93 93 93 93
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
35 35
Ashland Hetron 197 Ashland Hetron 197A
wi 10% sulfuric acid
"
8
with 10% sulfuric acid
10 10
8 8
90 90 90
8 8
,
8.
Melamine Resins
8
Mercaptan
~ . .. 8 ....
aromatic
"
100 100
8
saturated
8
"
8
" " "
8 8 8 8 8
" " "
8
Mercury
8
:a
100 100 100
Methacrylic Acid glacial
Chlorendic Poly
Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
saturated
"
Mercurous Chloride
82 82 82
82
Malic Acid
Mercuric Chloride
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
8
"
Manganese Sulfate
93 32 32 93 93 66
all concentrations
" Maleic Acid
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
71 71 71 38
8 8
" Materlai Note
82 66 66
'"
a
" "
Magnesium Bisulfite Magnesium Carbonate
....
8 100 100 100
Lithium Chloride
Resistance Note
. ( % ) '('~)
"
Lithium Carbonate
.
;
10 10 100
'8 8 8 ~; ,
B 8
"
38 38 38 27 27
Ashiand Hetron 197 AShland Helron 197A Reichhold Allac 797
.. ' ..
Ashland Helron 197 Ashland Hetron 197A
,
....
.'
".,
27 27
;
Ashland Hetron 197 Ashland Hetron 197A
..
99 93 99 99
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
99 93 99 99
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold AlIac 797
.
121 121 93 121 38 38 32
"
,
.,
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 197
© Plastics Design Library
643
Chemical Resistance - Chlorendic Polyester Ii
'R,~~9;~P'!, :«:.;.~:._::..,
:.:.:.:.:: "::..::~;.'
.;.,.,
':.:.
,.
.i'"
Reslstan'ceNote . 'Material Note'
-':;,
Methacrylic Acid
glacial
Methallyl Chloride Methanamide Methyl Acrylamide Methyl Alcohol
100 100 100 100 100 100 100 100
e,.,.,.' 63 63 63
...
74 74
wI 70% elhylene dibromide
Methyl Chloride Methyl Chloroform Methyl Ethyl Ketone Methyl Isobutyl Ketone Methyl Phenol
fumes
Methyl Styrene Methylene Bisthiocyanate
polychlorophenol blend
Methylene Chloride
wI 5% chloroacelic acid
30 30 30
100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100
100 100 100
Naphthalene
100
Naphthoquinone Naphthoquinone (1,4-)
scrubbing with waler
Naphthylamlne Sulfonic Acid Neopentyl Glycol Nickel Chloride
© Plastics Design Library
all concenlrations saturated
,
Ashland Hetron 197A Ashland Helron 92
,.
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92
noliecofflffleildei(IMus8 .:::~::
2 2
e e e
"
2 " 2 2
"
4 4 4
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
27 27
Ashland Hetron 197 Ashland Helron 197A nofiecom'meriMdloi t\se
.,
;
e e
, 52 52
;
27 27
2 2 2
';;"
.. ' " nOI (eeommended for US8...
",,:.,,;
.....
Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
".,.,6., 2
limited service lifeli~p@t8l!. not reeo'mmended for use
Ashland Hetron 197 Ashland Halron 197A
2 2
"
Ashland Helron 92 Ashland Hetron 197 Ashland Helron 197A
2 2
Ashland Helron 92 Reichhold Allae 797
2
e e e
38 38
Ashland Helron 197 Ashland Helron 197A
32
Ashland Helron 197
8 8
104 93 32 38
\.'S .,.8
Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 not recommended. for use Ashland Hetron 197A '., Ashland Helron 92 Ashland Helron 197 Ashland Hetton 197A •••• Ashland Helron 92 '~:" Reichhold Allac 797 ,.,., . . '.:"~-'..
2 2
2. ::.
8',.,
93 93 93 93
8 8 8
32 32 32
8 8
66 66
8 8
~
;
.
8
Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
".
38 38
8 8; 49 49 49
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A
e
90 90
Reiehhold Allae 797 Ashland Helron 197
<~~~iY,hsdgiiRJ~~lgre~~aCi~#r.
2'
'
,
! ',',
"
,..
,."
' "
.8
saturated
Ashland Hetron 197 Ashland Helron 197A
.~.
I
2 2
10 10
100
Ashiand Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A
38 32
8
48
Naphtha
32 32 52 38
8
90
100 100 100 100 100
'.
8 24 24 24
,
38 38
8
100 100 100 100
Morphollne
.,
8
25 25
Methylol Acrylamide Mineral Oils
lffflileihiliYicelifililxpilcied not recommended for US8
8'
100 100 100 100
Methylene Succinic Acid
...................... " , ........................
6 2
8
100 100
Methyl Bromide
~
8
100 100
Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
:.:.'
not ;e~~~m~nded for use
'2
8 8,'
48 48 melhanol
32
2
.,'.
66 66
..,8
43
:f;.:. .8
e
66 66
8 8
104 104
...
;
,
Ashland Hetron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A
.".,., .,.
Ashland Helron 197 Ashland Hetron 197A
...
Reichhold Allae 797 Ashland Helron 197
Chlorendic Poly
644
Chemical Resistance - Chlorendic Polyester
"
POL. Max. R,atlng Temp. ('C)
,.".
Nickel Chloride Nickel Nitrate
saturated
Resistance Note
Material Note Ashland Hetron 197A Ashland Helron 92
8
'8' all concentrations saturated
8 8
Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
,.;'8' 8
Nickel Sulfate
all concentrations
8
.<;
saturated
Nicotinic Acid Nitrating Acid
8, 8';;' ','
Niacin; all concentrations spent
strong
Nitric Acid
red fuming
100 100 100
24 24 24
fumes fumes; wI ammonia vapor and condensate wi 20% hydrochloric acid wi 20% sulfuric acid with 20% hydrochloric acid
wi 20% sulfuric acid with 5% hydrofluoric acid wi 10% hydrochloric acid
wi 24% hydrofluoric acid
wi 15% sulfuric acid
Nitric Acid
wi 2-3% hydrofluoric acid
vapor
wi 5% hydrofluoric acid
vapor
Nitrogen
wi 50% oxygen liquid
Nltromethane
Chlorendic Poly
5 5 5 5 5 5 5 5 5 5 8 10 10 10 10 10 12 12 12 15 IS 15
8 2 2 8 2 2 2 2 2' 8 8 8 8, 8 8 8 8 8 8
8 99
8 2 .... 8 8 8, 8
27 27 27
8 8 2 2,
Reichhold Allac 797 not recommended for use 27 not recommended for use
99 99 99 93 99 99 74 93 93 93 93 60
82 82 93
20
8
57
20 20 20 20 35 35 40 40 50 50 50 50 50 50 50 60
8 '8
57
50 50 100 100 100 100
8",;,
6, 8
8 8' 2 8 49 49 49
60 60 60 60 60 60 60 60 60
:,,'''2
2,>,' 2
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797 Ashiand Hetron 197 Ashland Helron 197A Ashland Hetron 197 ' Ashland Hetron 197A Ashland Helron 197 synth. surf, veil gene!ally used "
93 49 49 82 82 99
2 8 8 8
66
Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797 not recommended-for use, Ashland Hetron 197A ,>:" Reichhold Atiac 797 ';thlsls~he:;preterred;malellali Ashland Helron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 not'recommended lor use Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 synlh. surf, veil genefally used
Ashland Hetron 197
Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 limited service life expecled Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 , Ashland Helron 197A " 'nOI reCOm!'lended ior use,', Ashland Hetron 92 .".'. :::: Reichhold Allac 797 ,'. . not foitse'.,::, Ashland Helron 197 ." ..::~ Ashland Hetron 197A Ashland Hetron 92
lecom~~;;d~d
8
35
8 8 8'
29 29
6> 8 8
-196
Ashland Hetron 197 Ashland Hetron t97A Ashland Hetron 31 Ashland Hetron 92
32 32
Ashland Hetron 197 Ashland Hetron 197A
c'-'"
'satisfaclory; no suitace velf
© Plastics Design Library
645
Chemical Resistance - Chlorendic Polyester K
.,1 .. <'i,·
!!~li~~~t
. itt ~:
. Conc. Temp. POL .Ma~.·t ('M .. ('C) Rating Temp. ('C)
:
Nltrotoluene Sulfonic Acid (po)
24 24 24
Nitrous Acid
10 10 10
Nonandioic Acid
Nut Oil Octanoic Acid Oils Oleic Acid
ethoxylated
a .•• 6
a
32 32
ground
a
100 100 100 100
6'
all concentrations
3 fuming sulluric
sewage treatment
Palmitic Acid Parathion Perchlorlc Acid
Perchloroethylene
Petroleum Ether Petroleum 011 Phenol
and waxes; water emulsion
50 50
6 6 ' 6
~
93 93 93 93
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
e
60 .not recommended lor use
•
e
1.52,5 1.52.5 3 3 3 3
Ashland Hetron t 97
~:'" ~.
;."
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797
29 29
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
6
36
a
60
6
60
Ashland Helron 197A
8
36 36 36
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashiand Hetron 197A
e 6· 6
38 60 60
5
6
29
10 10-30 30
8 8
29 29 29
<70
6
29
100 100 100 100 100 100 100 100 100 100
6 8
49 49 49 49
a
e
49 49 49
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 '"' Ashland Hetron 197A Ashland Hetron 92
104 93 104 104
6 6
6 6 8
38 38
e
32
6 .• 2 2
Reichhold Allac 797 expos. ot'perchlorfc :acld to' Ashland Hetron 197 0iganiC$oan!ie danqefous :j:))j;:::;:jItW)~.
Reichhold Allac 797 Ashland Hetron 197 Ashiand Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 limited service life expected' Ashland Helron 197 Ashland Hetron 197A 'noi recommended tor ~se Ashland Hetron 92
6
1 1
6 6
60 60
Ashland Hatron 197 Ashland Hetron 197A
8... 6 6
43 43
38
e
36
Ashland Hetron 197 Ashiand Hetron 197A Raichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
10 10 10
6
..
Ashland Hetron 92
100
fumes carbolic acid
© Plastics Design Library
Ashland Hetron 197 . . . . . Ashland Hetron t 97 A
6 6 6 .6 6
saturated wet
Perclene vapor & condensate
Ashland Hetron 92
60 60 60
all concentrations
wI hydrogen wI oxygen, wet
.,.. "
2
100
Ozone
Ashland Hetron 197 Ashland Hetron 197A .•thi~)slheprefeueo •••m!'t8lia( Ashland Hetron 197 ..... u' . . ' Ashland Hetron 197A
99 93
100 100 100
nitrogen
Ashland Hetron 197 , Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A
2 2 2
fuming sulfuric acid
Oxygen
.... ............
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
60 60
sweet crude
Olive 011 Oxalic Acid
60
6 6 6
saturated
100 100 100
Oleoparathlon Oleum
36 36 36 36
6 6
100
Ashland Helron 197 Ashland Hetron 197A .!!PH~8!1mm~!!9~.9J~r ~se.
32 32 32
6
Nonyl Phenol
. . MaterlaJ'Note'~;
93 93
6 6 2 8
saturated
Reslsta~ce Note
••
32
38
Chlorendic Poly
646
Chemical Resistance - Chlorendic Polyester ,.'
~._J
..
.
".,,'
~
,.
,
,
I>'
,.,:.,,.
('C)
2
100 100 100
2'
Ashland Helron 197 Ashland Hetron 197A
25 25 wet process; concentrated
wi 50% sulfuric (93%)
" vapor and condensate wi 4% nitric acid
"
10
w/5% nitric acid vapor
32 32
8
32
8,
91
8
91
8
38 38
-< :~
10
8~
,8., 8 8 2 8
149
80 80
8 8
52 52
80 85
8
8
121 121
85 95
71
. .-.'J
/:
:~"
,
..
Ashland Hetron 197A Ashland Hetron 197
"".
<
Ashland Hetron 197A
..
Ashland Hetron 197
.,
.., Ashland Helron 197A >Ashland Hetron 197 Ashland Hetron 92 nol recommended for use Ashland Hetron 197 .,'
.
" Ashland Hetron 197A Reichhold Allac 797
., '.
.>:
8
93
8:
93
wi I ,2% hydrochloric acid
70
8
82
"
70
'8.
82
100
8
71
100
B
71
100 100
8
8
100
2
Ashland Hetron 197 Ashland Hetron 197A
•.
<:
.v
Ashland Hetron 92 Ashland Hetron 197
.-
93
95
Ashland Helron 92 Ashland Hetron 197
93 104
8 8 8
95
Phosphorous Trichloride Phosphorus Oxychloride
Ashland Hetron 197 Ashlend Helron 197A
, '
71 71 71
" " Phosphorous Sesqulsulfide
":;::.-
,.
.,~;
.
",.
,
..,:
Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197
." Ashland Hetron 197A ",}",
Ashland Hetron 197
i :-
.,.,"
>.
Ashland Hetron 197A Reichhold Allac 797
2
w/lrace fluorine
27 27
8 100 100 100
."
8
27
moderatelyalkaline
8·..-·
"
8·
27 27
aluminum hardening
8
27
"
8
27 27 27 27
. '8 8
chromium hardening
8"
"
e 8
27 27
8';':
27
acid rinse
8
32
"
8
32 27 27
8 8
8 8
stop baths
" saluraled
8
"
8'
gold; sulfuric
" alcoholic
"
" "
i ;'
100
8:. ~/ 8:-,.
25 25
8
10 10
8
10 10
8 8
"
"
Ashland Hetron 197A Ashland Hetron 197 Hetron 197A ,: Ashland Ashland Hetron 92
·
2
"
"
Ashland Hetron 197
M
27
processing chemicals
Ashland Helron 92
synth, surf. vefl generalfy used not recommended tor use
8
"
Ashland Hetron 197A
not recommenqed 10r.us8 .-,'.
29
2 2'
color
aluminum hardening, rapid
,:- Ashland Hetron 197
·
29
8
" Phosphorus Trichloride
Chlorendic Poly
8
8
20 20 50 50 70
85
Picric Acid
, Ashland Helron 197A Ashland Hetron 92
"
32
(85%):
Pickling Solutions
.~'
32
"
Phthalic Anhydride
·
2
Ashland Helron 92 Ashland Hetron 197
8
"
Photographic Solutions
lor.. use:
8
wi 10% sulluric acid
Photographic Fixing Baths
recomm~ndild :.,.... u.::
2 ..
"
Photographic Developers
,. not
"
wi 25% calcium chloride
Phosphorus Pentoxide
'.'
Material Note'
Rating Temp. ('CI
10
25
Phosphorous Acid
"
Resistance Note
urea modified; pH 7,8
Phosphate Salts
Phosphoric Acid
.:,.
' Cone. Temp•. POL 'I., '. Ma·x. '., (%)
,.
Phenol
Phenolic Resins
" .
,
Reagent Note
·1"·' . ~
,. ..
..~.
"~-':.,
Reagent .-
,.
8 ,<
,
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
"
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
.;
., Ashland Hetron 197
,-
:/t
Ashland Hetron 197A
~
27 27
..
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
., '" ..:.,-... -....., ..., ..,. J'~:"'"
38 38 38
"'J'
Ashland Hetron 197 Ashland Hetron 197A
.::;>;':~>:;,,:::; •
93
~:;
;'.,
•••
J.
•• '
J.~ •
Ashland Helron 92 Reichhold Allac 797
. "~;-:-N:.":;' .
38 38 38 38
Ashland Hetron 197 Ashland Helron 197A
,.:
66 66
8'"
Ashland Hetron 197 . Ashland Hetron 197A
.'.
:'':'.
:{,
..
,.
Ashland Helron 197 ,Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
© Plastics Design Library
647
Chemical Resistance - Chlorendic Polyester :"~
.
':..:.
, Reagent
? {"
Reagent Note
.
);;' Cone; Temp. (~l
Plating Baths
POL Max. '. Resistance Note Rating Temp. ('C)
'('C)
chrome acid; vapor
8 .8.' .
" Plating Solutions
brass
8 8 2.
" cadmium cyanide chrome chrome bath
copper cyanide; lumes
8 2 8 8 8
"
8
copper matte dipping bath
8 8 8
" " chrome, hard
"
" Plating Solutions
copper plating
"
Iron plating
"
lead lead plating, alkaline
" " nickel nickel plate
" nickel plating
" nickel, bright
" Plating Solutions
silver plating
" tin fluoborate
zinc cyanide bath
" " zinc f1uoborate copper cyanide bath
82 82 82
" " Plus 5 Polyacrylamide Polyvinyl Alcohol
pH 12
40
wi 8% phosphoric acid
92 92
"
100 100 100
Polyvinyl Acetate
emulsion
" " Polyvinyl Alcohol Potash Mine Fumes Potassium Alum Potassium Aluminum Sulfate
all concentrations
" all concentrations
" " salurated
" Potassium Bicarbonate
© Plastics Design Library
" 10 10
8 8 8 8 8 8 8 8 8 8 8 8 8 8 ,8.. 8 8 8 ,8 8 8
Ashland Hetron 197 Ashland Hetron 197A
" synth. surl. veil generally used
93
"
not recommended tor use 54 54
82 82 82 82 82
,
,.
.
"s\'ntti suif. veilgenerlliiy used
82 93 93 93 82 82 93
"
nol recommended lor use
"
"
99 66 66 93 93 82 82
not recommended lor use
" synth. surl. veil generally . used
93 93 93
8 7 2 2 2 7 2: 2 2
" "
93 -7 82 82
93 93
8 8 8 8 8 8 8 2 2 2 8 8 8 8 8 8 8 2 2 8
" gold gold plating
Material Note
.not recomlTlended lor use
2 8 8
"
"
:surtacing:matrecommended: not recommended lor use
" 93
"
surlaclng mal recommended ,not recommended lo.r use U -'.
"
,.,.
1
38 38 27 32 32 27 27 27 38 38 38 27 32 99 93 93 82 82 66 32 32
,,".
this 1$ Ihe preferred. material
'."".'.'
Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold AIIac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
Ashland Helron 197
"
,
Ashland Hetron t97A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
..
".
'.: . '.',
;
Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A
',:
l
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197
<,.,,;.,
.:"
.
Reichhold Allac 797 Ashland Hetron 92 Ashland Helron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197 Ashland Hetron t97A
Chlorendic Poly
648
Chemical Resistance - Chlorendic Polyester
Potassium Carbonate
all concentralions saluraled
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AIIac 797 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
10 10 10 10
25 25 25
Potassium Chloride
all concenlralions
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Atlac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
mercury grade; saluraled wet vapor
Potassium Dichromate
all concentralions
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92 Reichhold Atlac 797
saturated
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
Potassium Ferrocyanlde
Potassium Fluoride
Ashland Hetron 197 Ashland Hetron 197A
Potassium Hydroxide
10 10 10
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
25 25 45 45 45 50 50
Potassium Nitrate
93 93
all concentrations
Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797
Potassium Permanganate
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Reiehhold Allae 797
Potassium Persulfate
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Reiehhold Allae 797
Potassium Pyrophosphate Potassium Sulfate
100 100
Ashland Helron 197 Ashland Helron 197A Ashland Helron 197
all concenlralions
~;'<."""" •..• ,:,"":; Ashland Hetron 197A Ashland Helron 92 Reiehhold Allac 797
Propionic Acid
Propionyl Chloride
Chlorendic Poly
1 1 1 80 80 80
49 49 49
Ashland Hetron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Hetron 197A Ashland Helron 92
100 100 100
38 38 38
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92
© Plastics Design Library
649
Chemical Resistance - Chlorendic Polyester
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atlac 797
Pulp
bleached
Ashland Hetron 197 Ashiand Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
stock; chlorinated, pH 4.5
Pyridine
100 100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
Rayon
spinning fumes
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Rayon Coagulatin Bath Rayon Spin Bath
rayon spin bath
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 92
fumes
Red Liquor Rhodium
ammonium based
Ashland Hetron 197
plating; phosphate Ashland Hetron 197A
RJ·4 Fuel Sea Water
100 100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
desalination; pH 7.5; normal cone.
Septic System Sewage
Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
anaerobic
municipal; treated &untreated
treatment
liquid
100 100
Ashland Hetron 197 Ashland Hetron 197A
Silicone Oils
wi 21 % hydrochloric acid
79 79
Ashland Hetron 197 Ashland Hetron 197A
Sliver Nitrate
all concentrations
Shampoo
copper chloride
Skydrol500 Slimlcide
hydraulic fluid organotin amine blend thiocyanate polychlorophenol blend
Soaps
33 33 100 100 100 100 100 100
Sodium Acetate
52 52
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
sodium carbonate thickener fumes
all concentrations 100 100 100
© Plastics Design Library
Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
solution solution; Sani·Fresh
Soda Ash
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Chlorendic Poly
650
Chemical Resistance - Chlorendic Polyester
POL ,;Max. . Fl~slstanc8 Rating Temp. ('cr Sodium Acid Sulfite Sodium Alkyl Arylsulfonates
15 15 all concentrations pH 8
Sodium Alkyl Benzenesulfonate
"
Ih!.S)S!h~.Pre~~~{!d ~at8;j~f~
40 40 100
all concentrations saturated
:::/:.
Ashland Hetron 197 Ashland Hetron 197A Reichhold AUac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
<.
100
Sodium Aluminate
N~te
':') Ashland Hetron 197A
Reichhold AUac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
'"
Sodium Ammonium Phosphate
Ashland Hetron 197 Ashland Helron 197A
Sodium Benzoate
all concentrations saturated
Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
Sodium Bicarbonate
all concentrations saturated
Reichhold AUac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
10 10 10
Sodium Bisulfate
all concenlralions
Sodium Bisulfide
Sodium Bisulfite
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AUac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
15 15 45 45 65 65
Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
saturated
w/50% sodium sulfite; sat.
Sodium Borate
all concentrations saturated
Reichhold AUac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Sodium Bromide
all concentrations
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
saturated
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AUac 797
Sodium Carbonate
vapor and condensate
Sodium Chlorate
2 2 10 10 10 10 10 10 10 25 25 25 35
saturated vapors
50 90 90
Chlorendic Poly
93 93
Irmll~~~e';~I~';lji~eilpected,
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold AUac 797 Ashland Hetron 197 Ashland Helron 197A
© Plastics Design Library
651
Chemical Resistance - Chlorendic Polyester
8 8
8' .'
pH 3; saturated
8
saturaled
8 8 8 B
w/12% sulfuric acid
Sodium Chlorite
8
8 8
8.
saturated
B 8
2 2 10 25 25 25 50
Sodium Chromate
8 8
50 43 43 71 10 10 50 50
Sodium Dichromate
saturated w/70% acetic acid
with 70% acetic acid
Sodium Dodecylbenzenesulfonate
alf concentrations pH 8
Sodium Ethoxysulfate
93 93 99 93 66 66 99 93
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A 'iliis is the preferred material' Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
65
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A Reichhold Allac 797 Ashland Hetron 197 . Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
82 82 82
Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797
49 49
Ashland Hetron 197 , Ashland Hetron 197A
80 79
79
8 B
79
B 8
saturated
121
8
saturated
Sodium Cumene Sulfonate Sodium Cyanide
8 8
121 74 74 99 93
not recommended for use Iimitep'slirvlce life, Ashland Hetron 197 expected;ihis Is preferred; '·}"·':"'.materlal .
49 49 66 66
, Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Helron 197
30 30 30 30 30
Ashland Hetron 197A Reichhold Allac 797 ,~;
40 40 100 100
}Ns}s the preferred materi;I, Ashland Hetron 197 ~ .' Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
Sodium Ferrlcyanlde
alf concentrations saturated
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Sodium Ferrocyanide
all concentrations saturated
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
Sodium Hexametaphosphate
"'his IS1he'piele,red melerlal
Sodium Hydrogen Phosphate Sodium Hydrosulflde
Sodium Hydroxide
Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
20 45 45 15·65 15·65
Ashland Hetron 92
1
5 10
10 10
15 15 15 25 25 25
© Plastics Design Library
Ashland Hetron 197 _ Ashland Hetron 197A
not recommended f.o.r use Ashland Hetron 197 . ': Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 ., Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 . Ashland Hetron 197A Ashland Hetron 92
Chlorendic Poly
652
Chemical Resistance - Chlorendic Polyester
;;.
R~ageiit Note ",cc'"
Sodium Hydroxide
Sodium Hypochlorite
slabIe
vapors slable
(%)
(' C)
50 50 50
2'
2
8
52
2
8
2 5.25
8 8
52 52 52
5.25
8 8 8
52 66
8
49
8
49 38 43 43
2 2
5.25 >5.25 10
Sodium Methacrylate
pH 10·10.5
Ashland Helron 197 Ashland Helron 197A
121 93
104
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
82 82 82 82
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
104
all concentrations
8
82
pH 12
8
93
8
93 71
5-10 5·10
8
6 all concenlrations
8
71
104
8
93 32 38
'8
45
8·
45 65 65
8 8 8
.'
Ashland Helron 197 Ashland Hetron 197A
".
Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797
good liist iiisiJltfaiiiii shoit· expos.
'" synlh. surf. veil generally used
.
".
....
'.
~
".
":':::', ~.
nol recommiinded lo! use
2
10 10 10 21
21 21
82 82 82
2 2 8 8 8 2 2
60 60 32
not recominend.ed f.or use .;.
2 8
8.
a
. 8 8
8
Chlorendic Poly
Relchhold Allac 797 Ashland Helron 197 Ashland Helron 197A
71 71 71 71 71 71 71
2
all concentrations saluraled
::, it-
93 93
8 8 8 8· 8
15 15 20
saluraled
Ashland Hetron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
82 82
6
Sodium Tetraborate
Ashland Helron 197
not recommended for use
8 8 8
all concenlrations concentraled
special cure & synlh. surf. veil used; nOtllhiXOlropii ' ..,' resins preferable'
8
8
Sodium Sulfite
52
8
8
wi 1.50/. sulfur
Ashland Hetron 92 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92
" • .;. ..
25
8 8
Sodium Sulfide
Ashland Helron 197A
,"
25
all concentrations saluraled
Sodium Sulfhydrate
Ashland Helron 197
38 38 38 54 54
Sodium Nitrite
Sodium Sulfate
specieI cure & synlh, surf. veil, used; nOtllhixo\(opic resins preferable ..
8 8 8 8 8
8 8 8
all concentrations pH 1·3
Ashland Hetron 197 Ashland Helron 197A Ashland Helron 92
"
100 100 50 50
salurated
Sodium Polyacrylate Sodium Silicate
not reco!"mended for use,
15 15 15
Sodium Nitrate
Sodium Phosphate
MateHalNote
8 8 8 2
all concenlrations
Sodium Metaarsenite
R~slstani:e Note
, Ma~; ,.,:,' Rating Temp; ('C)L ,. . .
Cone.> Temp. '.' POL
10 10
Sodium Lauryl Sulfate
.........,.
':,
"
Ashland Helron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold AlIac 797
Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797 Ashland Helron 197 . Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
93 93
Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92
82 82
Ashland Hetron 197 , Ashland Hetron 197A
104 104
© Plastics Design Library
653
Chemical Resistance - Chlorendic Polyester ",-.
:;-(
Reagent
Re.agent 'N
'
..
Nii:
'" ,
Sodium Tetrachlorophenate
< Cone. Temp. poL Max. 1%) I'C) Rating Temp.I'C) 13 13
Sodium Tripolyphosphate
all concentrations saturated
Sodium Xylene Sulfonate
wi 2% sodium sulfate
"
"
Soil
40 40 40 40 40 40
Stannous Chloride
Stannous Fluoride Starch
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
66 66
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Reichhold Atlac 797
2
clay
"
e'
epoxidized
" Stannic Chloride
52 52 52
8 8 8 8
..
,
100 100
" " 52 52
Ashland Hetron 197 Ashland Hetron 197A
82 82 32 38
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
121 93 93 104
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
8 8
121 143
Ashland Helron 197
e
82 82
e 8
e
"
8
" " " "
8 8
8
8
8 104
Ashland Helron 92
2
digested, neutralizer hydrolyzer
e
lumes; wi 0,05% sulluric acid trace amounl NH3
" 116 116 116
" " Stearic Acid
Styrene
Sufactants Sulfamic Acid
"
2 2
55 55
e . 8
saluraled
e.
" 25
8 8
"
8
aromatic
Sulfophthallc Acid (4-) wi 1.6% sulluric acid
" Sulfur
100 100
"
© Plastics Design Library
;
100 100 100 100 100
.....,.
:e.. ;}.. 8
e 8 8
burner gas; wet molten
.
;8comm8nd8dlo;usej " "
"
>.8
25 25 50 50
" Sulfur Chloride
not
8
" "
Ashland Hetron 197 Ashiand Helron 197A Ashland Helron 92 .. Reichhoid Allac 797
121 93 93 104
2
8 8
Ashland Hetron 197 Ashland Helron 197A
71 71 71
Ashland Helron 197 Ashland Helron 197A Reichhold Allac 797
71 71 71
Ashland Helron 197 Ashland Helron 197A Ashland Helron 92
27 27 27
Reichhold AlIac 797 Ashland Hetron 197 Ashland Hetron 197A
.. ,'
' Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 :: Ashland Hetron 197A
49 49 32 32
8 2
177
8"
121
121
:2
not recommended lor use
2
"
."
2
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
49 49
<177
2
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
"
2
Sulfite Liquors
Sulfonyl Chloride
"
2 2
100 100 100 100 alkanolamide, nonionic
Ashland Hetron 197
nOI recommended for use
8 8 8
" " "
Ashland Hetron 197A
2
e,
all concentralions
" "
149 99 93
8 8,
condensate; buried pipe
Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
not ,ecommended 10r use
8
" "
50
.,.
32 32 32
8'
Steam
66 66 65
2 2 2
all concentrations
wi 20% hydrolluoric acid
not recommended for use
8
" "
Soybean Oil
8 8 8
"
.,
32 32
8/
lumigant; dilute
Material Note
8 8
8
"
0,
Resistance Note
.' not ,ecommended f9r use
"
"
..., ...
Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92
Chlorendic Poly
654
Chemical Resistance - Chlorendic Polyester
R~~g;1t? Sulfur Dichloride Sulfur Dioxide
100 100 100 burner gas, weI pulp mill fumes burner gas, wet Irace sulfur Irioxide
dry or wet gas dry or wet
vaporization
Sulfur Trioxide
gas wi 76% sulfur dioxide; weI dry
weI
Sulfuric Acid
wi 24% sulfate salls wi 90% manganese sulfale
wi 90% soya oil wi B% sodium chloride wi 12.5% chromic acid
w15% copper sulfate vapor wi 5% nilric acid
wi 12% copper sulfate trace dichlorides Irace organics
wl1 % hydrochloric acid
wi 3% sodium dichromale
Sulfuric Acid
wi 20% chromic acid
wi 4% sodium dichromale wi 23% sodium sulfate
10 10 10 10 10 10 10 10 12 12 16 16 18 18 15-20 15-20 20 20 25 25 25 25 28 28 30 30 30 30 30 30 30 30
Reichhold Allac 797 Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashlend Helron 197A Ashlend Helron 92 Ashlend Helron 197 Ashland Helron 197A Ashlend Helron 92
60 60
Ashland Helron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Helron 197A Ashiand Hatron 197 Ashland Helron 197A Ashiand Helron 197
;;f,I)~2!~jJi'~00!!~~;~~~t~'tfi;t
:;,
'),})'{it><>t"?,tf
Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A
Ashland Helron 197 n'olJeco~nJlilmded 'loi:u¥!I!! Ashland Hetron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A
32
Ashland Helron 197
32 32 32 35 35
Ashland Hetron 197A Ashland Helron 197 Ashland Helron 197A Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
wi 0.5% nilric acid
38
w115% hydrochloric acid
45 45 45 50 50
wilh 14% hydrochloric acid vapor
Chlorendic Poly
24 24 100 100 100 100 100 100
anodizing solulion wi 20% phosphoric acid
Sulfuric Acid
Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Atlac 797 Ashland Helron 197 Ashland Helron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A
2 2 2 10 100 100 100 100 100
© Plastics Design Library
655 Chemical Resistance - Chlorendic Polyester
Fl~agent: Su Ifurlc Acid
wi 28% nitric acid
vapor; wi trace nitric acid evaporation
Sulfuric Acid
Irace dichlorides
Sulfuric Acid
vapor
wi 2% chromic oxide
wi chlorine, saturated
vapor
Sulfurous Acid
50 50 50 50 50 50 50 50 58 58 58 58 65·70 65·70 <70 <70 70 70 70 70 75 75 75 75 76 76 80 80 80 80 80 80 80 80 80 80 80 80 93 93 93 93 98 98 98
Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 71 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
74 74
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A
82 82 82
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Helron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Atiac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
all concentrations saturated 10 10 10
Sulfuryl Chloride
Superphosphoric Acid
100 100 100 100 105% orthophosphoric acid 100 100 100 100
Surfactanls
anionic amide type linear primary alcohol type
Tall Oil Tannic Acid
© Plastics Design Library
58 58 100 100 100 100
24 24 24
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
all concentrations
Reichhold Allac 797
saturated
Ashland Hetron 197
Chlorendic Poly
656
Chemical Resistance - Chlorendic Polyester
Ashland Hetron 197A Ashland Hetron 92
Tartaric Acid
all concenlralions saturated
Telonet
fumiganl, concenlrated
Tergitol 15S9 Tetrachloroethylene Tetrachlorophenol
100 100 all concentrations sodium salt
Tetrachloropyridine
13 13
Tetrasodium Pyrophosphate
Ashland Hetron 197 Ashland Helron 197A
8
Ashland Hetron 197 Ashland Helron 197A
8
Reichhold AIIac 797
8
Ashland Hetron 197 Ashland Hetron 197A
8 '8
100 100
Tetrapotassium Pyrophosphate
Reichhold Allac 797 Ashland Helron 197 Ashland Hetron 197A Ashland Hetron 92
8 8 8 2 2 8
Ihls Is the preferred maleriaL Ashland Helron 197 " Ashland Helron 197A
8
60 60 60
8
Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 92
5 5
8 8
Ashland Hetron 197 Ashland Helron 197A
8
8"
Textone Thioglycol
8,
Reichhold AIIac 797
mono
100 100
8 ,8
Ashland Hetron 197 Ashland Helron 197A
Thlonyl Chloride
vapor
100 100 100 100 100 100 100
8
Ashland Helron 197 , Ashland Hetron 197A
Thiosorbic Lime
2 2 2
50 50
Toluene Dilsocyanate
saturaled
Toluenesulfonic Acid
all concenlrations
TOI
100 100 100 100 100 100 100 100 100
Ashland Helron 92 Reichhold Allac 797
8 8
66 66
Ashland Hetron 197 Ashland Helron 197A
e
32 32
Ashland Helron 197 Ashland Helron 197A
e
32 32
i Ashland Helron 197A
8"
aircraft vapor
Ashland Helron 92 Ashland Hetron 197 , Ashland Helron 197A
",j
2
8
Toluene
',','
2
saturated
Tinofix OF Toilet Tanks
2'"
e 8 8 2
e 49 49 49
93 93 32 32 38
Ashland Hetron 197 Ashland Helron 197 : Ashland Helron 197A Ashland Hetron 197 not recommended)or;)$e' i Ashland Helron 197A .·,::~:t Ashland Hetron 92
"",','> " ,,'
'",\;Hl
'not recommended fo(use ~
Reichhold Allac 797 Ashland Hetron 197
'>Ji~ A::~:~dH~~~:nl:; A Ashland Hetron 197 Ashland Helron 197A Reichhold Allac 797
100 65 65
Toly Chloride (0-) Toxaphene
100 100 100 w/l0% xylene
90 90
Transformer Oils
100 100
Tributyl Phosphate Trlchloroacetaldehyde
100
Trichloroacetic Acid
Chlorendic Poly
93 93 93
100 100 100 100 a-50 a-50 a-50 50 50
38 38 38
Reichhold Atlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Helron 92 Ashland Helron 197 Ashland Helron 197A Ashland Helron 92 Ashland Hetron 197 Ashiand Helron 197A
© Plastics Design Library
657 Chemical Resistance - Chlorendic Polyester ',;:,'/' 1-., iii
,". ?'
(%)~:
Trichloroethane
Trichloroethane (1,1,2-) Trichloroethylene
Trichloroethylene (1,1,2-) Trichloromethane
chloroform
Trlchlorophenol
Trldecylbenzene Sulfonate Triethylene Glycol Trlfluorovinylchlorlde Trlhydroxybenzolc Acid
2 2
100
8
100 100 100 100
2
49 49 49
100 100 100
27 27 27
2
79 79 79
2 2 2 2
27
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
2 2 2
;
49
Reichhold Allac 797
8
82 82
Ashland Hetron 197 Ashland Hetron 197A
32 32 32
Ashiand Hetron 197 Ashland Hetron 197A Ashland Hetron 92
8 8, 8
27 27
Trimethylamine Hydrochloride
pH 3·4
Trlphenyl Phosphite Trisodium Phosphate
8
,
8 8
100 100 100 100
8 8 ·8 8
100 100
8
,
8'•.
8
saturated
8
8" 25 25
Turpentine
pure gum
Uranium
extraction
Urea
8 8 8 8 8 8 .8 8 8 :., 8
all concentrations saturated
Urotropin
28 28 28
Varsol
100 100
Vinegar
93
8"", 2 "
100 100
Vinyl Trichloride
100 100 condensate, buffered
© Plastics Design Library
27 27 27
27 27
} ..
.." .
..,. Ashland Hetron 197 .", Ashland Hetron 197A Ashland Hetron 197 " Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A
~"-,'
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Reichhold Allac 797 Ashland Hetron 197 .; Ashland Hetron 197A
" ,..... ,.
Ashland Hetron 197 .." Ashland Hetron 197A ',;' Ashland Hetron 92
, .
".,.
;~9!I~~Bmm~iH!~~tqr9M;?
8
38 38 32
Ashland Hetron 197 Ashland Hetron 197A
Ashland Hetron 197 Ashlend Hetron 197A .. Ashland Hetron 197 Ashland Hetron 197A
.':"
93
27 27
8
Ashland Hetron 197 Ashiand Hetron 197A
post cure recommended
71 71 71
.8 8· . •· 2 2 8'
irrigation
66 66 38 38 54 54 54 54 49 49 32 32 32 66 66 49 49 32 32
Ashland Hetron 197 Ashland Hetron 197A
'. '.' .
.... ""
99 93 32
100 100 100
Vinyl Toluene
Water
8
8
100 100
.
8
8
100 100
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
8
98 98
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
2 2
!'
~-.,
Ashland Hetron 72
31ffiT. iecommendea!6ruS&
8
100 100 100
,,' ..... :.. :.
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Reichhold Allac 797
2 2 2
100 100 100
. ".;,..
Ashland Hetron 92 Reichhold Allac 797
2
saturated
Trimethyl Carbinol
...• :-:::::'
2
100 100
in methyl alcohol
.'
nofiecommeiidedloruse.
8
Trimethyl Borate
I:':::
2
all concentrations
oils and greases
. , ',' [> MaterlarNdte
·2 2
100 100 100 100
100 100 100 100
.' .
,,•. . Resistance Notl1
32 38
8 .• 8
100 100 100 1,1,1·trichloroethane
Mli~;
Ratlng- .:'remp~ (~C)
(C)
50 50
Trlchlorobenzene
'" '. ,'
.~onc. T~mp.. pot
Ashland Hetron 197 Ashland Hetron 92 Ashland Hetron 197 . Ashland Hetron 197A
,.
Ashland Hetron 92
thi~ISlhepr~f8rred materi~J
Ashland Hetron 197 ". Ashland Hetron 197A
.• not
recomm~nded
"
•
'oruse··· Ashland Hetron 197 / . " " . Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197
Chlorendic Poly
658
Chemical Resistance - Chlorendic Polyester ,,"
"
, Reagent
Reagent Note
Water
"
" CC)nc. Temp. ,(%)
".
" " cily, 10·60 psi
" " deionized
" demineralized
" " distilled
" " steam condensate
" "
100 100 100 100 100 100 100 100 100 100 100 100 100 100
activated carbon
" carbon
" aerosol
" "
Xylene
all concentrations wi 90% toxaphene
"
wi 30% amyl acetate
"
Zinc Zinc Chloride
8 8.
32 32 32
8
38 49 49
8
10 10 70 70 100 100 100
8 8 2 2 8 8 2
saturated
"
" all concentrations saturated
" Zinc Phosphate
8
Chlorendic Poly
"
Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashiand Hetron 197 Ashtand Hetlon 197 A Ashland Hetron 92 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Hetlon 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetlon 92 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 197 Ashland Hetron 197A
....
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
I
..
Reichhold Allac 797 Ashland Hetron 197 Ashland Helron 197A Ashland Hetron 197 Ashland Hetron 197A Ashland Helfon 197 Ashland Hetron 72 Ashland Hetron 92
149
Ashland Helron 197
104 129 93 93 121
Relchhold AIlac 797 Ashland Hetron 197 Ashland Hetron 197A Ashland Hetfon 92 Ashland Hetron 197
'.::::, ....
, .'.
Ashland Hetron 92
8
60
8 a
60 60
Ashland Hetron 197 Ashland Hetron 197A
8 a 8
71 71 71
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92
a 8 8
82 82 82
;}
8 8
Zinc Sulfate
~
a 3.5
::.... ......,.
nol recommended lor use
8 8·' '8
electrolytic cells
' .'
38 49
all concentrations saturated
70
.Material Note
".,
nol recommended lor use.
8
"
Zinc Nitrate
93 93 93 93
8 8 a 8 8 8 a 8 8' a
e
"
Zinc Hydrosulfite
8 8 8 "a
a a '. 8
casting fumes
" Zinc Oimethyldlthiocarbanate Zinc Electrolyte
8 8
32 32 99 93 a2 32 32 a2 82 82 82 82 99 82 38 99 82 71 99 93 93
e
" white
R'eslstahce,Note.,
.'
8 8 a 8
vapor & condensate
Wetting Agents
POL Max. Rating Temp'I'C) '
irrigation
"
Water Treatment Beds
('C)
all concenlrations
8
"
il
" "
8 a .•
. .~
"
\:.. ..
...
........
Reichhold Allac 797 Ashland Hetron 197 Ashland Hetron 197A
93 93
Ashland Hetron 197 Ashland Hetron 197A
121 93 93 104
Ashland Hetron 197 Ashland Hetron 197A Ashland Hetron 92 Relchhold AIlac 797
.. ,
© Plastics Design Library
@
%Retained
~
s.... CI)
Reagent
Cone. Temp. Time/POL
Reagent Note
(days)~~ting ,
('C)
('1oi
r;'
Modulus
IStrength Flexural
Max. Temp. ('CI
Resistance Note
Material Note
CI)
tl
Acetaldehyde
(l) CI)
fumes; <40 Ibslcubic foot in air
tEo ;:l
~
.,0!=l .,
Acetic Acid
1 100 100
8 8 2 2
",;
glacial <10 10 10 10 >10 15 15 15 18.5 25 25 25 25
wi 50% acetic
25 25 25 25 50 50 50 50 95 100 100
wi 18.5% HCI
wi 1.5% H202 glacial
..
!
>
,
.. ..
en
Acids
.
..
~:
retains 94% Barcol hard.; no app·ear. chg.
49 49 49 49
90 182 365 365
7 7 6 5
83 82 76 >75
88 100 100 >75
retains 93% Barcol hard.; no appear. chg. retains 88% Barcol hard.: flecking relains 79% Barcol hard.; flecking
8 8 8 8 8 2 2
38 38
49 49
3 2 2 2 2
100 100 100 100 100
2 .2 2
80 80
..
,
<
i
i 29 66 52 32 32
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Amoco; isophth. acid/maleic anhyd.lprop. glycol (111/2.2); laminale
.. .. ..
cured Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
l
I
.
l
not recommended for use
" nbtiilcommefidildiliileiiiiltiilnluse possible not recommended for use
,
2
dibasic
not recommended for use
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
100
2 2 2 2 2 2 2
100 100
Owens Corn. Vibrin E·701; laminate
88
Acetonitrile
Acetophenone
"
8 9
lob
o
71 66 52 29 71 66 52
..
Ashland Aropol 7240 Ashland Aropol 7334
30
Acetone 10 10 10
..
nol recommended for u'se
49
/
wi 10% cyclohexane, 1% hexane
Ashland Hetron 99P
77 71 66 66
8
Acetic Anhydride 100 100 100 100
2 8 8 8 8 2 8 8 8 8 8
r
:,
32 32
2 2 2 2
-0
" " "
..
"
".
..
" " "
..
.
" "'ii
. . "
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·750; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
o
-< en
~
0>
Chemical Resistance - Isophthalate Polyester
0'1
co
~
Chemical Resistance - Isophthalate Polyester
en ~
0
o
m I ~f{eagent
I ,
Reagent Note
>'f~
% Retained' i
. Cone. 'Temp. Time ('C)
. ,(%)
(deys)
Acrylic Acid
Acrylics Acrylonitrile
38
2 2"
,L/;;. "
Ashland Hetron 99P
,.
Ashland Aropol 7240
8 100
i
100
.\
Ashland Aropol 7334
•
~
93
8
66
8
52
l ." ." ;
Ashland Aropol 7240
not:rec9mmended tor use Ashland Ar9pol 7334
,;,<~~!W)~
~:,:~~~;::,~
77 66
Ashland Aropol7240 Ashland Aropol 7334
, •
8
49
Ashland Hetron 99P
8
177
Owens Corn. Vibrin E-701; laminate
8
Ashland Aropol 7240
50
8
66
Ashland Aropol 7334
8
77
8
49
8
32
saturated alf concentrations
.,
8
:~
"
Ashland Aropol7240
>.
.'.
Ashland Aropol 7334
.
Ashland Aropol7240
,,,/;>?t . " ;
.:.nrit *i)~m~nded lor use
::~~~~~:;,:~79393: Owens Corn. Vibrin E-701; laminate
20
8
71.1 '{ ,..•. 6 6 ' .-".
Ashland Aropol 7240
20
8
66
Ashland Aropol 7334
8 8
71 60
saturated'
all concentrations
" ,
Ashland Aropol7240 Ashland Aropol 7334
8
77 82
8
66
8
71
Ashland Hetron 99P
8
77
Owens Corn. Vibrin E-701; laminate
82
8
66
tE'
"
8 8
121 77
;:l
;.
8
8
(t:
Ashland Aropol 7334
,\;ji;;r .
"
Amerex 201
Ashland Aropol 7240
' . ..• '
"
alf concentrations
~ ~
Ashland Hetron 99P
•,.
".,
~
~
"'~"
66 77
"
Aluminum Sulfate
. ',.
8
~-
tl
i
50
@
S"
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
8 8'
Aluminum Hydroxide
Aluminum Potassium Sulfate
nOI.18~mmended ror use
I "
2
'1:l
;
2
2 2
'"
, ••,
, . "
8
::~::~;....
Ashland Aropol 7334
2. 2
soak cleaner; 10 ollgal
\"."
f
.2
100
not recommended ror lise
: 49
:'
Aluminum Nitrate
....;..
38
Aluminum Chlorohydroxide
Aluminum Fluoride
Ashland Aropol 7334 Ashland Aropol 7240
.X~.j"
100
;
Aluminum Citrate
Ashland Aropol 7240
38
100
"
alf concentrations
Owens Corn. Vibrin E-701; laminate
38·i\,,'
j"
humid. trace sulfur fumes
Aluminum Chloride
Material Note
2
100
....
'1. •.
38'·
.
AI.m
Note
~~;(e~Ommended lor use
...
.' 8
emulsion
phenate based
Max..,
F.'.e.xu".,..•.••..••. Res.,stance .S.I.re.~~th. Temp. ( ' C ) " \
2 10 100
Algaecide Alkaline Cleaners
Rating
'" 8
10
Air
PDL~;,j~;
100
52
6
100
52
6
Owens Corn. Vibrin E-701; laminate "
Ashland Aropol7240 Ashland Aropol 7334
.,
I
,.
i.
Ashland Aropol 7334 .' .
limited ser-ice life expected; this is prefeired material .•,.
:<
Ashland Aropol7240 Ashland Hetron 99P Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
@
1:l ~
"i:,
Reagent Note
;... , .
I
; I(
%Retained
Cone;,: Temp. Time.': POL
Sjren9\~I:r'~mPfe9l Max.
.Reslst,ance Note
Material
~ote
.....
lR.eagent
~ VI tEo
Amerex 209
100 100
Aminoethoxyethanol
100 100
Ashland Aropol 7240 Ashland Aropol 7334
Aminoethylpiperazine
100 100
Ashland Aropol 7240 Ashiand Aropol7334
VI
n' VI ;:l
s:.,
0-
.,
P <.c::
Ammonia
.,('-'V·
('C)
Flexural
Bl'!P9
(days) •
II i
8 8
52 52
Ashland Aropol 7240 Ashland Aropol 7334
32 32
dry; gas
100 100
Ashland Aropol7240 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
50
Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P
15 15 15 20 20
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
wet gas wet; gas
32 32 <5
liquid
Ammonium Acetate Ammonium Bicarbonate
saturated 60
Ammonium Carbonate
54 60 49
saturated
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashlend Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
49 10 10 30 30
Ammonium Chloride
saturated
82
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
66 93
77
slurry
77
Ammonium Citrate Ammonium Fluoride
saturated
49 60
Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate
all concentrations
32
Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate
Ammonium Hydroxide
30 90 182 365
en
o o
-0
7
<5
5 4 2
5 5
2 2
92
100
83 78 71
88 96 83
Amoco; isophth. acid/maleic anhyd.lprop. glycol (1/112.2); laminate
hard.; lIiCk\ng retains 73oj(~arcol hard.: lIecki!1g. bliste.rs
-< CD en
re~ins,96".BarCOI
Chemical Resistance - Isophthalate Polyester
noi recommended for use
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
0> 0> -'"
Chemical Resistance - Isophthalate Polyester
en o
C1> C1> N
"'C
o
-< ct> en
CD .....
-.-.-.
I'
Re~gent
Reagent Note
Ammonium Hydroxide
I I I ~~l.
Conc, Temp, Time •... (%)
;·;',I .. ·c<······;·
5 10 10 10
2
,:,',,:
32 .no\·;;;'commend·ed for use
2
2
u~
2 2
28 28 30 30
2 2 2
3
365 100
8
concentrated
~:
salurated
a
<47
concenlraled saturated
" >60
>60
evidenced bliste'rs Of olher defects
cured Ashland Aropol 7240
. nOI. recommended fof use
Owens Corn. Vlbrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale
54
2
8 8 8
Ammonium Persulfate
Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
n~1 !eco~!"endedlor use
8
'. ,~:::~;
Material Note
.:~
32
8 2
20 20 20
Ammonium Hydroxide (No) Ammonium Lauryl Sulfate Ammonium Nitrate
Resi~tance Note'
Modulus
(daysL R~tlilg
'.. ('C)
O'
71
66 93 77 nol recommended lor use
2
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminale
2 2
8 <25
Ammonium Phosphate
8
dibasic dibasic; saluraled
8 2 2 8
monobasic
8 8
65 65 65
Ammonium Sulfate
@
'"
8
e wi 20% ferric sulfale
10 10 10.5
8 8 8 8
<20
8 8 8 8 8
~
n'Cil 16'
.,
a
20
8
Amsco Solvents
f:
8KOH solvenls
100
. nO!l8~omm8M8Wlo!wse
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminale
77 60 93 32 32 82 77
... Mll~9~iliii\~MM'M~se Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334
49 49 49 77 77 66 nOI recommended 'for use
2 ~::
~.;,
:.. ·.2 2 8
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
66 77 77 66
2 60 60 60
tu::
20
Ammonium Thiosulfate
;:s
.,o:p
not recommended for use
2 saturaled
p
~ Cil
77
2
saluraled
wi 10% diammonium phosphate
Ammonium Sulfite Ammonium Thiocyanate
8
66 60
:<.
! 38
i:':
Ihis;$ the pieleired malelial
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240
@
% Retained
'tl
II
~
Reagent ',. 1::.",:.-. ,"
I:i 0'
.;,
.W
??
::
'/;.
all concentrations
/::
C/)
<E'
iq
;:l
,~.
t-
..,o:
100 100 100
..,p
u:
Amyl Alcohol
49
·······49 49
--"
all concentrations
Rel!!~illnce'Note
l'conc'l Te!JIp. Time '1. POLlllodulUS Flexorll I Max. (%) ;. ('C) (dlYs) •. !jl~tlng Slren9,\~ TemP.. rc).
C/)
Amyl Acetate
::~~:
I
Reagent Note
; no;
~o'r.eo.IIl''!1er~ed for· uSe
I
: 38
100 100 100
49 49 49
Aniline
noi recommended for use
93 60 60
Aniline Hydrochloride Aniline Sulfate
2 77
" "
8
"
8 8 8 8 8
66 66
saturated
6 6 6
" "
-'1
Anthraquinonedisulfonic Acid Antimony Pentachloride
8 2 8 8 8
100 100 100
Antimony Trichloride
Aqua Regia
saturated
8 8 8 8
3 parts HN03; I part HCL
"0
o
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Het/on 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vib/in E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland A/opol 7240 Ashland A/opol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
77 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
32 32 32
66
Ashland Aropol 7240 nol recommended for use
32 32 32
71 66
Owens Corn. Vibrin E·701; laminate Ashland A/opol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
82 60 nol recommended for use
2
Ashland Ashland Ashland Ashland
Armeen C
2 2
Ashland Aropol 7240 Ashland Aropol 7334
Arquad C50
8 8
49 49
8 8
91 91
concentrated
en
";,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate Ashland A/opol 7240 Ashland Aropol 7334 Ashland Hetron 99P
Owens Corn. Vibrin E·701; laminate nol/ecommended for use
2 2 2
concentrated; fumes
o
.
8 2 2
oil
"
2
<25
Anthracene
··nol./ecommended for use '';';'::'''';:'~~:.
2 2 2 2
2 100 100
u
-
2
Amyl Chloride
;.c6~"'Eind.d for 'use'
32
2 2
2 8 8 8
vapor
.
2 2
8
Material Note ok
Arsenious Acid Asphalt
71 71
2
Aropol Aropol Aropol Aropol
7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334
'< CD
en
~
Chemical Resistance - Isophthalate Polyester
0> 0> W
en
Chemical Resistance - Isophthalate Polyester
o
0> 0>
.j:>.
-c
o
'< CD
% Retained
en
Reagent Note
Reagent
.. Barium Acetate
-
,
Cone. Temp. Time POL (days) Rating (%) I'C)
saturated
" Barium Carbonate
':
,
all concentrations
,
2 8 8 6
" all concentrations
Barium Chloride
Barium Hydroxide
82
" " "
8 8 8 8
;
,
saturated
Barium Sulfate
Barium Sulfide
32
all concentrations
2 2
"
~
n' Vl tl C1l Vl
<0' ;:l
~
.., ..,P
0-
<.c::
Benzenesuifonic Acid
saturated
2
" "
2 8 2 8 2 8
30 30 30
" "
"'"n
Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
'';.
" Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
" Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
limiled service liIe expected; this is preferred material
49 49
vapor
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
" "
" "
32
Benzaldehyde
not recommanded lor use
u
100 100
100 100 100
P
82 66 93 77
100 100 100
,,
Material Note
limited service life expected; this is .. , ..preferred material.
32 32
"
Resistance Note
82 66
8 8 2 2 8 6
,
"1:l
, ,
100 100 100
saturated
@
Max. TernP,I'Cj
77 66 66 77
i
u
Benzene
Strength
8 8 8 8 2 2 2 2 8 8 2 2 2 2 2
" "
Beer
I. Flexural
2 2 2 2 6
" 10 10 10
.
2 2 2 2
:;:
"
Modulus
" Ashland Aropot 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate nol recommended lor use
;
"
" u
.,
32 32
., ;,.
;;~?1;;!~s?mm~.n~,M;;'9[~se ..... .. ~
...... " "
" not recommended lor use
" 32 limited service lile expected; lhis is prelerred material not recommended lor use
"
. 32
" not recommended for use
66
nol recommended for use 82
>
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240
" Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
@
% Retained
'1:l
P ~
Reagent
Conc.
Reagent Note
ri'
t:J
Benzenesulfonic Acid
Benzoic Acid
;:J
0-
It:
('C)
100 100
82 82
. (days)
I
Flexural Strength
Max. Temp.I'C)
Resistance Note
Material Note ,
.
Benzotrichloride
100 100
2
100 100
2 2
100 100 100
2 2 2 2
pH >7 u
Bleach
u
household
49
30
u
49 49 49 49
90 182 365 365
sodium hypochlorite
5.25
u
5.25 5.25 15 15 15
2 2 2 2 2
u
.. u
.. u u
Borax
saturated u
Boric Acid
saturated
.. ..
40
Bowl Cleanse Brine
8 8 8 8 7 7 5 8
u
,
mild
..
sail; saturated
.. ..
Bromine water, saturated
not recommended lor use
24
Ashland Aropol 7240 Ashland Aropol 7334
.
·.. ·. · ...· ·· ·
, :
2 2
,
calcium hypochlorite; sat.
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
.
66 121 77
2 2 2 2
f
Ashland Aropol 7240 Ashland Aropol 7334
·
77
2.
100 100 100 100
Benzyl Chloride
Black Liquor
nol recommended lor use
8 8 8 8
Benzyl Alcohol
u;
Rating 2
salurated
Benzoyl Chloride
o
Modulus
2
u
~
., P .,
(%)
PDL
"
C1l
~.
Temp.· ;Time
49 38 100
100
88 92 87 >75
100 95 100 >75
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 u
,.
Ashland Aropol 7334
u
..
u
Ashland Aropol 7240 Ashland Aropol 7334
special cure system generally used
Ashland Aropol 7240 Ashland Hetron 99P retains 91% 8ercol herd.; fiber prominence: Amoco; isophth. acid/maleic anhyd.lprop. glycol (111/2.2); laminate u retains 100% 8arcol hard.; dulled appear. u retains 86% 8arcol hard.; dulled appear. retains 91% Barcol hard.; wicking, dulling' cured special cure & synlh. surf. veil used; Ashland Aropol 7240 nonthixotropic resins preferable not recommended for use Ashland Aropol 7334 u Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 u Ashland Hetron 99P u
..
49
··
8 8 8
82 60 77
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
8 8 8 8
82 66 82 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
8 8
38 38
Ashland Aropol 7240 Ashland Aropol7334
8 8 8 8
82 66 82 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
2 2
not recommef)ded lor use
..
u
Ashland Aropol 7240
"0
o
'< (1)
en
~
Chemical Resistance - Isophthalate Polyester
0) 0)
01
Chemical Resistance - Isophthalate Polyester
en
o
0> 0> 0>
"0
o
-< CD en CD -.
16~agent
Bromine
Reagent Note
Ti~i
I
,I
% Retained
POL Cone. Temp. (~L ('e) Jday~j Ra~lng Modulus
.;;
waler, saturated dry gas
I~:~;~;~~ IJ~:~:t~P)
. '~
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron SSP Ashland Aropol 7240 Ashland Aropol 7334 Ashland H.tron SSP Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron SSP
not reCommended ror us.
2 2
">
2. '8 liquid
Material Note
Resistance Note
32 not r.comm.l\ded ·tor us.
2
2 2 wei gas
2 2
Butadiene Butyl Acetate
lalex
8
32
8
-
8
limited s.rVlc~ lif. ·expecl.d; this is ~:.-:.'
27 not
2 8
88 27
.. ~.
~
E"
'"....r;'
'~" '"
lQ' ;:l
t"'
.,0:p .,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron SSP
,ni!~(!C?mm81\~~(iiO(ijs.
Owens Corn. Vibrin E·701; laminate
88
B
@
not (ecQIl1.il~~cl~J for:( us. ~~:
2 2
" ',., r . " :,;'. ':~:':
8
Butyl Ether Butylaldehyde Butylene Glycol
100
8
Butylene Oxide
100 100 100
Butyric Acid
25 25 25 25 >25 50 50 50
100 100 100
70 70 100 100
32 32
8
2 8 8 8 2 2 2 B '8
.:::
8
8 2 8 8
8 8 8
2 2
,
II""
2 100 100
Ashland Aropol 7240 Ashland Aropol 7334 Ashland H.lron SSP
';';'.:
,
2
,,', .j
Ashland Aropol 7334 Ashland Hetron SSP
nofr.com"!.nil.d Jar us.
8
Butyl Benzoate Butyl Benzyl Phthalate Butyl Cellosolve
.:.-.:..::::".:.:::::;:./",..
i8COni.... :~;!l for us.'
32 27
8
Butyl Alcohol (tert-)
,
""'c, •.. ,,,' .• Jl~!!-·He~!"!1~.lero.al. ~,~
2 8
Butyl Alcohol (see-)
~~.~.
32
6 normal
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7334 Ashland H.lron SSP Ashland Aropol 7240
not recommended for use
.
8
Butyl Alcohol
Ashland Aropol 7240
27
2 2
:.~.
27 ..
/'
Ashland Aropol 7240 Ashland Hetron SSP
:-.'
':~;;:~~~~~~'~ior
71 60 71
! .'.~
"~oji8Wmiiiind8dlotilse
.
49 49 66 54
Ashland Aropol 7240 Owens Corn. Vibrin E-701; laminate
use
Ashland Aropol 7240 Ashland Aropol 7334 Ashland H.tron SSP Ashland Aropol7240 Ashland Aropol 7334 Ashland Helron SSP Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron SSP Owens Corn. Vibrin E,701; laminate
J .':
not,recom!".n~8d 'lor use 66 54 66 66 66
noi'I~·COm"lend.d .-.-
','
for 'use
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron SSP Ashland Aropol 7240 Ashland Helron SSP Ashland Aropol 7240 Ashland Aropol 7334
@
'tl
R,' en tI ~
% Retained
"
[Rea"gent
".?
Calcium Bisulfide Calcium Bisulfite
tE' ;:s
....
CO,nc.
Temp.
(%)
('C)
!I.m,·~· • •. P~L"oduIUS (~~U)Ratmg
Calcium Carbonate
I
Max. Temp. ('C) 71
Ashland Aropol7240
77 77
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240
8
8
"
8
43 77
8 8 -
71 60 71
Calcium Chlorate
saturated
8
66 49 82
Calcium Chloride
"
8
, 8 2 66 121 77
saturated
",
•..•
~:'
," I
~ <15
;;;:l.t~
8
71
.,:. '
..:
~: t,':'\·· ~ saturated
8..
71 66
8·
ii: , ,
15
'. .
••••
Calcium Sulfate
saturated
,.
.
;'\:;.:""
".~. » .
Ca'' •• Nil.."
j
,
" ",'
Ashland Aropol7240 Ashland Aropol 7334 Ashland Hetron 99P
I I '.'
Owens Corn, Vibrin E·701; laminate
i
100 100 100
,,'
i;
/.. ".
'
~
•..•
k
24 24
i
..:
2
Owens Corn. Vibrin E·701; laminate y.
.,;;
I
5
"',/W\h"
'!i
." ,. ,:>1
":spepialdre'srstein,g,ner~~u sed" ,
h':::i\J~:i'~~~~~'i~t~s:·'.; 9
H
;.;.,tf1~:~:::'~;j!~,' •.•.
.
."X.,
•.•. " . '
nouec~m'm8nded lor US8
"
;...
"
i . " .•
8 :;., .8
71 49
8
Ashland Hetron 99P
. ,
i a'riil :,t/ 38
71 49 77
,'.,
.,'
~:~~:~~:;,:~~:::
t......
71
;.
Ashland Aropol7240
Owens
;:;~~~~b~~t~~~:I~~aminate
o.~. E~::~;g~,:.",,, ~:~~:~~:;,:~~::: Owens Corn. Vibrin E·701; laminate
" Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
"
Ashland Aropol 7240 Ashland Aropol 7334
,.
71:... 38' 71 66
~
Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
~~ ~ L:l:."j,~(.~f';f;ir;,'lJ r·:·;
2 2
8
,.t.
~:~::~:~;::::~~:~
8
saturated
Ashland Aropol 7240 Ashland Aropol7334 Ashland Hetron 99P
.,<.,;,
*
< ." 2
saturated
5 5
Caprylic Acid
24
t
Ashland Aropol7240 Ashland Aropol 7334 Ashland Hetron 99P
.. " ' .
77
.t
Ashland Aropol7334 Ashland Hetron 99P
:~ ~< ,?-:.'~~::,:' ..,,' ;';1 49
l.8 ...<
d,C'
Camphor
Capric Acid
Material Note
8 .
77
Calcium Hypochlorite
I
8
" , . . .,., .
Calcium Hydroxide
Resfstanc~'Note
'I
aqueous. s a t u r a t e d . : '.
" , .
II::
Flexural Strength
saturated
"
t
~ ~
.?
Reagent Note
Ashland Aropol 7240 Ashland Aropol 7334 ,. ,.
Ashland Helron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol7240
"C
o
'< CD
m
~
~
Chemical Resistance - Isophthalate Polyester
~
Chemical Resistance - Isophthalate Polyester
en
o -0 o
0> 0>
00
'< ([)
% Retained';
en
Reagent Note
Reagent 'W~
,.,'
,
.-
Carbamide
Conc.
('C)
'" ..,)."}
Caprylic Acid
POL
Temp: Time (days)
Rating
5 5 salurated
" Carbon Dioxide
gas wei. acidic
" " Carbon Disulfide vapor
"
Carbon Monoxide
"
" "
Carbonic Acid
100 100 100 100 100
, I
shampoo
l
l
" @
wei gas
P ~
~
" " Chlorine Dioxide
tE' t"'
wei wei. salurated
::l
0: ...
...p te:
100 100 100
<1 gil
" "
V>
~
"
'1:l
n'V>
J
wet gas wet; fumes
, , ~
"
71 54 71 77
2
, ~~
.~
,.
;
2 2 8 2 8
Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
•
", "~,
,. ·i·
.\
" ..
I
I
"
I
,
.,
I
not'recommended for use limiled serv.lce file expecled; Ihis is preferred malerial
,
l
i
,
j
,
"
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
,
49
noVecommerded for use'
"
32
" ,.
·
j
i
· ,,' ·· "
l
, ~::
~
"
~
I
."i
" Owens Corn. Vibrin E-701; laminate
I
I
" Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E-701; laminale
not recommended for use ... "
, , 32
,.
"",.,
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7334 Ashland Aropol 7240
Ashland Aropol 7334 Ashland Aropol 7240
:. nof r~~omm,ended lor use limited service life expected; this i$. \ preferred material 54
Owens Corn. Vibrin E·701; laminale Ashland Aropol7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminale
nOI recom'f.:nded for use
2
~
.,
not recommendad for use
};..
Ashland Aropol 7334 Ashland Helron 99P
Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
"
I
, '/;;, it'? .: ,"".
77 93 66 -7
8 8 8 8
[ .,;!
5
, 1
,.
Ashland Aropol 7240 Ashland Aropol 7334
,
{
32 32 32
2 8
;~
"
2 2 8 8 8 2 6
!
:~
in air
..~;
) !
2 2 2 2 2 2 2
i
i
."
,
8 2
1
chlorine waler liquid
66 32 77 93 66 121
Material Note
..
2 6
38
spenl, phenolic refinery
8 8
8:
32
" Caustic Chloric Acid Chlorine
38 71
8 8 8
"
Resistance Note
Max. Temp. ('C)
.2
100 100 100
saluraled
flexu~'1
Slren~~~
2". 2 ::~:'
" " Carpet Cleaners
(
vapor vapor
I
2 2 2
i
gas
" " Carbon Tetrachloride
25 25 100 100 100
lIodulus .
8 8
8 8 8 8
,
100 100 100
,
not recommended for use
',.
~,"
; ;,:
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240
@
::E ~
~
'Reagent
I
Reagent Note
r;' en
~ en
Chlorine Dioxide
in air
;:l
t
., .,
Chlorine Gas
dry
~
<.t:::
5
8 8
15 15
2 2
100 100 100
.8
5
<E'
0-
0/0 Retained
I
Conc, Temp. Time:], POL (%) ('C) (day-s) ;Rating
8 8
Modulus I Flaxurai Strength
ITemp. Max.
Relillstance Note
32 32 ;'01
rec~mmended for use
'"
82 38 93
2
coolers & strippers
nol recommended for use
2
Chlorine Water
32 nol recommended for use :~ ..
(:.
:~
71 71 63 63
wi 20% sulfuric acid
Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
100 100 100 100
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
100 100
Ashland Aropol 7240 Ashland Aropol 7334
5 <10 10 10 15-20 15-20 20 20
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
saturated
intermittent
Ashland Hetron 99P Ashland Aropol 7240
100 100 100
-
Chlorosulfonic Acid
o
limiled servil:e lile expected; Ihi$ is preferred material.
Owens Corn. Vibrin E·701; laminate
liquid; trichloromethane
en
52
monochlorobenzene
vapor
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334
norrecommended for use
Chloroform
Chromic Acid
8 6
concentrated
25 25 25 50 50 50 80 80 100 100
Chlorobenzene
Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
2
saturated 52
Chloroacetic Acid
Material Note
(OCI
32
"0
o
'<
CD
en
...
(i)
Chemical Resistance - Isophthalate Polyester
0> 0>
to
en
Chemical Resistance - Isophthalate Polyester
rJ)
o
-.J
o
"'0
o
'<
CD
% Retained
rJ)
en .....
Reagent
Reagent Note
Conc. Temp. Time
Chromic Acid
w/32% sulfuric acid
" vapor
Chromium Sulfate Chromous Sulfate Citric Acid
(days)
('C)
(") 20 20 20 20 >20 30 30
66
" 50 50 50 50 50
71 71 71 71
Coconut Oil Cod Liver Oil Copper Acetate Copper Chloride
Copper Cyanide
't1
po ~
Copper Nitrate
n'
fJj
f( fJj
lEi' ;:J
t-
..,o: ~ ..,
u::
Owens Corn. Vibrin E·701; laminate
77 60
Ashland Aropol 7240 Ashland Aropol 7334
82 66 93 77
30
8 8 6 8 2 2 7
72
83
retains 100% Barcol hard.; no appear. change .
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Amoco; isophlh. acid/maleic anhyd.lprop. glycol (1/1/2.2); laminate
90 182 365 365
9 9 8 5
100 100 85 >75
100 98 83 >75
retains 93%. Barcol herd.; no appear, chg. retains 98% Barcol hard.; no ,appear. chg.
"
"
"
" "
cured
100 100
6 B
32 32
Ashland Aropol 7334
8 8 8
71 49 77
Ashland Aropol 7240 Ashland Helron 99P Owens Corn. Vibrin E·701; leminale
8
82 66 121 77
, i
•
8
I
"
,
8 2 8 8
,
8 8 8
saturated
"
,.
2 2 2 2 2
"
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
"
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
32 nol recommended for use 32 77
, nof recommended fot use
2 2 2 2
24 24 24
8
Copper Oxychloride
,.
not recommended for use
100
saturated
" " " " "
"
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
Copper Fluoride @
<
6 8
8 6
saluraled
" limited service life expected not recommended for use 60
I
"
"
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
60 79
salurated
" "
"
,
~.~
6 8
saluraled
"
not recommended for use
....
6
, 129 129 ,. 71
Material Note "
.
2 2 6 2 2
saluraled
saluraled
Resistance Note
lIodulus flexural Max. Rating Strength Temp. ('CI 2 • 2
<20
" " " "
I
~.QI{(
"
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
" I
" "
i.
71 60 71 77
" '.
'.' ············001 !$oommendedfOiuse '.
j
" "
.'.
" "
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminale
@
% Retained
~
p
~
n'en tl C1l en
"
Copper Sulfate
t""
..,
It::
1
saturated I
1
"
;:l
>l
. "
15' 0: ..,
Cone. Temp. Time POL (%) ('C) (days) Rating
Reagent Note
Reagent
l
8'
tOO
Cresol Fumes
,.
2
storage tank bottoms
" 100 100 100 100 100 100
" " sweet
"
CWT 102
8
100 100
Cyaf 5101 I
Cyclohexane
,
vapor
" 100 100
Cyclohexanone
Detergents
.
liquid, biodegradable
"
"0
organic
,~
nOI:recommended for u~e
·"
",
, , , ,
1
o·
8
52 52
8 8
32 32
8 8 2 8 2
79 79
:";.
, \
<;
~
, I
·
, ":
!
;.~ .
,.
..
,.
o'
••
....
'''''' .. '".'':';.
, neil
71 71
!
8 8 .. 8 ·8
38 38 38 38
I;
;;~ommePded .,>
;
for use
"
" . '.'.'.;
I I
". .
,
.'
I
'.~
.
.. :'"
Owens Corn. Vibrin E-701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
Ashland Ashland Ashland Ashland Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol Aropol Aropol Aropol Aropol
7240 7334 7240 7334 7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334
not recommended for usa
,
cured
Ashland Aropol 7240 Ashland Aropol 7334
;.~,
j
~
.
;
l
n~
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
Owens Corn. Vibrin E-701; laminate
.
60
2
}i"".".2,.,.,..
,
"
"
·8 8
i
·
·
~ .'
71 71 54 43 32 32 82 66 82 66
,
.:'"
I
r
,I
" "
..
..
2
,
!
"
';".
I
I
,:
dishwashing liquid. bideg.
(J)
o
.,
100 100
"
o
,
100 100
Decyl Alcohol
t·
.
..
~.:~:.
Ashland Aropol 7240 Ashland Aropol 7334
"
!. ;~
.2 2 8 8 8 8 8 8 8 8 8
~.;
"
2
24 24 24
8
sour
'.
"
2 2
I
8
C>
,. '<
"
2
sour
"
thiS itllle 'pjelerled matanal "
2 2 .2
2
tOO
Crude Oils
... :.,'
'"""
2
,
100 100 100 100 100
" "
I
I
2
•
•••
fumes
~ .:~;.
2
100 100 100
Cresylic Acid
>75
Material Note .
38 38
8 ~:
<10 100 100 100
" "
>75
Resistan~e Note
Max. Temp.I'C) 82 49 121 77 49
s
5
365
.,
100
mixture
Flexur.' Strength
8
71
Cresol
I
8
12
wi 28% sulfuric acid
Corn Syrup CoUonseed Oil
8 8 8
Modulus
..•,'•....." no.!;i~OIRI1l~!'.~ed'oruse
:~
i
Ashland Aropol 7240 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol Aropol
7240 7334 7240 7334 7240
"< CD
~
CD ..,
C>
Chemical Resistance - Isophthalate Polyester
--.J ~
Chemical Resistance - Isophthalate Polyester
en
o
0> -.,J I\;)
"'C
o
-< (t)
% Retained
en
CD ....
Reagent Note
Reagent ......
,
Detergents
organic organic, pH 12 sulfated sulfonated liquid; biodegradeable
" DFR 121
Conc. Temp. Time Max. POL lIodulus tFluurl1 (%1 .- .. j;tr.ngl~ Tem P.L. .'C. C'CI (dIY~) Rating ............................... .) .1
"
lOa lOa
Arapahoe Chemicals all concentrations
" Diammonium Phosphate
ammonium sulfate
"
10 10
Dibromophenol Dibutyl Ether
Dichloroethylene Dichloromethane
?? V>
lEi' ;:l
t"'
..,0:p ..,
u::
Dichlorophenol Dichlorophenoxyacetic Acid Dichloropropane
Diesel Fuels
Ashland Aropol 7240 Ashland Aropol 7334
38 38
8 8 8
71 54 77
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
8 8
32 32
Ashland Aropol 7240 Ashland Aropol 7334
,
" "
Owens Corn. Vibrin E·70l; laminate Ashland Aropol 7240 Ashland Hetron 99P
,
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
6 2
limited service life expected not recommended for use
Ashland Aropol 7240 Ashland Aropol 7334
129 129
2 2
" "
Ashland Aropol 7240 Ashland Aropol 7334
..
2
2
.
100 lOa
2 2
:.
lOa 100
2 2
100 lOa
2 2
100 100
2 2
100 100
2
lOa 100
2 2 8
I
Ashland Aropol 7240 Ashland Aropof 7334
"
~
" "
"
60
;. :
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
nol recommended lor use
Ashland Aropol 7240 Ashland Aropol 7334
Ashlend Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
" "
32 77 79
.... :
" " " "
"
2
8 8 8
Owens Corn. Vibrin E·70l; laminate Ashland Aropol 7240 Ashland Aropol 7334
" "
2 2
,
.
"
"
2
.',
. "
2
100 lOa
100
Ashiand Aropol 7240 Ashland Aropol 7334
not recommended for use
~.
100 100
premium
Ashland Aropol 7240 Ashland Aropol 7334
this is the prefened material
77 77
2
Dichloropropene
"
8 8
100 100
lOa 100
" not recommended for use
38 38
2
Dichloroethane (1,2-)
n'V>
,
8 8
71 32 32
100 100
Dichloroethane
'"
77
8 8 8
in 32% HCI
Dichlorobenzene (0-)
~
Ashland Aropol 7334 Owens Corn. Vibrin E·70l; laminate
27 27
Dichlorobenzene
S'
"
8 8
"
@
not recommended for :use
2 8
100 100
Dibutyl Phthalate
Dichloroacetic Acid
2
2 2 2
~
Dichloro-4-Aniline (2,6-)
Material Note
2
" Diallyl Phthalate
Resistance Note
Ashland Aropol 7240 Ashlend Aropol 7334 Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
@
,
"1J
Ei ~
Reagent
r;'
Reagent Note ~
..
(J)
~
..
0: ..,
..,
(")
('C)
(days)
Diethanolamine
30 100
Diethyl Benzene
100 100
p
It:
Time
100 100
;:l
t-'
Temp.
Diesel Fuels
(J)
cEo
% Retained Conc.
,
I
POL Modulus Flexural Max. Strength Temp. ('C) Rating 8 8
60 38
8 8
32 32
"
24 24
Diethylene Glycol
8 8 8 8
~:
100 100 100
Diethylmaleate Diglycol Amine diphenyl methane
Dimethyl Formamide
Dimethyl Morpholine
30 30 100 100 100 100
8 8
77 82 66 121
Ashland Aropol 7240 Ashland Aropol 7334
32 32 49 49
2 2
",
66
2 2 2 2
66
2 2 8 2
\~
Diphenyl Ether .24
ii~
A,24"
" "
,
"
i
"
,
"
· ··
,
"
71
2
[
", 2
I
not'recommended lor use ..
.
:",: <~" II
2 2 2 2
,',
·
. I
2
24 24 24
·"
not recommended (or use
2
100 100 100 100 100 100
Ashland Aropol 7240 Ashland Aropol 7334
"
Dimethyl Sulfoxide
<16
Owens Corn, Vibrin E·701; laminate
" " )
2
" "
i "
:
7240 7334 7240 7334
nol recommended for use
nol recommended lor use
8
in 25% sulfuric acid waste
49 49
Aropol Aropol Aropol Aropol
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
2
100 100 100 100 100 100
,i
Ashland Ashland Ashland Ashland
,
.~
2 2 2
Dimethyl Phthalate
o "0 o
".
';-
2
100 100
"
·" ·
,
2
132 .132
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
"
"
.,.
2 100 100
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
" "
2 2 2 2
100 100 24 24
Ashland Aropol 7240 Ashland Aropol 7334
"
2 2 2 2 2
97 97 100 100
water
"
(J)
Ashland Aropol 7240 Ashland Hetron 99P not recommended for use
100 100
Dimethylformamide Dinitrobutyl Phenol Dioctyl Phthalate
.,
2
Diethyl Ketone
Diisocyanate
"
2 100 100
Diethyl Maleate
.. ~'''''''' Ashland Aropol 7334 Ashland Hetron 99P
2
Diethyl Ether
Material Note
Resistance Note
','
··
,
Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol
7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
'< CD
(J)
~
Chemical Resistance - Isophthalate Polyester
0> -....J
W
0> -....J
Chemical Resistance - Isophthalate Polyester
en o -0 o
"""
'<
CD
% Retained
en ~
Reagent
Reagent Note
p,qg:
Conc. Temp. Time (%)
('C)
(deys)
Modulus
Ratmg
~.
Diphenyl Methane Diisocyanate
100 100
8 8
Diphenyl Oxide
100 100 100
'2 2 2
Dipropylene Glycol
Dispersant
anionic, blend
" Divinylbenzene
"
49 49
100 100
8 8
52 52
Drewsperse 732
100 100
Drewsperse 735
100 100
Drewsperse 738
100 100
Drewsperse 74t
100 100
'.
Ethanolamine 100 100 100 100 100 100 100
@
'tl
w/83% methylene chloride, 1% caustic
~
"
CIl
"
;:;' tl
Cll CIl
<5' ;:s
~
.,0.,P \C:
~
Ethyl Alcohol
" u
!
52 52
2 ,2
25
49
30
2 2 2 2 2 2 2 2 6
25
49
90
16 16 16 100 100 100
.
'.'
....
... ;....
,
.,
ethanol
>\
6
. "
,
Ashland Aropol 7240 Ashland Aropol 7334
lim~ed
Ashland Aropol 7240 Ashland Aropol 7334
IIm~ed' se.rvice
Ashland Aropol 7240 Ashland Aropol 7334
service life expected not recommended lor use life expected not recommended lor ~s.
this is the
pr~ferred
,
•..nol recommended for use
...
:~
;"
"
"
"
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
. ..
'0
l
l:,
",
" " "
..... ;-.-
80
89
.'
"
"
"
87
" Ashland Aropol 7334
" "
,
,
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
" "u
;
79
Ashland Aropol 7240 Ashland Aropol 7334
material
;
,
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
IIm~ed
• 38 38
Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7240 Ashland Aropol 7334
service life expected nol recommended lor use
6 2 6 2 6 2
24
., .}'
"
2>
24 24
','
"
Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7240 Ashland Aropol 7334
"
2 2 2 2 2
:
Ethyl Acetate
~
, iiOfiecommendiid;'lohise
8 8
Ether
,
2
8 8
Elvase
I
>;
l
2 2
,
Owens Corn. Vibrin E'701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
I
2 2
f
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
"
2 2 2
52 52 52 52 52 52
.'
<
"
8 8
100 100 100 100 100
Ashland Aropol 7240 Ashland Aropol 7334
"
100 100
,
"
Material Note
....... ···········noliecommeiidedfoiuse
8 8
Dodecene trace HCI
49 49
77 71 49 71
100 100
Resistance Note
Flexur.1 . .. Max. Slr.ngth .J'll!1lP.Jl(;l.
8 8
100 100 100
Dipropylene Glycol Dibenzoate
I
"
i
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
.. ":'u'" Owens Corn. Vibrin E·701; laminate r.el.ains 85" Barco,l'ljard,; fiber prominence '. Amoco; isophth. acid/maleic anhyd.lprop. . . . . . ' " '\ " glycol (11112.2); laminate r.leins'87% Barcol hard,; flecking . "
@
% R.etalned
'U
S CIl ~
n'CIl tl
,Reag~nt ;"~.
:~;'
Reagent Note
Flexural
,.;
Streng.th
.
Ethyl Alcohol
25
49
CIl
1
25 9 .. 2 5 ; : . 49 50
to· ;:l
t-<
0: ....
i=l .... u::
182
6
76
97
365 365
6 5 8
76 >75
97 >75
/retairisd% . ,',
~:'
(1)
"ij!iiitanci Note
Max. Temp. ('C)
',,'?:
"':~)\:,:>.;
;,.
Amoco; isophth. acidlmaleic anhydJprop. glycol (11112.2); laminate
Je~lils 7~% Barcol~ar~,;"acklng
32
95-100 95-100
:;~f~ifll:f·
cured Ashland Aropol 7240
Ashland Aropol 7334
Ethyl Benzene
100 100 100
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
Ethyl Bromide
10 10 10
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
100 100
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334
Ethyl Chloride ::
Ethyl Chlorohydrin Ethyl Ether Ethylene Chloride
ethylene dichloride
Ethylene Chlorohydrin
..
(.~;
Owens Corn. Vibrin E·701; laminate
100 100 100
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
100 100
Ashland Aropol 7240 Ashland Aropol 7334
100 100
Ashland Aropol 7240 Ashland Aropol 7334
100 100 100
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
Ethylene Dibromide
Ethylene Dichloride Ethylene Glycol
Owens Corn. Vibrin E-701; laminate all concentrations
Ethylene Glycol Butyl Ether
100 100
EVA Exhaust Gases Fatty Acid Esters Fatty Acids
lat splitting 100 100 saturated
82 66 121 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
32 32
Ashland Aropol 7240 Ashland Hetron 99P
38 38
Ashland Aropol 7240 Ashland Aropol 7334
91
Ashland Aropol 7240
82 66
Ashland Aropol 7334
82
66 121 77
Ferric Chloride
en 0
~rc;,1 hard.; necking
.....~,:::.:
'::::::\<::>"{~'.::'
Material Note
I
saturated
82
66 121 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
"'C
0
-< CD en
~
CJ)
Chemical Resistance - Isophthalate Polyester
........ 01
0> -.J 0>
Chemical Resistance - Isophthalate Polyester
en
o
"0
o
'< ([)
% Retained
en
CO .....
~
Ferric Nitrate
Ferric Sulfate
,.
~,
POL
Conc. Temp. Time
Reagent Note
Reagent
('r.)
(~~y~)' B~ting Modulus
I'C)
saturated
" "
I
saturated
;
"
.. Ferrous Chloride
saturated
.. ..
.~
0-
Ferrous Nitrate
saturated
Fertilizers
CJl
<E' ;:J
t"'
0:.,
.,p
<.c::
82 66 104 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
·8 '8
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
8 8 8
38 27 27 27
Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7343
,
fumes solution; 10-34-0
;
8
;
and meal exhaust gas •••
boiler coal fired wet; wi 502, 02, C02, N2, H20, H2SO4, HCI, HF, rust water boiler
,
8 2
79
o'
8
82 82 82
8 8 171 171 171 171 <204 <204
2 2 2 2 2 2
'.'
saturated
10
8 2 8
gas
..
100 100 100 100
2 2 2 2
Fluosilicic Acid 10 10 25 25
24 24
'..
8 8
Ashland Hetron 99P
I
32 32 32
not recommended for use '(
.. .. .
,
. . .
i
synfh_ surf. veil generally used ;
, 82
not recommended for use synth. surt veil generally used
Ashland Ashland Ashland Ashland
. . . .
, "
,
sY'lth. suri. v~i1 generally use~
"
..
,
"
Ashland Ashland Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol Aropol Aropol
7240 7334 7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P
nol ,ecommended for use
38 38 32 32
.. ..
,i
..
2 8
8
Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate
,
!
8
,
this is lIle preferred materia:l not recommended for use
,
8
.
"tl
tl l1)
8 8 8 8
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale
..
n'CJl
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
82 66 104 77
@
Fluorine
82 66 93 77
8 8 8 8
.. ..
"
~
8 8 8 8
saturated
recovery boiler upsets
Ei
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
8
J
8 8
.. coallired ..
Fluoboric Acid
!
"
.. ..
Fish Oils Fluconic Acid Flue Gases
,
71 60 104 77
"
Ferrous Sulfate
Material Note
Resistance Note
82 66 121 77
8 8 8
,.
I:~~::~i.~ T~:~~i~~)
~
.••••••
Aropol Aropol Aropol Aropol
7240 7334 7240 7334
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
@
::9
I:l ~
Reagent
'"t l
Fluosilicic Acid
Reagent Note
(%)
0'
;:l
lr;:
Fluosulfonic Acid
2'
35
2
100
27
32
'::):;:;,.; .::ri. ~.~
<
2 2
Ashland Helron 99P Ashland Aropol 7240
"
Ashland Aropol 7334
32 32
Ashland Aropol 7240 Ashland Aropol 7334
8 8 8
32 32 32
8 '8
32 32
Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashlend Helron 99P
100 100
8
38
10 10 10
8 8
32
8
93
25 25 50
"8
49
8
32
Fuel Oils
;;;ri(it;ret(immend~\lfoi"iJse
66
32 not.(eco.mmended lor use
32 32
8
77 77 54
2 100 100 .~:
5 50-100 50-100 .••.•. :•.•..
100
Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334
Ashland Arcpol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240
Owens Corn. Vibrin E-701; lamlnale Ashland Aropol 7240 Ashland Aropol 7334 M
8
82
8
52
8 2
52
"8
32
2 2 2 8
Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7240 Ashland AropoI7241-T-15FOA; steamed 4 hrs.
nol recommended for usif;·;···· ....
2
sulfur
Ashland Aropol 7240
Ashland Aropol 7334 Ashland Helron 99P
8
8
concenlraled
Ashland Aropol 7334
Ashland Helron 99P Ashland Aropol 7240 Ashland Helron 99P npl recommended (or use
8
8
100 100
IFurfural Alcohol
Ihls Is lbe preferred malerial
2
Fruit Juices
Furfural
,
.. l~hid_~~!ViclJliteexpeCled
6
2 2 8 2 2
Ashland Aropol 7240
49
2
oXidizing
Ashland Aropol 7334
8
100 100
Gases
:~:-.::)( .
::'~.. ':?
8
50 50 100
en o
Ashland Helron 99P Ashland Aropol 7240
Ashland Aropol 7334 Ashland Helron 99P
Formic Acid
phenate based
·SY'1lb. sull. ven gen,rally used . notr~com~endedfor US.e • ,
93
50-52
Fungicide
Material Note
66
25-37 25-37 37-44 37-44 37-44
no. 1 and no. 2
Resistance Note
8 8 8
25 25 25-37
Fumigants
I
Flexural Max. Strength r~mRl(r£1
32 32
25
Formamide
I
8 8
slurry
Formaldehyde
% Retained
Modulus
35
10027
Fly Ash
I POL I (days) Ra~'ng
I
8 2
35
cEo '"
.,0: I:l .,
('C)
25
<1l
t-'
I
Cone. Temp. Time
Ashland Aropol 7240 Ashland Aropol 7334 no! !es~mmende.dfor use .;~- ::>':,' '". ',;'
~Ol re'~ol11mencl~d f~r~s~. ;'l:c
32
Ashland Aropol 7240 Ashland Aropol 7334
Owens Corn. Vibrin E-701; laminale Ashland Helron 99P Ashland Aropol7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminale Ashland Helron 99P
"0
o
-< CD en
~
--.. -... C>
Chemical Resistance - Isophthalate Polyester
Chemical Resistance - Isophthalate Polyester
en
o ""0 o
0> -..I
CD
-< CD CO ......
,
Ii
en
Reagent
Reagent Note
Gasoline
'.~
..
'
"::y'
.. .~
..• .. ~
23
Flexural Strength
"
Resistance Note
Max. Temp. ('e)
30
Owens Corn. Vibrin E·701; laminate
71
9
96
92
• retains 97% Sarcol hilrd.; no appear. chg. ... .;
90
8
94
92
23
182
'9
97
96
retains 96% Barcol hard,; no appear•.chg(
.,,23
365
9
100
100
retains 97% Barcol hard.; no appe'i. ~hg:'-
'23'
365
5
>75
>75
100 100 "
..::;
,
.,
retains 85$ Barcoi hard':; no aPpear. chg.
27
8
.8
27
8
38
'8
38
7
cured
;(..
,,'.
Ashland Aropol 7240
0'
Ashland Aropol 7334
.';;',
"-
00
Ashland Aropol 7240
):'.
Ashland AropoI7241·T·15FDA; steamed 4 hrs.
acl:epl~ble as 10 ~:or j
'0
IIISle
~:
50 50
:ic:;.
Glycerin Glycerine
.,,8 8
100
8
82
8
77
':: ,:
100
8
~
Vl
;:l
t: ., P .,
0tl:
:'
Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7334
25
102
25
102
2
25
Hi2
2
25
.; ~::
j
102
Ashland Hetron 99P
,
60
Ashland Aropol 7240 ::.,
49
..
60
49
100 100
8
38
.
normal
100
"
100
B.
vapor and condensate
100
n-heptane
'C
100
.,:""':::.::
;::
::,.
,:: -0.
..'
I
:,
'0
'.'
66
..
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
'0
not recommended,lor use
2
2 - 8 B:""
100
Ashland Aropol 7240
-
2 ~~ :;
Ashland Aropol 7334
-
i 38
Ashland Hetron 99P
Ashland Aropol 7240
"'II
8'
Ashland Aropol 7334
Ashland Hetron 99P nol recommended for use'
2
'j
·
Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
49
8 8 2 2
'tl
cEo
'.
66
2
n' Vl
"'.
82
:"-
.,,'.'
""'"
."'.
Ashland Aropol 7240
Green Liquor Halso 99
.,
'.
49
.::
Heptane
Ashland Aropol 7334
,
8
,.
Golden-Glo
~
Ashland Aropol 7240
66
70 70
P
Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
35 70
@
Ashland Aropol 7334
93
35
·
Ashland Aropol 7240
·8 8 8 8
35
w/ saturated S02
Owens Corn. Vibrin E·701; laminate
";::L'
82 '.'
8
.. ,
..i'\,
77
100
100
Glyoxylic Acid
,
Ashland Aropol 7334
., .,.<~,i
,
49
100
"'.
.",.
52
,8
100
Glycolic Acid
66 52
i·····'·'S
.
".-:'
Glucose
8
8 8
·
'.,
2 ;'
Gluconic Acid
· ·· ·
Amoco; isophth. acid/maleic anhydJprop. glycol (111/2.2); laminate
..
'23
unleaded
50
Material Note
x
o.
not recOmmend?i1.10!.use
8
~.
·· ·
I
2
"
Amoco lead free
Gelatin
Modulus
~:::;
:
,.
% Retained
Conc. Temp> Time PDL :(('c) '(days) Rating, (%)
with methanol
marine
::::
Ashland Aropol 7240 Ashland Aropol 7334
,'.
Ashland Aropol 7240 Ashland Aropol 7334
-
Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate .
~.'
93 49
Ashland Hetron 99P
49
Ashland Aropol 7240
49
!
"~'i'
""':,. .: ':,',!;'
Ashland Aropol 7240
Ashland Hetron 99P
@
"1:l
S" ~
Reagent
I
Reagent Note
ri'
en tl (1l en
Herbicides
t: 0., .,~
<.c:
Max.
•Resistance Note
Material Note
27
notlecommended for usa . ~~i~~on m~y ilisc~lor . nOI re~mme'1d~d for use.
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334
Tem . 'CJ.. ·.·.·.·.·.·.·R·L
Hexamethylenetetramine Hexane
Skydrol500
2 2
28
B
27
B B B B B .2 B 8 2 2
60
100 100
Hydrazlne
70 70
Hydriodic Acid
10-58 10-58 18 18 18 25 25 25 48
Hydrobromic Acid
Hydrochloric Acid wi 20% phenol. 70% water
Hydrochloric Acid
w/ 2.6-dichlor-4-nitroaniline
32 32 32 32 32 35 35
n.
this is Ihe pI~ferred male.ial
49 49
'. 'not rec.ommended for use 54 38 nolreconimended for use· x::"
'
~}::.
nol re~ommended. for use It., ~.;.,
71 66 110 66 66 66 110
49
30
2. 2 8 B B 8
,j9 ..
90
7
.:~;
38 110
srrith. surf. veil. generally used
,
:~
synth,; suri. veil generally used 'M
nol (ec~~.m~mlM!91)1~e svnffi.suiCv8(f'geneiallY used
limitedi~I'I~.;i;e
expecled; this is ." .. ' :' Platerred malerlal. ;i1ori~bh¥£endedfor use)
52 32 32
100
100
82
85
Ashland Aropol 7240 Ashland Aropo! 7334
Ashland A,opol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Het.on 99P Ashland Aropol 7240
·
66
B 8 6
Owens Corn, Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropo! 7334
SYril~,siiii.;iieli· giiniiiiiiiiused
71
8 8 2 2 2 8 8 B 8
Ashland Aropol 7240 Ashland Aropol 7334
Ashland Aropol 7240 Ashland Aropol 7334
•
71 38 71 71 38 71 71
8 B 8 2
66
Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334
71 71
8 8 B B 8 8 8
,",-.
Owens Corn. Vibrin E-701; laminate Ashtand Aropol 7240 Ashland Aropol 7334
·
2 2
1-5 1-5 10 10 10 10 10 10 <15 15 15 15 >15 20 20 20
'.
,
100 100
Hydraulic Fluids
o o
Irtiflb .....Jt
2 '2
Hexachlorocyclopentadiene
Hexylene Glycol Ammonium Chloride
"0
,,~~~~~i'l
8
1-10 1-10
100 100
en
i
2 liquid
to· ;::s
% Retalned~;;
I
Cone. Temp, Time'l POL (%) I'C) (days) • Rat,ing
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropo! 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701: laminate Ashland Aropol 7240 Ashland A.opol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240
Ashland A.opol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P ret.aiDs 93% Barciil.hard~: fiber prominence•. Amoco; isophlh. acid/maleic anhyd.lprop. .\ . . .. .: coldr chg. glycol (1It/2.2); laminate • te~!ns lQO%'~Ba.rcol lia.rd.: cOlor~hg, synth. '.".':,: :
veilg,n,iaiiY used .
...
"'~~
-',
.
'< CD
en
~
(J)
Chemical Resistance - Isophthalate Polyester
........ CO
Chemical Resistance - Isophthalate Polyester
(j)
o o
0> CO
<:>
"'C
'<
.,
en
Reagent,
!(~.aie.riaIN?te .
flixurail. Max. Strength Temp,,("cJ
Reagent Note
Hydrochloric Acid
'retains Tl~Baicol hard.; fibarpromi~~n~a, Amoco; isophth. acid/maleic anhyd.lprop. glycol (111/2.2); laminale ··<>\i.· >,~ol~~;c;~l{'.·:L\\
77
35
.49
365
35 36 36 36 36 36 36·37 36-37
49
365
3
66
retai~J71%B~rc9Iherd.;c,ol~E Chgi;Jlbet ,.'
40
''', ·.,:prom!~~,n.ce"
wi trace organics
Hydrocyanic Acid
", . "
~he'/i1easut~d.'Pf6p~rtYWa~<50%'[elamed" 27 27 32 66 32 38
hydrogen cyanide saturated
"\
SY~Ul.~~rf.Veil~~?eta!1yus~cf :.:~
U:"
.~:
:;~c ":; .
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Hetron 99P
38
93
Hydrofluoric Acid w/ 50% nitric acid
w/ 50% stannous fluoride
w/12% nitric acid
5 5 10 10 10 15 15 15 20 20 20 20 22 22 24 24 40 40
Hydrofluosilicic Acid
© '1:l
S"
Hydrogen Hydrogen Bromide
~
o'
dry gas wet gas dry
(f)
~
(f)
wet
tEl· ;:s
t'"'
0: ..,
..,
l=l
Hydrogen Chloride
dry gas wet gas concentrated
49
'49'
.~~;;:;;:Z~~~:i:;~;,:~::ed1
38
syntll. surf.eil ge~erall)'used ,K,::
38 32
,:; not iacommendedfot use ;;nUi. sU.rf.~eil gen~rli.(IyOs~d··, • nolo recomm~nd~dforuse ::;.;::; :{ . . " .
38 .2
2 2· 2 2"
:"11' ~.:.
.27 27 ""2 ,2 2:,'
10 10 35 35 35
38 38
100
121
cured Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropo( 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
'
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Ashland Ashland Ashland Ashland Ashland
Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
100 100 100 100 100
66 32 32 32 32 32 71 60
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240
@
..
.~'
'0
S"' ~
n'
'"0
C1l
'"
IReagent
IHydrogen Chloride
J:J
Reagent Note
Time (days) "
concentrated absorber
,99-100 36 36 100 100 100 100 100 100 100 100
cEo ;:l
~
.., ..,>:l
I
anhydrous
0-
<.c::
I
gas, dry u
gas, wet
Hydrogen Fluoride wet vapor wet
12 35 100 100 100
u u
Hydrogen Peroxide
wi 95% acetic
1.5 5
5 <10 35 vapors
Hydrogen Sulfide
50 50 50
all concentrations
dry gas wet gas
Rating
% Retained Modulus
I Flexur.1 Sirenglh
ITe'!'p. Max.
('C)
,n~(~~~~'men~~dl~;
2
2 2 8 8
8 8
8 8 8 8
2 8 8
35 35 35 70 70 70 concentrated
'::~;::-::::;:~::::,::
32 32 121 49 49 49 49 49
-
"0
o
Iodine
"."
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P
8
8
32 66
Ashland Aropol 7240
49
Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminale Ashland Helron 99P
/. 8
8
.a"·.. ·'·, 2 2 8
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
38 Ashland Aropol 7240 Ashland Aropol 7334 60 60 121 77 60
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
60 49 60 49 49 49
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
32
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
wi hydrogen iodide vapor vapor
100
41 41 41 32 32 66 82
dien
a> ..,
'::~.
use
Material Note
32 35 32 32 32
32 <10 10 10 10 20 20 20
en o
Resistance Note .' .....·F:: ."
-
Hydroiodic Acid Hydroxyacetic Acid
Hypochlorous Acid
I POL
0)
Chemical Resistance - Isophthalate Polyester
00 .......
Chemical Resistance - Isophthalate Polyester
en
o
0> 00 I\,)
"0
o
'< CD
% Retained
en
CD ......
Reagent Note
Reagent "
losprep 44
..
Temp. Time
Conc.
('C)
(%1
,.
10 Oz/9al
POL Rating
(days)
,
Isodecyl Alcohol Isooctane Isoprep 33
100
"
100
2
all concentrations with 75% toluene
25
365
5
50z/9al ;
8 8
';
2
8 8 8
10 10 100 100 100
8 8 8 8
.. 100 100
Isopropyl Sulfate Jet Aircraft Fuels
~ ;J
" " "
100 100
'.
100 100
., .,
0-
P
Levulinic Acid
I
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
32
77 82 82
I
Owens Corn. Vibrin E'701; laminate Ashland Aropol 7240 Ashland Hetron 99P
71
.
Ashland Aropol7240
Owens Corn. Vibrin E'701; laminate
8 8 8
" "
27
Ashland Aropol 7334
82 66
71 49 79
all concentralions
8
71
" "
8
54
8 8 8 8 8 8 8 8 8 8 8 8
93 71 54
I
saturated
100 all concentrations
saturated
l l
..' ...
Ashland Aropol 7240 Ashland Aropol 7334
.,
27 27
8
,
,.
27
66 49
"
t
Owens Corn. Vibrin E'701; laminate Ashland Aropol 7240 Ashland Aropol 7334
8
8 100 100
" Lauryl Alcohol Lead Acetate
nol recommended for use
not recommended for use
27
"
CIl
I
54 27 27
8 8 8 8 8 8 8
"1:l
15'
Ashland Aropol 7240 Ashland Aropol 7334
100
saturated; wi citric acids
CIl
74
.
jet aircraft fuel
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 cured
66
..
Ashland Hetron 99P
71
32
@
ri'
,
>75
8
100 100
Lauric Acid
>75
100
vapor and condensate
~
, .n~lr~fWJ1!lWld~d;J9ruse
jet fuel A
Kerosine
S
I
Ashland Aropol 7240 Ashland Aropol 7334
,
2
Kaolin Slurry
Lactic Acid
i
?
2
Isopropyl Palmitate
.
Ashland Aropol 7240 Ashland Aropol 7334
nOl recommended lor use
49
8 23
Material Note ,'
.,
32 32
100
Resistance Note
!
60
polymethylene polyphenyl
Isopropyl Alcohol
JP4
Max.
~t 8 8 8
"
JP 10 JP 9
Flexut.1
Slrengi~:r"l.mP\U91
2
100
Isocyanate
I
2
" Iron Perchloride Isocure 306
Modulus
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P Ashland Aropol 7240
,<"
, j
,
Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240
,
Ashland Aropol 7334 Ashland Hetron 99P
,
Ashland Aropol 7240 Ashland Aropol 7334
77 71 54
Owens Corn. Vibrin E·70t; laminale Ashland Aropol 7240
:~:
Ashland Aropol 7334
77
..;
z·
Owens Corn. Vlbrin E·70t; laminate
,.
49
Ashland Aropol7240
71
"
71
Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
77 71
,;
...
Ashland Aropol 7240
© "1:l
P
'.....::;."
'"t:l
% Retained
Re~~~n,t :::::.;-:-'~
Lime
C1l
'" <5' ;::l
t0"
.,p
.,
Time (dayS)
."",.", , ,.
ILinoleic Acid
Liquid Chlorine
Magnesium Bicarbonate
Magnesium Carbonate
. . "".
. ,""~
:
ii,
:,
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240
F
Ashland Aropol 7334
Owens
1;1
8
54
100
2
I
Ashland Aropol 7240
100
:\
I
Ashland Aropol 7334
'
,j
"" .
'.. ~
....' 8
<
~i I~J:~~~
.,,8
saluraled
j "..,~~:E·2:~£::·m,,,.
j~ ;'r~rt~~.;I}:\" , "..,~:~~?;~:,~~~'"." ::,;!;:!,/t\; 82
l
saturated
~:~::~: ~;:~:: ~~;~
."i·
Ashland Helron 99P Owens Corn, Vibrin E-701; laminale
......
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn, Vibrin E-701; laminale
2
saluraled
8
!,
. •••. 'i .•
~: 71
Mercaptan
,
saturaled
8
100 100 saturaled
aromalic
100 100
,(. :'
93
,
8
71
8
en
I
salurated
".... ,
·}L.
8'
,..."
J:.;',
~:~::~: ~;:~:: ~~;~ Ashland Helron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
60
;
Owens Corn, Vibrin E-701; laminale
I ,
Ashland Aropol 7240 Ashland Aropol 7334
Ijj~;;;\;jt:.:,~;,;,..
::::~~~~:;,:~~:::
::
<:;. ",\.\ .;' . " t',
Owens Corn. Vibrin E-701; laminale
82
Ashiand Aropol 7240
54
Ashland Aropol 7334
0 "0 0 '< CD
en a> -.
. ; ••';
." •
."
77
Mercurous Chloride
}',. .
Ashland Aropol 7334 Owens Corn, Vibrin E-701; laminate
,
Mercuric Chloride saluraled.
,i/. }""",
38 2 2 '
.,
...;
.;.'. /' .'{'
82
32 32
';)\'.
';.\(~. ·~.';r
66 8 8
'.'
' . ' . :•... ,::.-' .):;;
77
Maleic Acid
~;~~~nV~b;~:pE~~~~~~aminate
100
saluraled
Magnifloc 509C
:,:.:E~;!E
I~;»,"'
71
Magnesium Sulfate
N~te
I
ii,
"';~/'/;
Material
~:
77
Magnesium Nitrate
.
8
66:.C: 104 "".,
Magnesium Hydroxide
'"
1,;tJ~i~~'.:~;
71':-"..,,;' 71 .'"
Magnesium Chloride
.
77 71
100
Lithium Chloride
,.
1D O "
ILinseed Oil
I
IRatlO9 P~L. ·1·lIodulus FlexU·'._.'1 ~ai.• 'I.. ... R.e.s.l.sta..nce~o~~1 ' Sl!anglh Tel11P~ ( t ) . . : ' , . ,
0)
Chemical Resistance - Isophthalate Polyester
CD
W
Chemical Resistance - Isophthalate Polyester
(j)
o o
0>
ex> ~
"'0
-<
~Retained
rn
<0 ....
Re~ger;t
'Flexural
Mercurous Chloride Mercury 100 100
Ashland Aropol 7240 Ashland Hetron 99P
74 ('4
Ashland Aropol 7240 Ashland Aropol 7334
100 100
38
100
32
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
100 100
32
Ashland Aropol 7334 Ashland Hetron 99P
-
2
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
24 24
polychlorophenol blend
Ashland Aropol 7240 Ashland Aropol 7334
100
27
100 100
52 52
-
90 90 90 100 100 100
:'8 8
'1::J
~
and milk products
"
100 100
Mineral Oils
t::l
100 100 100
I1l
V>
l5" Morpholine
100 100 100
Ashland Aropol 7334
v:'
";.;-.-
waste
;:;.
Ashland Aropol 7240
notrecornmend8d ior use'
"
~
Ashland Aropol 7240 Ashland Aropol 7334
,?O
100 100
wi 5% chloroacetic acid
Milk
2
MMA
Methylene Chloride
@
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
2
100 100
Methyl Styrene Methyl Tertiary Butyl Ether Methylene Bisthiocyanate
Ashland Aropol 7240 Ashland Aropol 7334
-
100 100
.,
77 82 121
100 100
Methyl Methacrylate
l=l
Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
Methallyl Chloride
Methyl Isobutyl Ketone
u::
99 77
Ashland Aropol 7240 Ashland Aropol 7334
100 100 100
t'"
'-"::"':"':<"
63 63
Methyl Ethyl Ketone
0: .,
?
100 100
Methyl Alcohol
;:l
< Mat~iial Note
'Max.
Methacrylic Acid
Methanamide
V>
I
Stt~ngth Temp. i'c)
~'"
82 66 77 32 32 77 82 66 82
'" ,,'
Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
@
% Retained
"1:l
~
'"..... r;'
'"tJ (1)
tE· '"
Reagent
(~l
Mustard Myristic Acid Naphtha
8 8 8 8
77 82 66 93
100 100 100
8 8 8 8
82 66 49 54
saturated
8
82
.
8 8 8 8
82 66 104 77
I
8 8 8 8
82 66 104 77
,
8 8 8 8
82 66 104 77
!
..
;
".:1
.. i saturated
.
.. Nickel Sulfate
salurated
.
. Nitrating Acid
i
spent
.. ..
red tuming
100 100 100
.
.. Nitric Acid
Nitric Acid U>
o o
"0
wi 10% hydrochloric acid
..
.~.
'" Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate
.,
'"
}.
..
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
l
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
.
Ashland Aropol 7240
..
..,
.~;~:.
:, .;
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
, ,
...
Ashland Ashland Ashland Ashland
.
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
not re'commended for use
..
.:
...
<5 5 5 5 5 5
71
30
8 8 8 8 8 2 8
90
100
5 5 5
71 71 7t
90 90 182
7 5 7
84 95.8 85
92 55.4 92
retains 8~~ Barcol hard.; flecking 8arcol hard. reduced by 4 retains 89% BarcoI hard.; color chg., . 'flecking, wicking
5 5 5
71
71 71
182 274 365
6 5 6
97.6 95 82
67.6 45.3 88
5 5
71 71
365 365
5 3
94.2 >60
29.5 >60
Barcot hard. reduced by 3 8a~col 'h~rd.r&d~ced I)y 8 .retains 81% Barcol hard:; color chg., flecking', WI.ckl)ig .' !larcol hard. reduced by 10 ., :..
;,:
,, r
, 60 66 71 49 93
...,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·70t; laminate Amoco; isophth. acid/maleic anhyd.lprop. glycol (11112.2); laminate
not recomniended for use retains 94% Barcol hard.; ffecking
..........
,.
no~:.~ecol\lmended for use
..
32
7240 7334 7240 7334
..
,
:~~:
Aropol Aropol Aropol Aropol
Owens Corn. Vibrin E·701; laminate
j
2 2 8
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
~::
2 2 2
10 10 10
Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
.' :. : :. <.
I·
'24 24 24
vapor
Material Note
Resistance Note
"
2 2 2 2
strong
Nitric
Max. Temp.I'C)
100 100 100
Naphthalene
Nickel Nitrate
Flexural Strength
71 77
.,0-
Naphthenic Acid Nickel Chloride
I
8 8
t
lIodulus
Rating
3% sodium chloride, 5% acetic acid
;:l
.,P
POL
Temp. Time ('C) (days)
Conc.
Reagent Note
." ··.L.,·... :,,';
..
Amoco SG·l0; isopolyester Amoco; isophlh. acid/maleic anhyd./prop. glycol (1/1/2.2); laminate Amoco SG·l0; isopolyester
..
Amoco; isophth. acld/maleic anhyd./prop. glycol (11112.2); laminate Amoco SG·l0; isopo/yester cured
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240
'< CD
U>
~
Chemical Resistance - Isophthalate Polyester
0) (X)
01
(j)
Chemical Resistance - Isophthalate Polyester
UJ
o
OJ (j)
"'C
o
-<
?:
(\)
UJ
(j)
.....
Rea.gent
Reagen~ Note . . . . . . . -:-
:::::.:.>
:.
Nitric Acid
vapor
wi 5% hydrofluoric acid vapor
Conc~ (%) 10 20 35 35 40 40 48 48
50 50 50 50 60
T~~~r"I;~i;~
.PD~:
fertilizer solution
Nitrous Acid
Nonyl Phenol
Oils
'1:l
S'
ground
west texas sour low sulfur crude medium sulfur crude
2 '2
82 82'
2
2 2 49' 49
2 2 8
35
Ashland Aropol 7240 Ashland Aropol 7334
8
27 27 27
8
8 8 2 2
82
8
66 49
u::
Ashland Ashland Ashland Ashland
l
Ashland Aropol 7334
32
49
8 8
43 43
8 "8
32 32
8 ·8
71 38
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Hetron 99P Ashland Aropol 7240
, this i~,lhe preler.red mat~rial
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
r
Ashland Aropol 7240 Ashland Aropol 7334
99 66 82 66
Ashland Ashland Ashland Ashland Ashland
32 100
.. 8 8
100
.... :i .
. Ii
:"8
fuming sulfuric
I
82 54 93
"C:;"
"n~fi8eoiii~~~d8ilii#USe ..•..
).::
t 77 100 100
;
7240 7334 7240 7334 7240
32
2
Olive Oil
Aropol Aropol Aropol Aropol Aropol
49 77
100 100 100
Aropol 7240 Aropol 7334 Aropol 7343 Aropol7240
.noi recommended for use
8 8 8
100 100
;J
t-
Owens Corn. Vibrin E·701; laminate
not recommended for use
2 2 2
28 28 28 100 100 100 <10 10 10 100 100 100
15'
o:., l=l .,
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
2
Oleic Acid
Oleum
Ashland Hetron 99P Ashland Aropol 7240
2·
sour crude, wyoming
~
~
Resistance Note
',2
saturated
n'en en
MiIx.
Temp. ('CI
nol reco",,,,ended for use
sweet crude
@
Strengt,h
2
Nitrophenol
Octanoic Acid
::;~;'
79
100 100
Nut Oil
:'Flexu,aJ
Rating .
....:...:.:,
;
Nitroaniline Nitrobenzene Nitrogen
"'M~te:;;f~ote
.~::
82 54
.}L
:::~)
.: ~
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
@
% Retained
~
po
Vl
~.~
Reagent
~
n'Vl tl
,.
Oxalic Acid
(1)
Conc. Temp. Time
Reagent Note
('Jf.)
~
Vl
;:s t-'
0: ...
,
0
Palmitic Acid
saluraled
,
0
...
l=l
POL Rating
all concentralions 0
<E'
(days)
('C)
0
Peanut Oil Perchloric Acid
100
Phenol
Phosphoric Acid (85%): wi 50% sulfuric (93%)
vapor and condensete polyphosphoric acid
Phosphorous Acid Phosphorus Oxychloride ,
wi 1·2% hydrochloric acid
71 71 71 77
!
79
l
:(
2
I
2. 2 2
~~ ,
;.:.
I
'49 !l9
~:
~~
4
?
'.j;:"
~t
~ ~::: '\'
· o
··
,
I
I
•
, ;.::
"Ii
"
,.
! l
I 0<:
,
2 2 2 2 2 2 2
I ~
;"".'
77
8
71 66 104
,~
49
'~
27 27
·
\
,"
~~
< .?~.
:
/
~"
','Ii" ::;':::.::~:: .....-
.~:/;
l:'~r!b~. ~ L..'::'
·x·-$"" " .
Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminale Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn, Vibrin E·701; lamlnale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
1 ; .
>75
~:
~.:
,
>75
··
··· ·· ..··
I
8 2 2 2
,:.
0
,
32 32 32
,:' ~,}.
"/
I
8' 8 8
'~
nol recommended for use
!,
8
70
Ashland Aropol 7240
2 2 2
365
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn, Vibrin E·701; laminale
,
2 2
I
Material Note Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn, Vibrin E·701; laminate
.,,;:.
I
2 2
'-:Y~
<15 50 50 50 85 85 85 85 >85 115 100 100
8 8 8 8 8
.~
I
Resistance Note '.';
82 60 104 77
2
10 10 100 100 25 25 25
Max. I Temp. ('C)
8 8 8 8
2
fumes
Phosphate Salts
I
2
Perchloroethylene 100 100 100 100 100 100
FleKu,al Strength
2 2
5 5 10 10 30 30 <70 <70 vapor & condensate
Modulus
'X{/
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P cured Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334
en
0 -C 0
-< CD ~
CD ...,
0>
Chemical Resistance - Isophthalate Polyester
00 -oJ
0> 00 00
Chemical Resistance - Isophthalate Polyester
en
o ""C o '<
CD
% Retained
en
CD ....
Reagent Note
Reagent Phosphorus Trichloride Phthalic Acid Phthalic Anhydride Pickling Solutions Picric Acid
Conc. Temp. Time ('C)
(%1
...
100 100 100 saturated
.. ..
gold; sulluric
25
alcoholic
..
!
!
, ,
!
I
,
zinc cyanide bath chrome plating
38 36
..
'il
S
Potassium Bicarbonate
~
<.5' ;:l
t
.., P ..,
0-
te:
"
~
..
~
"
2
u u
32
i
,, :
,! !
,
"
,
not recommended lor use u
..
u
Ashland Aropol 7240
limited service life expected; this is preferred materiet
32
32
'.,.",
Ashland Hetron 99P
, ,
-
:~.
.::
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
'~::
,
..
66
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
,
71 82 54 71
.. ..
,
.,.
,.
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
, "
60 32 not recommended lor use 71 54 32 71 54 77
.,
-.
it '
:~
~~.
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334
.-
."
2
82
saturated
..
.. -'
•
8 8 8 8 8 8 8 8 2 8 8 8 8 6 8
<10 10 10 10
Potassium Bromide
~-
2
49 27 38
, ,
!
noHiiciifurileridedtoruse
8 8 8 8
.. .. .. ..
~
"
." "
38
2
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240
,
32
saturated
en
,
I
66
.
en
2
8 8
,
Owens Corn. Vibrin E·701; laminate
"
not recommended tor 'use
8
all concentrations
".'
•
2
.,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
,."
"," .
66 66
100 100
. ..
;:;.
i
."
38
100
..
@
66
:'"
2 6
38
Potassium Aluminum Sulfate
8 8 8
2 8 2
Plus 5
Potash Mine Fumes Potassium Alum
71
2
..
emulsion
8
Material Note
Note
solution ma1 discolor not recomm.ended for use
"
2
lead plaling, alkaline silver plating
Polyvinyl Acetate
32
2 2 2 8
10 10 10
.. chrome bath ..
emulsion
8 2 2
2
cadmium cyanide
Polyacrylamide Polyvinyl Alcohol
~eslstance
POL lIodulus I.Flexural Max. Rating ...... .Str.n~t~ r!lmPdl~l
8
aqueous saturated
.
Plating Solutions
(days)
,
~:
Ashland Aropol 7240 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
@
"'0
E"' ~
ije~gent
Time :'(daysl
ri' V>
~ V>
I
% Retained
Material Note
32
Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
8 8 8 ·8
32 32 32 32
Ashland Aropol 7240 Ashland Hetron 99P Ashland Aropol 7240 Ashland Hetron 99P
8
82 66 93 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
,8
82 60 82 66 93 82 66 93 77
Ashland Aropol 7240 Owens Corn, Vibrin E·701; laminate
saturated ',,'
;":2 2
cEo <10 10 10 25 25
t-
o:.., ..,~
tt::
Potassium Chloride
all concentrations
Potassium Dichromate
all concentrations
~
,~,
r::::':
(.:.:.
Potassium Ferricyanide
8.. "::.(..,:.
t
saturated
""8' ,.;:
Potassium Ferrocyanide
~~.
Potassium Hydroxide
. .
2'
",
;:l
IModUIUS
Rating ,
..>;~
Potassium Carbonate
;.,~
Max. T~inp':('CI
POL
.
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
2
y
Ashland Ashland Ashland Ashland Ashland Ashland
10 10 45 45 50 50
Potassium Nitrate
all concentrations
Potassium Permanganate
all concentrations
8
Potassium Persulfate
all concentrations
"
"
::: ~
j .'-".
Potassium Sulfate
all concentrations
Propionic Acid
Propylene Glycol
en
o
8
I
1 1 80 80 all concentrations
8 2 8 2 8 8 2
,!
"
,..,,8 >'8
"~':":'
-.
:~.~: .,~
8
82 66 93 77 52
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn, Vibrin E-701; laminate .not
66
Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334
.;i~:ominended for use
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
32 32
Ashland Aropol 7240 Ashland Hetron 99P Owens Corn, Vibrin E-701; laminate
82 66 93 77 27 27
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn, Vibrin E·701; laminate
77 66
Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol
7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334
"U
o
-< (l)
en
CD ....
0)
Chemical Resistance - Isophthalate Polyester
00 <0
Ol
Chemical Resistance - Isophthalate Polyester
en
o
<0
o
"0
o
-< (l)
% Retained
en
ro ....
'Reagent
Reagent Note
. Propylene Glycol Pulp
Conc. Temp. Time· POL ('l) ('C) (days) Rating
all concentrations
,
stock; tumes
..
Pyridine
Skydrol500 Slimicide
. .,, .,
treatment
, , ,
.. ..
..
.,
i
all concentrations
organotin amine blend
Soaps
8
.
..
100 100 100 100 100 100
po
~ C:;' (I)
f6'
Sodium Benzoate
;:l
~
.,
0-
.,
P
8 8 8
82 66 93 77
8 8
32 32
8
77 66 66
,
saturat.d
8 8
"
,
..
<10
.ihis"stffepreferiia'lrrllterial
"
.
this is the pr.ferred material
,
8
8 "..•.•••.".2,
:.
~
this is the pr.f.rred mat.rial
.
.
. ••••
,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn, Vibrln E·701; laminate
Ashland Ashland Ashland Ashland
Aropol Aropol Aropol Aropol
7240 7334 7240 7334
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn, Vibrin E·701; laminate Ashland Aropol 7240 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
..
",
60 60
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropoi 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashfand Hetron 99P
Ashland Aropol 7240 Ashland Aropol 7334
:~
not r.comm.nd.d lor use
79 79 77
Ashland Aropo! 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
..
2 2 2
,
8
Sodium Bicarbonate
,
limited service life expecled not r.commend.d for use 32 32
8
, ,
-.;
52 52
8 8 8
saturated
(I)
tE'
29 29 29 32 32 32 32 32 32
..
Ashland Aropol 7240 Ashland Aropol 7334
,
2
..
.. .. .. ..
8 8 8
.
y
6
52 52
100 100
Sodium Aluminate
32 32 32
8 8
Sodium Acetate '\:l
8 B 8
8
. .
, ,
8
8 8 8 8 8
Owens Corn. Vibrin E'701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
not recomm.nded lor us.
82 66
8
:
solution
@
Ashland Aropol 7240 Ashland Aropol 7334
8
1
thiocyanate polychlorophenol blend
49 49
100 100
.. .. municipal; treated & untreated ..
..
8 8
27 27
anaerobic
hydraulic fluid
Ashland Hetron 99P Owens Corn. Vibrin E'701; laminate
8
.. ..
Silver Nitrate
77 77
100 100
.
Mat!lrial Note
8 8
38
,
Resistance Note
Max. . Temp. ('c)
8
Septic System
Sewage
Flexural Strength
' 2 2
spinning fumes
Sea Water
I
2 2
100 100 100
Rayon RJ·4 Fuel
Modulus
W .~.
, ;
Ashland Aropol 7240 Ashland Hetron 99P Ow.ns Corn, Vibrin E·701; laminate
"
. not r~~~mmel'lq~.qJ9r~S.
....
Ashland Aropol 7240 Ashland Hetron 99P Owens Corn, Vibrin E·70t; laminate
@
Ei ~
n'Vl
f? Vl
<5'
flea gent
Reagent Note
Cone. Temp. Time.1 POL (%) ('C)" (d~YS) • Rating
Sodium Bicarbonate
10 10
Sodium Bichromate
I I I Modulus
flexural Sirength
Sodium Bisulfate
82 49
8
32 60
.... I:l ....
8
lC::
Sodium Bisulfide
w/15% sodium hydroxide
Sodium Bisulfite
saturated
Sodium Borate
saturated
8 2
15 15
~:.
Sodium Carbonate
8 8 8 8 8 8
all concentrations
..
,
saturated
vapor and condensate
71
10
71.
30
6
86
84
10 10 10
71
71 71
90 182 365
6 6 6
82 82 82
76 85 82
71
365
5 8
>75
>75
8
6 2 2 8 .. 2
saturated
90 90
Sodium Chloride
CIl
pH 10.5. C12; saturated pH 11. some C12 saturated
8 8 2 8 2 6
2 <10 10 10 10
10 25 25 32
Sodium Chlorate
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
,.
not recommended for use
8
Sodium Bromide
Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
/
2
8 8 ,8 8 ·8
.8 .=::,:
8 2. .6 8 8
8.
Material Note Ashland Aropol 7240 Ashland Aropol 7334
82 66 93 77
8 8
all concentrations
0-
Resistance Note
Max. Temp. ('C)
8 .8 8
;:J
~
I
% Retained
I I
"1:l
u
Ashland Aropol 7240 Ashland Aropol 7334
82 32 93 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrln E·701; laminate
82 60 77 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
:~,
82 66 104 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
32 66
Ashland Hetron 99P Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminale Ashland Hetron 99P Ashland Aropol 7334 Ashland Aropol 7240
,nol rec.ommended for use 82 not recommended for use limited s~iv~ life expected; this is . '. preferred material relains 88% Ilarcol·hard.; flecking
Amoco; isophth. acid/maleic anhyd.lprop. glycol (1/112.2); laminate
relains94% 8arcoi hard.; fiber prominence'
retai~s .16%8a:i~ol ~ard.; edge wieking rMainsSl% Barcol hard:; flecking. wicking, . . piillples
cured Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240
32 32 32 nOI recommended for use 32
(:"
, noi .." reconlmendedlor :::v . " use ' . 54 54 77 82 66 93
········l:·~W~en,~8dfOfUSe
....
Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
o
'0
o
'< (l)
en
CIl
CD -.
Chemical Resistance - Isophthalate Polyester
CO
-"
a>
Chemical Resistance - Isophthalate Polyester
en o
CD N
"'0
o
-< Cl> en a> .....
;Reagent Sodium Chloride
Reagent Note
(R~sl~tange NotE!'
I ('9) ....
Cone. Temp: . ('101
saturated
.
retains~6%Bar90I har~.;
81
90 89 93
.Barcol relalnS93% Barcol liard:; ii6abilea;: chg:'
>75
>75
93 88 saturated solution
Sodium Chlorite
saturated
Sodium Cyanide
saturated
Sodium Dichromate
saturated
no appear. chg..
90
.71
r~l~in~9ll;
:ard.j:appe~;.~:~'."
~
~"
79
10
Ashland Aropol 7240 Ashland Hetron 99P Owens Corn. Vibrin E·701: laminate Ashland Aropol 7240
49 49
Ashland Aropol 7334 Ashland Aropol 7240 Owens Corn. Vibrin E·701: laminate
82 saturated
82 66
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Owens Corn. Vibrin E·701; laminate
77 saturated
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
82 66
104 77 w/15% sodium hydroxide
15 15
Ashland Aropol 7240 Ashland Aropol 7334
Sodium Hydroxide 0.5 1 1 1
38 ~":.
82 ..dimiled service lirliexpected; this is
52.
< n~t,r!~;J;~~;;~:I,j~: .•.•..•. ) )f···
5
5 5
© '1::1
po ~
;:;. CIl
~ CIl
Sodium Hydroxide
".2
~.1
5
~.6
6.6
5
e.8
n.1
5
e~
m6
10 10
10
e.8
*6
10
~~
•.7
10
;:l
10 15 15 25
~ p
.,
u::
82
5
cEo
t""
cured
38 38 77 49
104
Sodium Fluoride Sodium Hydrosulfide
Amoco: isophlh. acid/maleic anhyd.lprop. glycol (1/112.2); laminate
25
77
Sodium Ferrocyanide
~(
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P
Sodium Diphosphate Sodium Ferricyanide
.. ~: ~
"2
~6
Owens Corn. Vibrin E·701: laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240
Ashland Aropol 7334 Ashland Hetron 99P Amoco SG·1 0; isopolyesler
Ashland Aropol 7240 Ashland Aropol 7334 Amoco SG·10: isopolyester
m9 U.7 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240
@
IT
'1::1
po ~
Reagent
(")
r;' v,
t:I
Sodium Hydroxide
Cll
v,
cEo ;:s
s::co
Sodium Hypochlorite
stable
., .,
~
u:
stable
Sodium Nitrate
I
25 50 50
2
5.25
8
5.25 5.25 <6 10
2 2 2 8
10 10 15 15 15
2
2 8
8
Sodium Phosphate
saturated
8 8
8 8
8 8 8
sodium monophosphate
Sodium Silicate
Sodium Sulfate
6
2 2 2 8
6
2
pH 12
8
all concentrations
8 8 8
Sodium Sulfhydrate
w/15% sodium hydroxide
15 15 45 45
49
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
spacia(~ule'& syr\lh~ ~~rf ••ei!,~sejl;
Ashland Aropol 7240
nQnthlXl\lrOpte resm~ PIalarabia ,. not ;aconim~lld~illor use
38
specIal cure &. synth,surf. veil used:" nonthixolropic resins preferable not recommended lor use
82 66 104 77
82 66 66 82 66 66
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron ggp Owens Corn. Vibrin E·701; laminate
77 "";OCWieCOmmeMetHoiUlllo
32
synlh. surf. yeil generally used hOt' recommended for uSe
79 66 82 77
Ashland Ashland Ashland Ashland Ashland Ashland
2 2 2
Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334 Aropol 7240 Aropol 7334
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron ggp
32 not ie'commended for .
w/1.5% sulfur
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron ggp Owens Corn. Vibrin E·701; laminate
saturated
10 10 21 21
Ashland Aropol 7334 Ashland Hetron ggp Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron ggp
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-70f; laminate
65 65
Sodium Sulfide
Ashland Aropol 7334 Ashland Hetron ggp Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron ggp Owens Corn. Vibrin E-701; laminate
2 "
Material Note
not iec9mme~de~ lor· use
2
,8 •8 saturated
;Re~l~ianc~,Note
2
saturated
Sodium Nitrite
% Retained
j ebL. Modulus Flexural I Max. "('C) .;.Jg~Y~)/8!l!n~{'slr.nglhTemp.'~·qt
I,
: Cone. Temp. Time
Reagent Note
27
...;.:,~~:; ..
~:.
'~
use
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashlend Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
en
o
'0
o
'< (l)
en
~
m
Chemical Resistance - Isophthalate Polyester
<0 C..:>
Chemical Resistance - Isophthalate Polyester
rn
o
(j)
co
~
"0
o
-< Cl>
',"10
rn
Reagent Sodium Sulfite
R~agentNote
R~ialned
C~~c'Jn~r I~~";s~ IR~~~~.J:::;u,u:.I;~;;;;~t~,IT~:~~(;lu.
concentrated
32 32
8 8
saturaled
8 8
8
all concentrations
,8
'il '8
Sodium Tripolyphosphate
'8
saturated
,8' 8
8 40 40
Soil
66 82 77
Ashland Aropol 7240 Ashland Aropol7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
32 32 32 77
Ashland Aropol 7240 Ashland Aropol7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
52 27 52 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
-
2"
Sodium Xylene Sulfonate
2
not reco,mmended lor use
'8
32 32
8 fumigant; dilute
not (ecommended for use
32
8
clay
not recommended lor use
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
-82---
'8 8
Sodium Thiosulfate
Material Note
, I
2
Sodium Tetraborate
Resistance Note
2
not recommended for use
2
Soil Slurry Sorbitol
SO/SO soil/water sol'n; pH 10
SO
SO/50 soil/water solution; pH 3 SO/SO soil/water sol'n; pH 10 SO/SO soil/water solution; pH 3 SO/SO soil/water sol'n; pH 10 SO/SO soil/water solution; pH 3 SO/50 soil/water sol'n; pH 10 SO/SO soil/water solution; pH 3
SO SO SO SO SO SO SO
phl0 ph3 solutions
Soya Oil 100 100
38
30
7
78
82
retains 94,% 8areol har.d." no appear. ehg.
96 85 88 83 84 90 88
97 85 100 81 94 100 99
retains' 90% Barcol hard,; nO appear. chg. retains'94% Barcol hard.; flecking retains 97% BarcOI hard.; no appear. 'ehg: retains 89% BarcOl hard.; (locking "retains 90% Barcol hard.; flecking relains 96% Barcol hard.; flecking retllins 89'" Barcolh~rd.; flecking;
>75 >75
>75 >75
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Amoco; isophth. acid/maleic anhyd.lprop. glycol (1/112.2); laminate
cured
60 82
Owens Corn. Vibrin E·701; laminate Ashland Hetron 99P
77 82 54
Owens Corn. Vibrin E·701; laminate Ashland Aropoi 7240 Ashland Aropol 7334
Stannic Chloride
all concenlrations
~ ;:;.
82 38 82 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
Stannous Chloride
all concentrations
'1?" cEo '"
82 38 93 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
Steam
@
"t!
S'
;:l
t'"'
.,p0: .,
<.t:
condensate; buried pipe
Ashland Aropol 7240 Ashland Aropol7334 Ashland Hetron 99P
@
~
%~~
~Reagent VJ
tl
Stearic Acid
~
Cf~r T~.~r ~i:~Bi#~g
Reagent Note all concentrations
,
, , '
.,.. ,
"
~.
;:l
~
Sf
~ u:
Stove 0 it Styrene
Sugars
solution
8
82
8
66
8, 8
93 77
8
79
.~
2
•
60
8
32
60
8
3 2 · \ .,.' . ..
60
8
32 ~
99 99 32
8
a
Sulfonyl Chloride
',~.
71 38
Sulfur Dioxide
Ashland Helron 99P
8
71
8 8
49 71
-;:10,=0_-,,""'"3_8 50 50 32
--;;-2 2 .,6
,
Ashland Aropol7240
>:,:"
Ashland Aropol7334 Ashland Hetron 99P
. ..
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 ,
lim~ed}~ryicelif&;aXp8ct&d; Ih!s Is. .
,
Ashland Aropol 7240
. ,p.(aferred mate(lal :.',
"'';;;; .. not·i.commended for use . .,..
i
12.J 121
." . )' ,.'i' •
Ashland Helron 99P Ashland Aropol7240 Ashland Aropol 7334
" .. .
,:
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7334
27
... , : " •
27
"
)'
,
., .."",...... A "',, .. ,..,' ...,.,. . •
..,,'
J
,\,::., . '''.: ..
~~~ .,;'
,'.,
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
<177 ~1 77
vapor
dry gas
Ashland Aropol7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminate
93
vapor
<....
71
100 100
Sulfur Dichloride
Ashland Aropol 7334
2
Sulfur
Sulfur Chloride
. .... ,;.
77
~.:
100 100
i Ashland Aropol 7241· T-15FDA; steamed 4 ~ hrs.
8
.'..
mollen
Ashland Hetron 99P Ashland Aropol 7240
8
38
burner gas; wet •
Ashland Aropol 7334
2iioV!jM@ij~M~ilJ~@~e· 2 , . . .~".
100 100 100
wi 1.6% sulluric acid "
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
<':i:' . . '
8
8· .i
saturated
---;-:-;;:::-==--,c-;-
Ashland Aropol 7240
100
Sulfite Liquors
Sulfophthalic Acid (4-)
Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
2
8
fA:-=""=~-,---,.--:-;,.,...,,....,.----
Ashland Aropol 7334
not recommended for un
8
Material Note Ashland Aropol7240
.."
100
':
I
Resistance Note
100
~
aromatic
.i;;;~;;~JT~:::iwll
2 2
60 60 60
Sulfamic Acid
Modulus
77
Ashland Aropol 7240
..'
'l
: ·;"<·;J~;;;;:;:t:~,t~h;ti l
"..': .,." .,:, ',:,i"···
. ', ,.i::.'~::::;:···"
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol7240
~:~::~:~:::::~~:~
Owens Corn. Vibrin E-701; laminate
wet gas burner gas, wet
en
• <.1.7!·'·':::
,,~{
7i".
t
Ashland Aropol 7240
i
Ashland Aropol 7334
o "'C o '<
~
~
m
Chemical Resistance - Isophthalate Polyester
~
0>
Chemical Resistance - Isophthalate Polyester
rn
o "0 o '< CD
rn
CD ""'"
Reagent Sulfur Dioxide
Reagent Note dry or wet
% Retained
I
Conc. Temp. Time! , (%)
(' C)
(days)
POL
100 100
wei w/12.5% chromic acid vapor w/5% nilric acid
2
16 16 15·20 15·20 20 20 <25 25 25 25 25
2 2
25 25 25 25 25
Sulfuric Acid w/12% copper sulfale w/ 20% c~romic acid vapor
evaporation
~
l=l
....;:;(J)
(J)
~ to ;:s (J)
t"-
O.,
.,
l=l
te::
ITe Max. P,\'c)" Il1
'Resistance Note .. ~;
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
trace
dic~lorides
vapor w/ chlorine, saturaled
>25 28 32 50 50 50 50 50 50 50 50 <70 <70 70 70 70 75 75 76 76
80 80
2
2 2
8
82 66
2 2 .8 ./;. 8 . 8
66 71 49
8 99 '99
\;
30
90 90 182
::~!:.8
., ,..,.7
.y 8 7 '7 .
Material Note Ashland Aropol 7240 Ashland Aropol 7334
82 66
8
100 100 100 100
25 25 25
Sulfuric Acid
Slrengl~
0>
2
dry
@
I flexural
8
Sulfur Trioxide
Sulfuric Acid
Modulus
Rating
CO
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Amoco; isophlh. acid/maleic anhyd./prop. glycol (11112.2); laminale
93 84
87
99 92.4 90
100 87.1
99.5 100.5 94
70.5 74.1 82
97.6 >75
31.7 >75
Amoco SG·l0; isopolyesler Amoco; isophth. acid/maleic anhyd./prop. glycol (1/112.2); laminate Amoco SG·1 0; isopolyesler
80
:;liiiaihg;,'bseNMi .
Amoco; isophlh. acid/maleic anhyd./prop. glycol (1/112.2); laminele Amoco SG·1 0; isopolyesler cured
49 49 49
60 66
93
66
60
Owens Corn. Vibrin E·701; laminale Ashland Aropol 7240
Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashlend Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P Ashland Aropol 7240
0/0 Retal~jd
@
~ (;,
en
tJ
Reagent' Sulfuric Acid
Tem p,\ Time PQL Moduli,,; fl~~urall ",ax. ('Cl (~a¥sl Ra"!lg,. ••.·•·•• ;§!!!pglh Temp. ('Cl
Reagent Note wi chlorine. saturated
~
en
<5' ;::l
t""
)
I I I
'1:l
Ei
80 80 80 80
.,
$:l
lC::
vapor
Sulfurous Acid
98 98 98
saturated
10 10
l~o/~:~;~';i;~
ISUlfuryl Chloride
Ashland Aropol 7240 Ashland Aropol 7334 Owans Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
m1i;i'~:r '
32
100
Superphosphorlc Acid
",/,.)
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
93 93 93
0: .,
Material Note
100 100 100 100
~
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240
~
Ashland Aropol 7334
Tannic Acid
saturated
82 66 93 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E-701; laminate
Tartaric Acid
saturated
82 66 104 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hatron 99P Owens Corn. Vibrin E,701; laminate
32
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
Tetrachloroethane Tetrapotasslum Pyrophosphate 60 60 60
Tetrasodium Pyrophosphate
52 32 52
saturatad
saturatad
52 52
5 5
Thlonyl Chloride
vapor
Tinofix QF
Ashland Aropol 7240
100 100 100
Ashland Aropol 7334
50 50
32 32
Ashland Aropol 7240 Ashland Aropol 7334
32 32
Owens Corn. Vibrin E-701; laminate curad Ashland Aropol 7240 Ashland Hatron 99P
Toluene with 25% isooctane
Ci)
o o
"'C
75 100 100
Ashland Aropol 7240 Ashland Hetron 99P Owans Corn. Vibrin E-701; laminate Ashland Aropol 7334 Ashland Aropol 7240 Ashland Hetron 99P
>75
>75
-< (!)
2i ~
0>
Chemical Resistance - Isophthalate Polyester
CO
-....I
a>
Chemical Resistance - Isophthalate Polyester
fI)
o "'C o
<.0 00
'< CD fI)
<0 .., Toluene Toluene Diisocyanate
Ashland Aropol 7240 Ashland Aropol 7334
Transformer Oils TransmiSSion Fluids Tributyl Phosphate
~.::~._".<:
saturated
automatic
.-:::~;.-::.;:
:
:. :~::'::::
-..
;i~
Trichloromethane
chloroform
Trichlorophenol Triethylamine Hydrochloride
/:~,:<':)}ty{
'}/·"ljt,;··."
32
.:<:?"
··:·~~r:~~::;:~~::~::C:·:8::;7+t?>t{fWX·~:~·j+r~:-;:::::~:::~1:r:~~:::
Ashland Aropol 7240
:~jff~~!I1:~jl~[~~:
;t@~tE\;!
66
:;;tj;;J~;~~t~~9~~~~4J~(~~~~~~i'!;~I'io;i;;
Ashland Aropol 7334
}:::?:~r: :;~*\>:
32 32
';/;;';'2"','/"'"
ITrisodium Phosphate
~:'l;~~1
Ii
100 100
.t;~~::;~::]:~:::~1f~~t
,,).. . t".',
100 100
::~~;>. ;~;,; ....' ,.·A9}....,,'
:;e}.,
100 100
·.i;;~i!i' . · ·;
100 100
;;;'79';;.,
'.(f~~!/;:: ·'·.79.,.. ·.
"""','24·,,0)\ 100
saturated
.~>~:.
· :·t: :i :\j~ ~: ; ~: i
'. '~)<:;" ':;:~!.: :.:~
32
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240
" 32
';g/i; c
-
:';:;~;:i~.!~1:jt;!~;;Iii;i.~t0tli12ji'i~'I;;~~1;
:.::~,:'
100 100
Ashland Aropol 7240 Ashland Aropol 7334
:.,ip.. . •. . . .;;..:•.~•. :' .•. %;;,~: .•;,;};';~(~!,~ . •;: .• ;~'• . . .
Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334
'.";.:: . .::\.. . :.:. u'"
<; •. ;~,;: . .
.' .:"., :{.
;,·.. ·/;;,'i\;:S,:··;;;.;::'~1j{&1::;;j;i;1····· :{:
~
...;;2" • .:i.. . '
",'8'" ....', ",e,'~>·"
.~:~:.. :.~~.y:
; . ,:~ . . :.\.;. ;~:;~:. ~ :r2~~1{~~t\~r:; ::;(;;:>/ ::V:
'.,':
'Lit
,
:!:!~::;!::::~::t:~~::;:::~t
·:.%·i
}}'j' \>~' • •. . "'"
·;:;:·:~:5.;::::: :::~~{.~
'.::;::;.,.,2>...., "
:1~j.i: ·~ ~; :J~~~;:~:i~l
}?Hl"tmi
:':':':,,:..
32 32
'·)i';:''i.f;;:;;:~;
.....\<>...- . :..;: :.'~ ::',·;:~:\~~;~· . }\V?::;: :.: ~
:;"j:
54
'. .. :~
: ':::;;: .:;::~x:::· .
Ashland Aropol 7240 Ashland Aropol 7334
)-; ..:'.:-: " :.:~; :':.«;:.:'({~'>:~~>:':':::::~: }~\ ::.~.: ,':'~:
=~~I!~~~
VI
ITuna Oil
100 100
VI
~
ITurpentine
VI
pure gum
tEo ;:l
t"'
~ p
.,
100 100
C~,,,;:i
71 49
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334
po
g:
Ashland Aropol 7240 Ashland Aropol 7334
";;;;/;::l;,;
" " '}no"t';r8commendedlor·us& 't'i:.} "
"l;l
" Ashland Aropol 7334
;~;~;~ ~:':.~:'; ';.~':.; ~: :~ 1~f:i:~: :~:~:: ;~i:~;:~~:~~i;~(~1!~;r:i~ ~ ;: ~:\j~;~ ~ 1~: : ~ ~ : :~r!.j~i~ :
':?~f::
,"
" Owens Corn, Vibrin E,701; laminate
} .:':...."",2,.:;:....• .... ·'· :'.'::?
""""'2""'>;'
Ashland Aropol 7240 Ashland Aropol 7334
>25
f.!;i~~~;i".
;;:;;;~/;;l~i.
100 100 100
©
ill 'r;;;'~~.;it,!;
saturated
Trimethylamine Hydrochloride Triphenyl Phosphate Triphenyl Phosphite
•.;;;/'; ~';i;:;;;t'Fj.il(\;f-f;~!i~, ·~·.;l!:;l~[!l>
100 100
Trichloroethylene Trichloroethylene (1,1,2-)
. ..... '" .......
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P
100
100 100 1,1,I-trichloroethane
.. ":;";'-:;:': ~.)
,"
<25 0-50 50 50 50
Trichloroethane
';:.::'=: ;:;;.::.:-::; ",:..'-.;. ~::-:::::\ ::;.\:\.:::
100 100
Trichloroacetic Acid
Trichlorobenzene
."." ...;:>
:<:;':~'2:>::;~:):
~4.Mli:~i~ f: :;~:~;~;~:;~ 1:~;f~:·:~i~ l:0. ; .:~r~i~ ~f.~ ;:~:~{j;~ i~j:f~Jjf.J.~ :fi~l~:i~r
Ashland Aropol 7240 Owens Corn. Vibrin E·701; laminate
" Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate Ashland Aropol 7240
[Urea Ashland Aropol 7334
7'
@
'"
p
~
Reagent
~ CIl
Urea
o'CIl tEo
Corie. 1%1
Reagent Note" saturated
Varsol
100 100
;:J
t"'
0: ..,
.?
_~~~f~tanee Note'
~ .~
Flexui~1 slf8n~lh
Vegetable Oils
p tt::
..,
I-Temp.I'cI Max. 32 49
Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
93
Ashland Aropol 7240 Ashland Aropol 7334
82 82
Ashland Aropol 7240 . Ashland AropoI7241-T·15FDA; steamed 4 hrs .
82 82 82 82
Vinegar
100 100
1:
Ashland Aropol 7240 Ashland Aropol 7334
82 66 '., nOI ?#§mm~M~~lM~s.
Vinyl Acetate 100 100
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334
Vinyl Toluene
100 100
Ashland Aropol 7240 Ashland Aropol 7334
Vivo-Zyne
100 100
Water
deionized distilled irrigation steam condensate
98.7 97.6 97.6 >60 94.2
distilled
Water
saturated deionized
deionized, high purity 1.5umho/cm
demineralized
en
o o
"'0
38 38
Ashland Aropol 7240 Ashland Aropol 7334
77 77 32 32 77
Owens Corn. Vibrin E·701; laminate
~
:\ ~,~~}
..
~~r~6iii~rd .• red~Ced by 2 .:: ,,'. '. ::":~::
Ashland Aropol 7240 Ashland Aropol 7334 Owens Corn. Vibrin E-701; laminate cured Amoco 80-10; isopolyester
'Ba,colhard.fedUCed by 5 cured Amoco 80·10; isopolyester
71 66 71 32
100 100 100 100 100 100 100 100 100
71 82 82 82 99 99 104 32 32
.
P~~f8;;'ed material
panel$ exhibft"~li~i~rs in <.1 month
85.6 74.1 80.6 >60 30.9
100 100 100 100
100 100 100 100 100
Ihis is"',e,
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7240 .: Ashland Aropol 7241·T·15FDA; steamed 4 hrs.
nO~hg.jn~ateF*.Q:;;q.hJliiIJ~as in 20· ;~!r\~~;~O~~!.lBn~ .,..( , . n~n~~1"!lUjrided for US8 ' ts~tlst;~~IOry for US8
~~
71 49 38
-< !e.
Material Note
Chemical Resistance - Isophthalate Polyester
'.
"
Ashland Aropol 7334 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Aropol 7530 Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helron 99P
0> <0 <0
Chemical Resistance - Isophthalate Polyester
en o o
"'-J
o o
-c
-< CD
T·
en
CD ......
Reagent Water
Reagent Note distilled steam condensate
Waxes Weed Killer Whey Wines
% Retained
1.;C~~~:01T~·~r· t~ia~;~ IR~~~gl~odUIUS.I;;~:;;~~ IJ g:~~iIl;r "',8
100 100 100 100
chlorinated 27 27
8'
32
8
32
8 8.
32 32
8 ..
32
8. ,.8' ,•.
32 32
2 8 '2'.
32
8
32
Owens Corn. Vibrin E·701; laminate Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetfon 99P
8 8 8 8
82 66 93 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Hetron 99P Owens Corn. Vibrin E·701; laminate
8
71
Ashland Helron 99P
8 8 j.'. 8
82 66 82 77
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helfon 99P Owens Corn. Vibrin E·701; laminate
.'C 8'" ..••., 8
all concentrations
8.
~i ..
•••·.. l'f"··
Zinc Sulfite @
'"
p
~
n'CJl
f?
CJl
<5' ;J
t'"'
..,0: p ..,
te:
saturated
).
Ashland Aropol 7240 Ashland Aropol 7334
32
100 100 100
Zinc Sulfate
Owens Corn. Vibrin E-701; laminate nonecommended for use
79
Xylene
saturated
7240 7334 7240 7334
8
winery waste
Zinc Hydrosulfite Zinc Nitrate
60
Aropol Aropol Aropol Aropol
"87.
wine storage
saturated
8
Ashland Ashland Ashland Ashland
2' ·2 .
wine fermentation
Zinc Chloride
8
71 60 71 66
8 8
Material Note
..... Resistal1ce Note
' .. \8 "",•. 8 .
i(
ye;\ "Ls
Ashland Aropol 7240 ," lower sud. hafd·can:occu.r. drying can :., restore hard:' ..•. •lower surl;·ha"i:·canoccur. dryl~g can restore )lard.; accep. for odor/laste 10Viar surt:'hard.can occur.d;Ylng can ...... destore hard.
Ashland Aropol7241-T·15FDA; steamed 4 hrs. Ashland Aropol 7334 Ashland Aropol 7240 Ashland AropoI7241·T·15FDA; steamed 4 hrs. Ashland Aropol 7334
lower sulf. hard. can'occur, dryinO,can reslora hard.; aceap. tor ollor/lasta . Ibw~(suJt.Ii~rd.ean occur. drying c~n •..••• " ..reslore hard. 'C.
Ashland Aropol 7240 Ashland Aropol 7334
.;;
noHacommended for use
n~i'recommended tor usa
82 66 93 77 66 38 66 60
.:~
.::.
::~
Ashland Aropol 7240 Ashland Aropol 7334 Ashland Helfon 99P Owens Corn. Vibrin E·701; laminate
~'.'
"T"
;'.
'~.,:
.;;-
Ashland AfOpol 7240 Ashland Aropol 7334 Ashland Helfon 99P Owens Corn. Vibrin E-701; laminate
@
% ~e~~lned
'1:l
~
V>
~
(.:.;.....
Reagent
Reagent Note
r;' V>
tl (1)
Time
(%)
(~c)
(days)
POL
;:l
Resistance Note'
household
Citric Acid
50 50 50 50 25 25 25 25
Ethyl Alcohol
Gasoline
Hydrochloric Acid
Nitric Acid
Sodium Carbonate
Amoco lead free
35 35 35 35 5 5 5 5
10 10 10 10
Material N6te
~.
Ammonium Hydroxide
Bleach
•••
Rating
25 25 25 25
~.
..,0P ..,
Temp.
,
Acetic Acid
V>
s:::
Cone.
';
84 73 60 54 84 61 56 54 84 88 70 56 88 62 59 63 84 61 50 49 100 90 88 82 87 77 44 43 72 59 55 68 74 58 53 60
100 100 100 100 100 83 93 67 99 100 100 79 100 100 100 75 100 100 98 89 100 100 76 68 100 100 51 29 100 96 76 74 100 95 69 54
Amoco; phthalic anhydlmaleic anhyd/prop. glycol (111/2.18); laminate
······?:~O"··Biiicoi'iiaiit'ctlgiiWlofcti1filii'fobsiiiViiil
reta.iri;7i'J(o Barcolhard.; colo! chg.. fibe! prominence : re"i!ij;4";'Barc6l hard.; coio; Chg~: fleCking/surl. roug~ (~WM25%. Barcol hard:; color'chgii su~.;ou9t> . 'rafiLtlis'S3%"Blircofliliriii;color elig.. flecking: pfmplii~?
,,[~I~~;.;;~jJ:~rh~*~~~~:;~~:.~I:~a~:~::~. :RJ~~
\. tetat~s W4)atcol hard,; color elig•• ~e( promineri~1i ·;r,W'!ii$~~!!~rf§liia:@#Wi¢ktiigHlbiiifiiom1iieM~ retains 68% Baicol hard.; pimples; blisters observed. re~iri~6§% &rc61Iiard.; Wlcklng. liber prO~in~ncJ • •
··i;1~~#~~1~~~f@t~~\~+ .fib:i·p(ominene~;~,s~rv~~i
o;:::1
:::r
o o
"0
-< (I)
5e. (I) .....
-....J
Chemical Resistance - Orthophthalate Polyester
o
-"
o
Chemical Resistance - Orthophthalate Polyester
~
-..J
o
N
::::r
o
"0
o
% Retained"
'<
en
en ...
IRe~ge~t
Sodium Chloride
Reagent Note"
con#'1 Temp,,, I, Time,. (%1'
"171 71
Soil
Sulfuric Acid
@
"cl
...r;-is" III III
1? III
IS ;:l t"-
o:., ., i=)
\t:
SO/50 soil/water sol'n; pH 10 SO/50 soil/water solution; pH 3 SO/50 soil/water sol'n; pH 10 SO/50 soil/water solution; pH 3 SO/50 soil/water sol'n; pH 10 SO/50 soil/waler solution; pH 3 SO/50 soil/water sol'n; pH 10 SO/50 soil/water solution; pH 3
50 50 50 50 50 50 50 50 25 25 25 25
Resistance Note
Materilll Note
('C),," (da~$l, 71
saturated
....., ...
lIod~IU~
38 38 '.38
'<,," 38/ 38',"",'"
3a"" , 311 ,'38 '
86 72 67
53 86 82 100 80 77 77 76 62
81 68 49
50
100 100 100 88 100 93 100 90 100 100 100 94
100 100 72 78
'relains 100% Barcol.hard:rrio appear. chahge
retain~ 98~Barc~1 hard.; liber pr0'1'jnence
, rel~lns 86%
Barcolh,~rd.; W1Ckln9. liber promlrl~r:ce fiber pr~min~9ce
iela(ns80%' .l!;1r~ol ~a.rd;;wi~09.
't~l~~1.;i~f:~~~~~~~I:i~~;r:~r' .;,~
Amoco; phthalic anhyd/maleic anhyd/prop, glycol (1/1/2,18); laminate
703 Chemical Resistance - Polyester Terephthalate
'." .
25 50
Acetic Anhydride Acetone
all concentrations
Acetyl Chloride Acrylonitrile Allyl Alcohol Allyl Chloride Alum Aluminum Chloride Aluminum Sulfate Ammonia Ammonium Bicarbonate Ammonium Carbonate Ammonium Chloride Ammonium Hydroxide
all concentrations
Ammonium Nitrate Ammonium Phosphate Ammonium Sulfate Amyl Acetate Amyl Chloride Aniline Aqua Regia Barium Carbonate Barium Chloride Beer Benzaldehyde Benzene
10 100 100 100 all concentrations
liquefied all concentrations
aqueous ammonia
5 10 20 29
all concentrations di basic; all concentrations mono basic; all conc. all concentrations
100 vapor
100
Benzoic Acid Benzyl Chloride Boric Acid Brines Bromine Butoxyethanol (2-) Butoxyethoxyethanol (2,2-) Butyl Acetate Butyl Acrylate Butyl Alcohol Butylamine Butylene Oxide Butyraldehyde Calcium Chloride Calcium Nitrate Calcium Sulfate Carbon Dioxide Carbon Disulfide
saturated all concentrations saturated salt brines; saturated liquid
40
100 100 100 100 (tert-), (sec-); all conc. all concentrations
100 100 all concentrations
gas, dry fumes
100
Carbon Monoxide Chlorine Chloroacetlc Acid Chlorobenzene Chloroform Chloropyrldlne Chlorosulfonlc Acid Chlorotoluene Chromic Acid
Citric Acid Coconut 011
© Plastics Design Library
gas liquid
100 80 100 100 100 100 100 5 10 20 30
all concentrations
Polyester Tereph
704
Chemical Resistance - Polyester Terephthalate
Copper Chloride Copper Nitrate Copper Sulfate Cresylic Acid Crude Oils Cyclohexane Cyclohexanone Detergents Dibromophenol Dibromopropanol Dibutyl Ether Dichlorobenzene Dlchloroethane Dichloroethylene Dichloromethane Dichloropropane Dlchloropropene Dichloroproplonlc Acid Diesel Fuels Diethyl Ether Dlethyl Ketone Diethylamine Dlethylenetriamlne Diethylformamlde Dlethylmaleate Dilsobutyl Ketone Dilsobutylene Dimethyl Sulfoxide Dlmethylformamlde Dioxane Diphenyl Ether Divinylbenzene Embalmin Fluid Epichlorohydrln Ethanolamine Ethyl Acetate Ethyl Acrylate Ethyl Alcohol
sour or sweet
sulfonated; all concentrations organic
100 100 100 100
all concentrations
100 100 100 100 100 100 100 100 all concentrations ethyl ether
DETA
monoethanolamine
100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 10 50
Ethyl Benzene Ethyl Bromide Ethyl Chloride Ethyl Ether Ethylene Chloride Ethylene Chloroformate Ethylene Chlorohydrin Ethylene Dichloride Ethylene Glycol Ethylene Glycol Butyl Ether Ethylene Oxide Ethylenediamine Ethylenedlamlnetetraacetlc Acid Fatty Acids Ferric Chloride Ferric Nitrate Ferric Sulfate Fertilizers Formaldehyde Formic Acid Fuel Oils Glycerin Hexane Hydrazlne Hydrochloric Acid
100 100 100 100 100 100 100 100 100 all concentrations
100 100 100 100 all concentrations
8-8-8 composition URAN;44.3%NA4N03.35.4%CH4N20,20.3%H20 all concentrations 50
100 100 100 100 10 18
25 37
Polyester Tereph
© Plastics Design Library
705 Chemical Resistance - Polyester Terephthalate
Isodecyl Alcohol Kerosine Lactic Acid Lead Acetate Lead Nitrate Linseed 011 Magnesium Carbonate Magnesium Chloride Magnesium Sulfate Mercury Methyl Alcohol Methyl Bromide Methyl Ethyl Ketone Methyl Isobutyl Ketone Methyl Methacrylate Methyl Styrene Methylene Chloride Methylhydrazlne Methylstyrene (a-) Milk Mineral Oils Morpholine Naphtha Nitric Acid
all concentrations all concentrations
15 all concentrations
methanol gas
all concentrations
100 100 100 100 100 100 100 2
with 2% hydrochloric acid with 5% hydrofluoric acid with 3% chromic acid
Phosphoric Acid Phosphorous Trichloride Phossy Water Polyvinyl Alcohol Potassium Aluminum Sulfate Potassium Bicarbonate
:::<:~~
milk and milk products; all conc.
with 20% hydrochloric acid
Nitrobenzene Nitrogen Tetroxide Oleic Acid Oleum Olive 011 Oxalic Acid Palmitic Acid Phenol
100 10 100 100
5 5 8 8 15 15 50 100 100
all concentrations fuming sulfuric acid
carbolic acid
100 100 100 5 10 88 80
all concentrations
10 50
Potassium Carbonate
all concentrations
Potassium Chloride Potassium Ferrocyanide Potassium Hydroxide
all concentrations
Potassium Nitrate Propylene Glycol Pyridine Salt Brine Sea Water Silver Nitrate Sodium Acetate Sodium Benzoate Sodium Bicarbonate Sodium Bisulfate Sodium Bisulfite Sodium Bromide Sodium Chloride Sodium Ferrocyanide Sodium Hydroxide
all concentrations
10
© Plastics Design Library
10 25
100 30 all concentrations
1 5
Polyester Tereph
706
Chemical Resistance - Polyester Terephthalate
Reagent< Sodium Hydroxide
10 25 50 5.25 15
Sodium Hypochlorite Sodium Sulfate Sodium Sulfide Sodium Sulfite Soybean 011 Stannic Chloride Stannous Chloride Styrene Sucrose Sulfonyl Chloride Sulfur Dichloride Sulfuric Acid
all concentrations
100 all concentrations aromatic fumes
1 5 10 25 50 70 75 80 93
Tannic Acid Tartaric Acid Tetrachloroethane Tetrachloroethylene Tetrachloropentane Tetrachloropyridine Thionyl Chloride Toluene Toluene Diisocyanate Trichloroacetaldehyde Trichloroethane Trichloroethylene Trichlorofluoromethane Trichlorophenol Triethanolamine Triethanolamine Lauryl Sulfate Triethylamine Trimethylamine Chlorobromide Turpentine Uran Vinegar Vinyl Acetate Vinyl Toluene Water Wines Xylene Zinc Chloride Zinc Nitrate Zinc Sulfate
Polyester Tereph
all concentrations
100 all concentrations
100 2
TOI
Freon"
100 100 100 100 100 100 100 100
all concentrations
'2 __ 2 \'2
2 .,-'-F' 2
2 . 2-
_2
8 2 8
-2
38
-;,
24
8 "8 _-
fertil.;44.3%NA4N03.35.4%CH4N20,20.3%H20 all concentrations
8
100 deionized, all concentrations distilled sea water, all concentrations all concentrations
© Plastics Design Library
rI~
@
""0
E" ~
Reagent
Reagent Note
Conc., Temp. Time (%1
%
cl:l.. ..
POL " Weight IP~gli. Rating) .
~%R'~~'d
,1~OdUIUS IEI~ng~1I0n
Tensile S1renglh;;,
I
I
Flexural Impact Sirengih Sirengih
I
I
Resistance Note
Material Note
I"C)
(day.s)
glacial
110
5
8
110
115
105
"
110
5
9
100
100
95
Ube Upilex 5; 0.025 mm film
23
14
93
115
87
. Allied 5ig. Apical100AV; 0.025 mm film
n' C/)
t:l
Acetic Acid
C\)
C/)
lEi' ;J
t-<
c;:
Acetone Benzene Cresol (po)
14
' "~Ii
100
130
83
21
2
55
50
140
200
21
8
90
95
90
37
23
0.007
9
-0.01
37
23
0.007
9
0.01
mefhylene chloride
23
14
9
CuCI2
23
14
4'
....•
"1
I=l "1
It:
Cupric Chloride Dichloromethane Echant
Hydrochloric Acid
Isopropyl Alcohol
-U 0
,Sulfuric Acid
55
90
120
72
6
37
23
0.007
9 9
23
83
9
100
23
83
9
100
23
83
100
23
83
;9'i'/ iii;
23
0.007
23
0.007 •
Ube Upilex R; 0.025 mm film Ube Upilex 5; 0.025 mm film
no change observed
Ube Uplmol R
23
5
9;
99
35
23
5
9
99
23
0.007
23
0.007
9 '9
23
83
9
100
2.3
83
9
100
23
14
7i
100
23
0.007
'9 .
-0.01
23
0.007
9
-0.01
14
8
100
23
83
9
100
23
0.007
9
a 0
23
5
23
0.007
2N
99
9
60
23
0.007
5
60
0.007
5
60
0.007
5
60
0.021 ' 0.021
5
60
10
23 .,.
4
10
23
5
10
23
5
10
25
5
10
25
5
10
23
14
0.03
dimen: ciig~iiiliM~versiigJtiic. 01 0.0\%
Ube Upilex R; 0.025 mm film
120
115
87
98
98
., tr
:8$.) .•.•
Ube Upimol 5
.? 0%'
Allied 5ig. Apical lOOAV; 0.025 mm film Ube Upilex R; 0.025 mm film Ube Upilex 5; 0.025 mm film Allied 5ig. Apical100AV; 0.025 mm film Rogers Durimid
no change observed
Ube Upimol R
· ·
Ube Upilex R; 0.025 mm film
dimen. chg. in transverse direc. of 0.01 %
Ube Upilex R; 0.025 mm film
·
Ube Upilex R; 0.025 mm film
Ube Upimol 5
. diiiiiin.i:iig.i#)!iiiiWelsediiec. 01 0%
Ube Upilex 5; 0.025 mm film
. ')®~ii~ilWc"bseW!d
Ube Upimol R
·
Ube Upimol 5
··
a
..:-, ':::.:
Ube Upimol R
111
-0.01
)1
Ube Upilex 5; 0.025 mm film
· ·
85
-0.03
9
Ube Upimol 5
no chenge observed
0
~( ,~:-
Ube Upimol R
98
~:
::c
no change observed
·
98
. . . . •. ;.j; • \9,( ··'Ft.}·
Ube Upilex 5; 0.025 mm Ii1m '. Allied 5ig. Apical100AV; 0.025 mm film
dimen.ciig{jnliiinsvei~lid;rei:.of
~
9 9 9 9
Ube Upilex R; 0.025 mm film
.;{\:>% ::::::}{{{::::
14
9
Ube Upimol R Ube Upimol 5
·
93
0
83
5
115
0
23
0.007
Ube Upimol 5
dimen. chg. 'in t(ansyerse direc. of 0%
35
23
·· ·
a 98
23
;. Allied 5ig. Apical 100AV; 0.025 mm film
dimen. chg. in tran..erse dlrec. 01 0.01%
'8
60
Rogers Durimid ..
dimen. chg. in Iransverse direc. 01 0.02%
14
mixed with trichloroethane
,"-."." ........ ;.,.. y ... •···v····
Ube Upllex 5; 0.025 mm 101m
-0.01
23
;
91
-0.02
9·
Ube Upilex R; 0.025 mm film
·
100
·······9.·
Ube Upilex S; 0.025 mm film
-0.04
10
2~ 23
Sodium Hydroxide
115
14
isopropanol
98
60
0.007
2N
Nitric Acid
97
23
Methyl Alcohol Methyl Ethyl Ketone
Methylene Chloride
0.08
23
light oil
Ube Upilex R; 0.025 mm film ..... _,
···dinien.ciigi'iifiiansverSii;dfiilC. of 0.01%
37
FeC13
Ferric Chloride Gasoline
. . 7"
Ube Upilex R; 0,025 mm film
Ube Upilex 5; 0.025 mm film Ube Upilex 5; 0.025 mm film
-0.02
dimen. chg. in transvelse direc. of 0,02'"
-0.02
dimen. crig. In
In;nsvefll~,dir&c.
of
0.0~%
Ube Upilex R; 0.025 mm film Ube Upilex 5; 0.025 mm film
degraded
Allied 51g. Apical100AV; 0,025 mm film
95
nO'chang, observed
Ube Upimol R
95
"
85
105
80
80
95
60
97
120
91
; ,',~::
Uba Upimol 5 Ube Upilex R; 0.025 mm film Ube Upilex 5; 0.025 mm film Allied 5ig. Apical lOOAV; 0.025 mm film
-<
3·
a:
........
Chemical Resistance - Polyimide
0
........
Chemical Resistance - Polyimide
"U
o
-.J
o
00
'<
3' 0:
co
Reagent
Reagent Note
Toluene
I
conc'l Temp, Time'l POL 1"'1 I'CI IdaysIRating ,e9 ..
0.01
.9"
a
ill Trichloroethane
mixed wilh methylene chloride
ph=10 boiling water
.
100
~
100
~
1iCIl? IS
;:s t"'
0: .,
.,
$:l
II::
i Allied 5ig. Apicall00AV; 0.025 mm film
92
Ube Upimol R Ube Upimol 5 Ube Upilex 5; 0.025 mm film
9'
100
no .~hange '-'-' . . 'observed .
Ube Upimol R
:t.~
2.5
100
92
Ube Upimol 5 Rogers Durimid Ube Upilex R; 0.025 mm film
105
115
95
~
95
100
85
Ube Upilex 5; 0.025 mm film
9
100
94
Ube Upilex R; 0.025 mm film
95
93
Ube Upilex 5; 0.025 mm film
100
90
Ube Upilex R; 0.025 mm film
86
Ube Upilex 5; 0.025 mm film
20
Allied 5ig. Apicall00AV; 0.025 mm film
100
110
90
Ube Upilex R; 0.025 mm film
95
100
85
Ube Upilex 5; 0.025 mm film
72
110
55
Allied 5ig. Apicall00AV; 0.025 mm film
ph=4
67
130
40
ph=4.2
100
115
85
95
100
85
Ube Upilex 5; 0.025 mm film
ph=7
67
120
29
Allied 5ig. Apicall00AV; 0.025 mm film
ph=8.9
105
115
90
UbI Upitex R; 0.025 mm film
95
100
85
Ube Upilex 5; 0.025 mm film
boiling water
n CIl
Ube Upilex 5; 0.025 mm film
~h
125
ph=10
~
'~ww
)
91
$:l
Ube Upilex R; 0.025 mm film
trans~~rse dilec. 01'0,01% .
57
ph=l
@
----.
Ube Upilex R; 0.025 mm film 100
s'{
108
a a
9
-,
Water
d1men. chg:in tr~nsteise direc. of 0%
9.'.
'9" Trichlene
{;
dimen. Chg. in 100
9
Material Note
Resistance NJe
Impact
,.~I~~~gth
87
Ube Upilex R; 0.025 mm film
81
101
87
83
78
Ube Upilex R; 0.025 mm film Ube Upilex 5; 0.025 mm film
99
86
UbI Upilex R; 0.025 mm film
86
77
81
82
Ube Upilex 5; 0.025 mm film
~II ·.·.·.I
~
VI
tl
Reagent_.
Reagent Note
Acetic Acid
<6' ;J
s:
0' ~
t2
Cf~c. T~.~i' ~i;;;\R:~~1 5 50 50
~
Antifreeze ASTM Oil No.3 Carbon Tetrachloride Detergents Freon 12 Freon 22 Gear Box Oil Hydrochloric Acid Jet Aircraft Fuels Lubricating Oils
0.56
turbo oil15 10 10 10
% Retained
D~~~:iliodulus ~:::~~:~ I
23
0.025
0
23 25 25
0.8
-1.5
93 102
90 85
100 100
98 100
0.04
0.045
0
0.02
,.
0.8
Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc Rhone Pou. Kine' 5504; 65% gLfib. Rhone Pou. Kinel 5505; 25% graph. IiI. Rhone Pou. Kine' 5504; 65% gLfib. Rhone Pou. Kine15505; 25% graph. IiI.
m
77 86
Rhone Pou. Kinel 5504; 65% gLfib. Rhone Pou. Kinel 5505; 25% graph. iiI. Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc
76 77
Rhone Pou. Kinel 5504; 65% gLfib. Rhone Pou. Kinel 5505; 25% graph. IiI.
0.1
Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc Rhone Pou. Kine'
" Mll·l21048
JP 4; Kerosine
., 10 ? 3 . '\ \:"
is';'A/
.,,1~0"'("·:
extreme pressure oils, Mll·l2105
d~\lW;:;... lSO,' i
ARAl·SAE 2 W50
Nitric Acid
7 50
0.44
Rhone Pou. Kine13515; 40% gLfib. Rhone Pou. Kinel 5504; 65% gLfib.
-0.04
Rhone Pou. Kinel 5504; 65% gLfib.; 51x3 mm disc Rhone Pou. Kine15504; 65% gLfib.
95
542 •.• ,.•..; .. "'" . _ ". " 5 4 2 , , \ h\ ·?;; hi......· < /., e.; 62.5 ;Vt·m;AL···;·..···,····
.)"".,w··,,·."}\,·,;;-
10 10
94 101
80 74
2
0.8
0.15
1 10
1.13
0.26
10
Sulfuric Acid
..
'4 2~~,:. -::
10 10
25': .••.
'. .'
25
j: ". 6
Sunflower Oil Synthetic Oils
.•
240 .(.; synthetic.
.'
;',],.M;·
3
r :.,:
0.57
"I~";
-0.2
'.
IIi ' ; ; '{,
~nerjet 523
Rhone Pou. Kinel 5504; 65% gLfib.
82
Rhone Pou. Kinel 5504; 65% gLfib.
98
81
Rhone Pou. Kinel 5505; 25% graph. IiI.
0 . 3 3 ' Rhona Pou. Kinel 5504; 65% gLfib.; 51x3 mm disc 88. 69'
.
••••••
,';Hh> exllib\lSgoO"cfresi~~ice<;:;:i
~ " .. '
Water;2:!
0.54
0
1.47
0.07
•
.in
r;(iF;
1qO·;}·
.)HI
103
112
iii :::]
~
0< OJ
3
5 C" fIJ
3
"OJ CD
93
~~~~~~oethYlene~i',Jt.:· o~.~ boiling water
fIJ fIJ
"
Rhone Pou. Kinel 5504; 65% gLfib.; 51x3 mm disc
88 99
~
0
Rhone Pou. Kine15504; 65% gLfib. Rhone Pou. Kine15505; 25% graph. til.
95
0 OJ
Rhone Pou. Kine15511; graph.lesb.lil.
Rhone Pou. Kine14525; 40% gLfib. Monsanto; hydraulic fluid
3
Rhone Pou. Kine13515; 40% gLfib. Rhone Pou. Kine15504; 65% gLfib. Rhone Pou. Kine14512; graph.laram. IiI.
Pyralene 1498 0.1 0 ~ Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc SiliconeO i l s } ; ' ; : Rhone Pou. Kine13515; 40% gLfib. Skydrol 500 Sodium Carbonate Sodium Hydroxide
0
"~
92 98 solution; 0.25 gil
Material Note
Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc 81 106
commercial
Ii
Resistance Note
0.015
25 25.
" Motor Oils
Weight
23 25 25
Acetone Aircraft Turbine Oils Ammonium Hydroxide
% Change.
..... .,. i
Rhone Pou. Kine15504; 65% gLfib. Rhone Pou. Kinel 5505; 25% graph. IiI.
3 ~
Rhone Pou. Kinel 4525; 40% gLfib.
:~:~: ::~: ~:~:: ::~:: :~~ ::::::: Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc
Rhona Pou. Kine15504; 65% gLfib. Rhone Pou. Kine15504; 65% gLfib.; 51x3 mm disc
-0 ~
OJ ~
........
o
CO
710
Chemical Resistance - Polyurethane Reaction Injection Molding System
Acetic Acid Acetone Ammonium Hydroxide Aniline Benzyl Alcohol Carbon Tetrachloride Castor Oil Chlorobenzene Cyclohexanone Cyclohexyl Alcohol Decahydronaphthalene Dlbutylamlne Dimethyl Sulfoxide Dlmethylformamide Dloctyl Phthalate Ethyl Acetate Ethyl Alcohol Ethylene Glycol Formaldehyde Formic Acid Glycerin Hydrochloric Acid
10 10
Phosphoric Acid Potassium Hydroxide Sulfuric Acid Toluene Trichloroethane Trichloroethylene Water
RIM PU
41.7
23
1
23
41.7
2.5
no change in appearance
23
41.7
19
edge degradation after 1000 hrs.
23
41.7
17
edge degradation
23
41.7
1
no change in appearance
23
41.7
1
23
41.7
9
1.7
23
41.7
21.3
sample collapsed
41.7
0
no change in appearance
23
41.7
0
23
41.7
2.5
23
2
23
1
23
41.7
0
23
41.7
34
23
41.7
26.5
softening, edge distorted
23
41.7
10
sample distorted after 20.8 days
40
23
41.7
1
no change in appearance
10
23
41.7
2.3
n-dibutyl amine DMF
concentrated
10
Miles Baydur (RIM PU); cut specimens
sample degraded after 2 days sample degraded in 1 day no change in appearance
23
41.7
0
23
41.7
15
skin degrad., dark brown discolor.
23
41.7
1
no change in appearance
23
41.7
2.5
23
41.7
1.5
23
1
23
1
sample swollen and broke after 1 day
....::-,: sample degraded in 1 day
n-methyl pyrrolidone; NMP
23
1
concentrated
23
41.7
10
23
41.7
1.3
10
23
41.7
1.5
10
23
41.7
1.7
2
23
41.7
1.5
23
41.7
1
23
41.7
1.5
23
41.7
30
23
41.7
1.8
50
41.7
2.2
1,1,1-trichloroethane
no change in appearance sample swollen and broke after 1 day
23
10
Hydrogen Peroxide Hydroquinone Methyl Ethyl Ketone Methylene Chloride Methylpyrrolldone Nitric Acid
:/\::.
23
sample degraded no change in appearance
© Plastics Design Library
711
Chemical Resistance - Urea Resin
.R~.i~t'"~ ~"1;;'Y:;~~'''~';; }':1')~'~i:\'j('\>';"'\;:,; :;:';:'i; ; ;il '~i:1 .. Acetaldehyde Acetate Acetic Acid Acetone
solvents
'.'
Antibiotics Arsenic Acid ASTM Fuel A ASTM Oil No.1 ASTM Oil No.3 Barium Chloride Barium Fluoride Barium Nitrate Beer Beet Juice Beet Pulp Benzene Benzine Benzoic Acid Black Liquor Blast Furnace Gas Blood Blue Vitriol Borax Brake Fluids Brewery Slop Brine Bromine Pentafluoride Bunker Oil Butyl Acetate Butyl Alcohol Butyl Cellosolve Butyl Mercaptan Butyric Acid Calcium Bisulfite Calcium Chloride Calcium Hydroxide Cane Sugar Carbolic Acid Carbon Bisulfide Carbon Disulfide Carbon Tetrachloride Castor 011 Catsup Caustic Potash Caustic Soda Cellulose Acetate China Wood 011
© Plastics Design Library
"
. . . . . ... \.')"'.""·'c';
3,...
'.'.
·.3 9.
23
Acetylene Acids Air Alcohols Alkaline Alum Aluminum Borohydride Aluminum Chloride Aluminum Sulfate Ammonia Ammonium Bicarbonate Ammonium Chloride Ammonium Hydroxide Ammonium Nitrate Ammonium Phosphate Ammonium Sulfate Amyl Acetate Amyl Mercaptan Amyl Phenol Aniline
.
poor resistance
7
8 3 5
excellent Tesistance no observed change
9
poor resistance fair resistance, limited service excellent Tesistance
~ 5
fair resistance, limited service
5 1 7 7 9 7 1 5.
Am. Cyan. Beetle; alpha cel. fil.
do not use material with Tea gent good Tesistance excellent resistance good resistance do not use material with reagent fair resistance. limited service
5
3
poor resistance
5
fair resistance, limited service
5 7 7
good resistance
do not use material with reagent
dye
isooctane
beeT wort
5 3 9 9 9
fair resistance. limited service poor resistance
1· 1 1
do not use material with Teagent
7 9 9
good resistance excellent Tesistance
excellent resistance
9'
benzoil
9 3
poor resistance
3
3
good resistance poor resistance good resistance fair resistance, limited service poor resistance
7 3 1 9 7
good resistance poor resistance do not use material with reagent excellent resistance good resistance
7
3 7
5 1
v
excellent Tesistance good Tesistance poor resistance do not use material with reagent
or cane juice
fair resistance. limited service excellent Tesistance poor Teslstance '•.••••.•..; do not use mateTial with reagent good resistance excellent resistance
"
• C •••••i .. •, N....;... . . .· do not use material with reagent ••••,•••,.,.".,...., .•,."., fair resistance. limitad service good resistance
Urea
712
Chemical Resistance - Urea Resin
.....
Reagent
~e8genlNote ., COllC. .'
Chlorinated Solvents Chlorine Chlorine Heptoxide Chlorine Trifluoride Chloroacetic Acid Chlorobenzene Chloroform Chromic Acid
(%)
Temp. ('C)
Time (days)
I
1 3
chlorine water
5 1 1
5
23
0.17
Citric Acid 10
Coal Tar Coconut Oil Coke Oven Gas Copper Ammonium Acetate Copper Chloride Copper Nitrate Copper Sulfate Copperas Corn Oil Cottonseed Oil Creosote Cresol Cresylic Acid Cyanide Cyanogen Cyclohexane Detergents Diacetone Alcohol Diborane Dibutyl Phthalate Diethylenetriamine Distiller's Slop Dowtherm Enamel Essential Oils Esters Ethane Ethers Ethyl Acetate Ethyl Cellulose Ethyl Chloride Ethyl Ether Ethyl Silicate Ethylene Ethylene Diamine Ethylene Glycol Fatty Acids Ferric Chloride Ferric Sulfate Ferrous Chloride Ferrous Sulfate Fluorine Formaldehyde Formic Acid Freon Fruit Acids Fuel Oils Fuels Fungus Furfural Gasoline Glauber's Salt Glucose Glue Glycerin Grease Green Vitriol Hafnium Hydroxide Heptane
Urea
,PDL Rating .
23
7
oil
Resistance Hote do not use material with reagent poor resistance fair resistance. limited service do not use material with reagent
7 9
good resistance excellent resistance
3
2
poor resistance attacked
3'
poor resistance
2
attacked
9
excellent resistance
Am. Cyan. Beetle; alpha eel. fil. Am. Cyan. Beetle; alpha eel. IiI.
9 7
good resistance
7 7
7 7 9 7
green
9
excellent resistance good resistance excellent resistance
3
poor resistance
,
3 '9 7
do not use material with reagent excellent resistance good resistance
7 7
solution
9 7
•,
excellent resistance
good resistance
7
1 7 7
diphenyl
9
excellent resistance
9 dibasic
9 7 7 7
good resistance
9
excellent resistance
9 7 7 7
good resistance
7 7
3 7
poor resistance good resistance
7
i: ,.,'
7'
1 9 .. 1 S.
~"
9 9 1 high octane
23
7
3 8 9
do not use material with reagent excellent resistance do not use material with reagent fair resistance, limited service poor resistance excellent resistance do not use material with reagent poor resistance no observed change excellent resistance
Am. Cyan. Beetle; alpha eel. iii.
9
9 glycerol
9
9 7
3 9
good resistance poor resistance excellent resistance
© Plastics Design Library
713
Chemical Resistance - Urea Resin , .:'
Reagent
,.
..
Reagent Note
('Yo)
.. Hexyl Alcohol Hydrazlne Hydrobromic Acid Hydrochloric Acid Hydrocyanic Acid Hydrofluoric Acid Hydrogen Peroxide Hydrogen Sulfide Hydrosulflte Hyposulfite Inks Iodine Pentafluoride JP 4 Kaolin Slip Kerosine Lacquer Solvent Lacquers Lactic Acid Lard Lead Acetate Lime Chlorate Lime Chloride Lime Milk Lime Water Lubricating Oils Magnesium Hydroxide Mercuric Sulfate Mercury Methyl Alcohol Methyl Chloride Methyl Cyclopentane Mine Water Mine Water Acid Mineral Oils Molasses Motor Oils Mustard Naphtha Nickel Chloride Nickel Sulfate Nicotine Sulfate Niter Cake Nitric Acid Nitric Oxide Nitrobenzene Nltroethane Nitrogen Nitrogen Tetroxide Nitromethane Nitropropane Oils Oleic Acid Olive Oil Orthophosphorlc Acid Oxalic Acid Paints Palm 011 Palmitic Acid Paraffin Petroleum Ether Phosphate Ester Phosphoric Acid Photographic Developers Picric Acid Polyethylene Potash Potash Alum Potassium Carbonate Potassium Chlorate
© Plastics Design Library
,Cone.
Temp. "
('c)..
POL .' Rating
, Time (dlYs)
Reslstan,ce Note
."'"
.'
:.•..
,"'.
"
,.:;:ii
Material Note):i
ii,)
'::
9
excellent resistance good resistance poor resistance
7
3 3 3 3
.. .. ..
,1
do not use material with reagent
..
1
of soda
.
1
..
..
.. 1 ·9
excellent resistance do not use material with reagent excellent resistance
1
9 9 9
.,
.. ..
good resistance excellent resistance poor resistance excellent resistance
7
.9 3 .9
good resistance
7
. 5 5 3
fair resistance, limited service
.
..
poor resistance do not use material with reagent excellent resistance
1
9
do not use material with reagent excellent resistance good resistance excellent resistance good resistance
1 9 7 methanol
9 7
poor resistance
.3 3 3 9 9 SAE 20
105
7
.. ..
excellent resistance
.
no observed change excellent resistance
8
9 ' coal tar petroleum
..
9 9
.
good resistance
7
..
-; ,5
fair resistance, limited service
do not use material with reagent
F'
.. ..
1 1 7
good resistance
.
79
excellent resistance do not use material with reagent
1 7,.'
t/
Am. Cyan. Beetle; alpha cel. fil.
good resistance
..
7
;lli~t.
,
,:>,~
excellent resistance poor resistance excellent resistance poor resistance
"'3'
..
9
excellent resistance
..
.:,: a·
. )5:,: .
poor resistance excellent resistance
.. ..
poor resistance good resistance poor resistance good resistance fair resistance, limited service
>
tH
".. . . f~
.
"
t
.. poor resistance
Urea
714
Chemical Resistance - Urea Resin
Potassium Chloride Potassium Cyanide Potassium Nitrate Potassium Sulfate Producer Gas Propane Propylene Glycol Pyridine Pyridine Sulfate Pyrogallic Acid Pyroligneous Acid Quenching Oils Rhidolene Sal Ammoniac Salt Cake Salt Water Salts Sea Water Sewage Shellac Silicate Esters Silicone Oils Silver Nitrate Soaps Soda Carbonate Sodium Sodium Cyanide Sodium Hydrochlorite Sodium Hydrosulflte Sodium Hydroxide
do nol use material with reagent poor resistance excellent resistance do nol use material with reagent good resistance poor resistance solution
good resistance excellent resistance good resislance fair resistance, limited service poor resistance good resistance
liquid
boiling point 23
0.33 7
Sodium Iodide Sodium Metaphosphate Sodium Metasilicate Sodium Nitrate Sodium Perborate Sodium Peroxide Sodium Phosphate Sodium Plum bite Sodium Silicate Sodium Sulfate Sodium Sulfide Sodium Sulfite Sodium Thiosulfate Solvents Soybean Oil Sperry Oil Stannic Chloride Stannous Chloride Starch Steam Stearic Acid Strontium Nitrate Sugar Sulfite Liquor Sulfuric Acid
Urea
Am. Cyan. Beetle; alpha eel. iii.
do nol use material with reagent good resistance
excellent resistance
good resistance excellent resistance fair resistance, limited service poor resistance good resistance excellent resistance poor resistance 23
Sulfurous Acid Tallow Tannic Acid Tanning Liquors Tartaric Acid Tetraethyllead Tetranitromethane Tin Tetrachloride Trlbutyl Phosphate Trichloroethylene Turpentine Urine
fair resistance, limited service atlacked discolored poor resistance good resistance
7
do not use material with reagent atlacked poor resistance good resistance poor resistance
Am. Cyan. Beetle; alpha eel. iii.
excellent resistance good resistance excellent resistance good resistance
poor resistance
© Plastics Design Library
Chemical Resistance - Urea Resin
Varnish Vegetable Juice Vegetable Oils Vinegar Vitriol Water Whiskey White Vitriol White Water Wines Wood Alcohol Wood Pulp Wood Vinegar Xylene Yeast Zinc Chloride Zinc Sulfate
© Plastics Design Library
oil
715
poor resistanca good resistance
oil emulsion wi glycol
poor resistance good resistance excelient resistance
xylol
poor resistance excelient rasistance good resistance do not use material with raagant good rasistance
Urea
716
Chemical Resistance - Vinyl Ester Resin
'Reagent
Reagent Note-
Acetaldehyde
all concenlralions
Cone. Temp. POL Max. I'C) , Rating Teml).I'C) I") 2 2
20 20 20
Acetic Acid
concenlraled
8
not recommanded (or use
30
8 2
wilh 37% HCl and 2% H2SO4 liquor; in hydrocarbon
yap or; in hydrocarbon
Owens Corn. Vibrin E-085 (epoxy noyalac) Dow Derakana 470 not (acommended for use Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold AIIac 580 . not racom;:lnie;!I1It1enl'x~, Or exp} Dow Derakane 411 .10 rUllies may be OK Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 .?-\:........ ,:,)
r: ",
2
2' 2
5 10 10 10 10 10 10 10 10 10 10 10 10
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
10 10 10 15 15 15 15 15 15 15 15 25 25 25 25 25 25 25 25 25 40
38
2 2
20 20 20
8 8 8 8 8 8 8 8 '8
r
8 8 8 8 8 8 8 8 8-
54 71-104 71-104 71-104 71-104 71-104 71-104 99 104 99 99 99 99 99 65 93 99 104 99 99 99 99 99 65 99 104 99 99 99 99 99 65 93 60
..
~.
50 50 50 50 50 50 50 50 75 75 75 75 75 75 75 80 85
Vinyl Ester
Reichhold Allac 580 Dow Derakene 411
'.,~:
20
Acetic Acid
-~{
Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
2 2
glacial
Acetic Acid
. nol ,ecommended lor use nOI recomj Intermillent expo Ot expo 10 ume$ may ba OK .'
2 2 2
100 100 100
Resistance Note
8 8 8 8 8 8 8 8 8 8
8
82 82 82 82 82 82 82 71 38 38 38 65 65 65 60 30
8
43
8 8 8 8
8
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derekane 411 Dow Derakane 470 Dow Derakana 510N Dow Darakane 530 Dow Darakane 8084 Raiehhold Allae 580 Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derekane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Reichhold Allec 580 Owens Corn. Vibrln E-Ol0 (bisphenol-A epoxy) Reiehhold Allac 580 ...).
© Plastics Design Library
717
Chemical Resistance - Vinyl Ester Resin
Ashland Hetron 922 Ashland Helron FR992
Acetic Anhydride
all concentrations
Reichhold Allac 580 Dow Derakane 470 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakene 411
100 100 100 100 100
Acetone
49 49 49
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
20
Dow Derakane 411
20 20 20 20
.
.;~
.:::/
.-
,.
5 10 10 10 10 10 100 100 100 100
Acetonitrile
':~
all concentrations Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100 100
Acetophenone
Acetyl Chloride Acids Acrylamlde
Acrylic Acid
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 980 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
all concentrations dibasic
"" Owens Corn. Vibrin E·085 ....... (epoxy novalee)
100 100 100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold AlIac 580
80
Ashland Hetron 980
50 50 50 50
27
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
50 50 50 50
27 27 2.7 27
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
38
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
all concentrations 10 10 10 25 25 25 25 25 25 25 25 40
38 38 38 38
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
80
Acrylic Latex
© Plastics Design Library
all concentrations
Ashland Hetron 922 Ashland Hetron 980
Vinyl Ester
718
Chemical Resistance - Vinyl Ester Resin
. Ma~.
Resistance Note
:r~mp; ('Cl
Material
Note
Ashland Hetron FR992 Reichhold Allac 580
Acrylics
acrylic latex
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
emulsion
Acrylonitrile latex dispersion
Acrylonitrile Latex Adipic Acid
9
2 2 2 2 100 100 100 100
27 27 27 27
.9 9 9 9 2 2 2 2
highS$t temp. for which informat. available .'
nol recommended for U$e
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
all concentrations
8
65
8
80
23 23 23 23
8 .8 8 8
82 82 82 82
40
8
50
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
spray operation
8 8 8
49 49 49
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON
humid, trace sullur fumes
8 8 8 8 8 8
93 93 93 150 180 170 160 180
Ashland Hatron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411
Adiponitrile
Air
27
aqueous, saturated 1.5 g sol. in hot water
Agricultural Chemicals
2
Owens Corn. Vibrin E·085 (epoxy novalec); 70C/5hr. postcure Dow Derakane 411
immersion
II one sided·uninsulated air temp. immers.
8
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Aircraft Fuels
Alcohols Alkaline Cleaners
Dow Derakane 411 Dow Derakane 470 Dow Darakane 510N Dow Derakane 530 Dow Derakane 8084
aviation
detergent
100 100 100
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 A$hland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
soak cleaner; 10 oz/gal
Alkyl Arylsulfonlc Acid
100
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Alkyl Benzenesulfonlc Acid
92 92 92 92 92 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
100
Alkylbenzenes Alkyinaphthalenesulfonic Acid Alk Isulfonlc Acid
Vinyl Ester
Cl0·C12
100 100
and sullonate$
100
Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
© Plastics Design Library
719
Chemical Resistance - Vinyl Ester Resin
Max. Temp; ('C)
Miiterlar N~tif
Resistance Note' use 470·36 if serv•. marginal recom.; .iotermillent expo or expo to fumes may be OK
20 20 20 20
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580
I'"
100
Allyl Chloride
all concentrations
not recommended for use. not recom.; intermilleni expo or expo to fumes mey be OK nol recommended lor 'use
20
Allyl TOI~I Trlmethyl Ammonium Chlor de Alum
100 100
2
100
••,•••. 2
all concentrations
8
Helron 800 fo; maximuin resistance" nOI recommended lor use
Dow Derakane 530
8 •..
99 99 99 99 82 80
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold AlIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8
8.
8·
93 99 121 99
all concentrations
99 121 99 99 99 99 99 82 40
")
.
.'.;
': :~
.<
50 50 50 100
50 50 50 50 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenof·A epoxy)
Aluminum Chlorohydrate
Aluminum Chlorohydroxide
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
38
8
saluraled
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 8084
8
8
Aluminum Chloride
27
Dow Derakane 470 Dow Derakane 411
99 99 99 99 82 99 99 99 93 80
-:)..
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Aluminum Citrate
all concentrations saturated
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Aluminum Fluoride
all concentrations
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
© Plastics Design Library
Vinyl Ester
720
Chemical Resistance - Vinyl Ester Resin
. Max. Temp;('~)
Aluminum Fluoride
all concentrations
50
27
9
50 50 50
27 27 27 27
9 9
50
Aluminum Hydroxide
9
9 .,
8 "8
saturated
all concentrations saturated
8 8
99
8 8
99 104 99 99 99 99 99 82 93 80
8 8. 8
100 all concentrations
8
B 8
8' 8'
8 8
e' '8
8
<99
Aluminum Sulfate
all concentrations
<99
Amine Salts
quaternary
quaternary; all concentrations
Amlnes
Alamine amlnes
Armeen HT
Vinyl Ester
.
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
8
Aluminum Potassium Sulfate
Dow Derakane 411
71 82 82 82 82 82 82 82 82 82 82 82 82 82 80
8 8 8 8 8 8 8 8 8 8 8 8
10 10 10 10 10 99
highest temp. for which informal. available "
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
8 8
Aluminum Nitrate
Material Note
82 93 82 82 93 82 82 82 82 93 82 99
8 8
20 20 20 100
71
Resistance Note
8 8 8
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 4t 1
© Plastics Design Library
721
Chemical Resistance - Vinyl Ester Resin .. -.~:.
~~::;;~\;:
, POL Max. Ratln,g Temp.('c) Amino Acids
all concentrations
38 38
Amlnoethoxyethanol
100 100
Amlnoethylplperazlne
100 100
Amlnosulfonlc Acid
100
Ammonia
Resistance Note
132 132
Reichhold AlIac 580 Dow Derakane 470 not recommended lor use
all concentrations
30
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
8
80
8
38 82 38
Owens Corn. Vibrin E-085 (epoxy novalec) Ashland Hetron 922 Ashland Hetron 980 Ashiand Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
8 8 liquefied wet; gas
2
8 8 8
iiquelied gas
20
2 2 2
gas
20 20 20 20 38
not recommended lor use 38 66 38 not 'reco,;,,!' inlerminenl expo or exp, ". ..t? umes'may be OK '
2.., 2 },'ighest lemp; lor which,inlormat. ;:,,;avallable
9
Ammonium Acetate
Reichhold Allac 580
100 100 100
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470
50 50 50 65 65 65 65 65 65
neil 'r8~om,; Inlermliienl exp, or exp, .~ " JOr~milJ may be OK
20 50
100
Ammonium Benzoate
Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy)
8
. : '8
saturated
10 10 10 10 10 10 10 10 10 15 15 15
© Plastics Design Library
Dow Derakane 510N Dow Derakane 530 Reichhold AlIac 580 Dow Derakane 8084
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
all concentrations
Ammonium Bicarbonate
Ammonium Bicarbonate
Dow Derakane 470 Dow Derakana 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
38 38 38 38 dry gas weI gas
Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
dry; gas
Ammonia
Materlal,t:lQf'ii,;,
20 20 20 50 50 50 50
8 8 8 '8
8
r
~.:.
8 8 8
"~; 8 8., . 8'· .
. ,8
,
8 8 8
8 ,: :,...8"
.' 8 8.
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Vinyl Ester
722
Chemical Resistance - Vinyl Ester Resin
Resistance Note ,::;:' Dow Derakana 8084 Owens Corn. Vibrin E·010 (bispheno/·A epoxy)
Ammonium Bifluoride
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100
Ammonium Bisulfide Ammonium Bisulfite
saturated black liquor
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
cooking liquor
liquor
Ammonium Bromate
40 43 43 43
Ammonium Bromide
40 43 43 43 100
Ammonium Carbonate
'''.'.
Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
all concentrations
66 66 66 66
saturated
Ammonium Carbonate w/5% sodium chloride; pH 13
Ammonium Chloride
all concentrations
saturated
Ammonium Citrate
all concantrations
saturated
Vinyl Ester
10 10 10 15 15 15 30 30 30
Reichhold AIIac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084
104 104 104
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Relchhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
© Plastics Design Library
723
Chemical Resistance - Vinyl Ester Resin
80
Ammonium Fluoride
all eoneenlrations
10 10 10 10
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Darakana 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Ashland Helron 922 Ashland Hellon 980 Ashland Helron FR992 Reichhold Allae 580
20
Ammonium Hydroxide
aqueous ammonia
aqueous ammonia
Ammonium Hydroxide
aqueous ammonia
aqueous ammonia
5 5 5 5 5 5 5 5 5 10 10 10 10 10 10 10 10 10 20 20 20 20 20 20 20 20 20 25 28 28 28 29 29 29 29 29 29
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reiehhold AIIae 580 Ashland Helron 922 Ashland Hellon 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Ashland Helron 922 Ashland Helron 980 Ashland Hellon FR992 Reichhold Allae 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Ammonium Lauryl Sulfate
30 30 30 30 30 30 100 100 100 100
Dow Derakane 4" Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
Ammonium Lignosulfonate
50 50 50 50 50
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
© Plastics Design Library
Vinyl Ester
724
Chemical Resistance - Vinyl Ester Resin
ResistariCeNQle Ammonium L1gnosulfonate
.)·<S,{:
50 100
~.
8
':~:
71 80 ~.:'
Ammonium Metatungstate Ammonium Molybdate
w/50% W03; pH 3.3
82 82
all concentrations
recom;b~se~~n
. 6
all concentrations
8' 8· 8 8 ·8
fluoride nuclear waste sol'n saturated
wi 40% urea, 50% water w/20% urea, 50% water
Ammonium Oxalate
10 10 30 30
all concentralions
Reichhold Atlac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron FR992
temp. pHQf aq.. sol'n; pH 0-3: .60C; pH >9:.<80C
Ammonium Nitrate
Material No~e
99 99 99 104 82 80 93 38 38 99 104 99 49 49 49 49
synlh. surf:veil·.generaIlY used
,:.".
,-./.
65 temP. recom.· based on pH of-aq. sorn~ pH 9;3; <60C;·pW>9:<80C
Dow Derakane 411 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Dow Derakane 411 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Ammonium Pentaborate 12 12
Ammonium Persulfate
all concentrations
saturated
Ammonium Phosphate
dl basic; all concentrations dibasic, all concentrations
dibasic; all concentrations dibasic; saturated
mono basic; all cone. monobasic, all concentrations
monobasic; all concentrations monobasic
65 65 65
49 49
Dow Derakane 411 Dow Derakane 8084
82 62 62 62 62 62 62 62 82
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 41 t Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
Ammonium Polysulflde
saturated
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Ammonium Rhondanide
saturated solution
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084
quaternary; all concentrations quaternay ammonium salts; all cone.
Reichhold AlIac 580
Ammonium Salts
Vinyl Ester
© Plastics Design Library
725
Chemical Resistance - Vinyl Ester Resin
Resistance' Note
z;qcf 'Rating . " 8' '\8,.
8 . 8" 8 8
99 99 99
Dow Derekene 411 Dow Derekene 470 Dow Derekene 510N Dow Derekene 530 Dow Derekene 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992
104 82 60
8 saturated
8 8
".,
Ammonium Sulfide
all concentretions bisultide, setureted
9
Reichhold Allee 580 Dow Derekene 411 Dow Derekene 470 Dow Derekene 8084 Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992
8
'9'
.. 8 ""9"
8;
25 25 25
Ammonium Sulfite
Ammonium Thiocyanate
Ammonium Thloglycolate Ammonium Thiosulfate
Amsco Solvents Amyl Acetate
.,B 8 8 8 '8 8 9 > 8 ..
ell concentretions saturated
10 10 10
Reichhold Allee 580 Dow Derekene 411 Dow Derekene 470 Dow Derekene 530 Dow Derekene 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992
20 20 20 20 50 50 50 50 50 50
Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992 Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992 Reichhold Atlec 580 Dow Derekane 411 Dow Derekene 470 Dow Derekene 51 ON Dow Derekene 530 Dow Derekene 8084 Reichhold Allee 580
satureted
~ .
7.5
Dow Derekene 411
60 60 60 60 60 60 60 100
Relchhold Allee 580 Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992 Dow Derekene 411 Dow Derekene 470 Dow Derekene 51 ON Dow Derekene 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100 100 100
Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Helron FR992
ell con centretions
BKOH solvents
.,....
49
Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992 Reichhold Allee 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derekane 470
49 49
Ashlend Hetron 922 Ashlend Hetron FR992
ell concentrations
38
ell concentretions 100 100
Amyl Alcohol
© Plastics Design Library
ell concentretions
,. oot recOll\m~nded lor use ;,'Helron 800 lor mexlmum reslstence not recommended lor U$8
Ashlend Hetron 922 Ashlend Hetron 980 Ashlend Hetron FR992 Dow Derekene 411 Dow Derekene 470 Dow Derekene 5tON Dow Derekene 530
Vinyl Ester
726
Chemical Resistance - Vinyl Ester Resin
PDf , ,Max. Rating' Temp: ('C) Amyl Alcohol
all concentrations
vapor
8 8':';'
49 40
8
66 60 60 60 49 49 49 49 66
8 8
8
., 8"
."'8 8
8
Amyl Chloride
~ 2 8
all concentrations
8
8
50
e. 100 100 100 100
Aniline
49 49
2 . 8 20 20 20 20 100 100 100 100
Aniline Hydrochloride
2
Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hatron FR992 Dow Darakane 411 Dow Derakana 470 Dow Darakana 510N Dow Darakane 530 Reichhold AlIac 580
:?".
not recommended lor use
2 2'
all concentrations
21 not recom.; inlermijlenl expo or expo 10 lumes may be OK
.. nol recommended for use ...
~':;
all concentrations
sulfonated
Antimony Pentachlorlde Antimony Trichloride
saturated
Antlstat
Electrosol
Aqua Regia
Vinyl Ester
all concentrations concentrated
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
Reichhold Allac 580
100
Dow Derakane 470 Relchhold Allac 580
15% sulluric acid
Anthraqulnonedlsulfonlc Acid
Reichhold Allac 580 Dow Derakane 470 Dow Derakane 411
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
saturaled
Animal Fats Anodizing Bath
Dow Derakana 411 Dow Darakane 470 Dow Derakana 510N Dow Derakane 530 Ashland Helron 980 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Helron 922 Ashland Hetron FR992
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
all concentrations
100 100 100
Aniline Sulfate
Material Note
.. noliecomme"iledlo; use 49 49 49 49 49
8 8'
Resistance Note
1 1 1
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
5 5 5 5 .. not recommanded lor use 71
Reichhold Allac 580 Ashland Hellon 922
© Plastics Design Library
727 Chemical Resistance - Vinyl Ester Resin
71 71
Armeen Arsenic Acid
not recommended lor use
all cone., C8·C18 amines
71
Reichhold Allac 580
all concentrations
32 32 32 38 38 38 30
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580
.. :":
80
Arsenious Acid
19 degree 8e
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
20 40
Barium Acetate
all concentrations
8 8
8
8
saturated
·8
Barium Bromide
8 8 8,.
all concentrations
8
8. 8'
8 .. 8
Barium Carbonate
82 82 82 50
88 88 88 82
99 99 99 99 82 94
8
82
'8
99
8 '8
104
99
8
99
8 8 8 8 8
99
82 60
8
99
8
99
8 8
99
.8 B .8 .8
99
99
99
93
Barium Chloride
8
Barium Cyanide
99
99 82 94
8'
93
8
65 65 65 65 65 60
8' .
65 99
8
99
B
Barium Hydroxide
99
....8·-......'
8 8 8
99 ."
8"
8
© Plastics Design Library
Ashland Helron 980 Ashland Hetron FR992
99 82
Dow Derakane 411 Dow Derakane 470 Dow Derakene 51 ON Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bispheno\·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Oow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
Vinyl Ester
728
Chemical Resistance - Vinyl Ester Resin
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
saturated
10 10 10
Barium Sulfate
all concentrations
Barium Sulfide
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
saturated
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
saturated
Barium Sulfite Barley
all concentrations
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
solution
Dow Derakane 411 Dow Derakane 8084
Beer
Dow Derakane 411 Ashland Hetron 922
100 100 100
Ashland Hetron 980 Ashland Hetron FR992
Beet Sugar Liquors
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 8084 Reichhold Allac 580
Benzaldehyde 20 20 20 20 100 100 100 100
Benzalkonium Chloride
Benzene
dilute
ethyl benzene hydrochloric acid (wet) hydrochloric acid; wet vapor vapors
Vinyl Ester
Dow Derakane 470 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Dow Oerakane 411 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 470 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 470 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
© Plastics Design Library
729 Chemical Resistance - Vinyl Ester Resin
,W
vapors
with 2/3 ethylbenzene
33 33 33 33 33
Benzene
Benzenesulfonic Acid
27 38 20
~"
Dow Derakane 411
..........
Dow Derakane 530 Dow Darakane 8084
notteeommended lo(use 38
2 '/2 49 49 49
iJi
,'.
~
./
':~:
2 2
all concentrations saturated
"
8
8
30 30 30 50 50 50 50 50 50
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Hetron 800 maitlmulii reslsl~nce '" nor;$~Ominandedror use .
2
~:.
8 8 '8
"
93 99 104
99 99 104
99 65 65 65 65 65 60
100 100 100
Benzoic Acid
Dow Derakane 530 Dow Derakane 8084 Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane S10N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470
. ~?i·f:{~~~;!11~~r\tJ~~(~f~~~.: .• :\(" "\::'u" ," .
20 20
100 100 100 100 100 100 100
".~
.-
20 20 20 20 20 20 20 20
/'
.'.
saturated ..•....
/
/.
Reichhold Atlac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Darakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E,010 ~isPhenol'A epoxy) Ashland Hetron 922 Ashland Hatron 980 Ashland Helron FR992
..
;/
Benzoquinone Benzotrlchlorlde Benzoyl Benzoic Acid
all concentrations Ashland Helron 922 Ashland Hetron FR992
100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
(0); all concentrations
Benzoyl Chloride Benzyl Alcohol
Ashland Hetron 922 Ashland Hatron FR992
100 100
Dow Derakane 470 Dow Derakane 8084 Reichhold AIIac 580 Dow Derakane 411
all concentrations
20 20 20 100 100 100
© Plastics Design Library
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bispheno!-A epoxy) Reichhold Allac 580
\~~;}8::fi~ll~~~~t:;~te~~~~~;.
Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992
Vinyl Ester
730
Chemical Resistance - Vinyl Ester Resin
···,,,::ii: . .·;,.·, Reagent
,
..
~.,.:
"."
.';'
'."
..
Reagent Note
,,~
.-
.....;.... ...•.:.c.•',.,:...
Benzyl Chloride
.
..... ... ~.,
Cone. Temp. POL Max. (%) I'C) ... Rating Temp.I'C)
all concentrations
2
a
not recom.; Intermittent expo or expo to lumes may be OK
2 2 2 2 2 8 2
.
.- '.~.':;:
60
..
"
27
38
.
~:.
a ~::
8
, :S···· 8
8
....
38
in scrubber; gas
8
in Scrubber, gases
8 8 8 8
'.
80
100
.
..
Kratt, thick
..
8 8
"
a a
..
Kraft, thin
. 8'
"
a
"
8 8 8
pH >7 u
pulp mill, all concentrations
.. .. ..
8 8
a
pUlp mill, thick, all cone.
.. ..
8
a '8.
"
e-
pulp mill; all concentrations recovery, furnace gases
8
a
..
8 9
204
" Dow Derakane 411
[ ' ..;."
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 . : .•.; Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
,.
: ..
:-;
,
"';.:
.
;;:
Ashland Hetron 980 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
82 82 82 88
.-
highest lemp. for whleh informat. available
aq.sol. w/l0% NaCL03 & 10% NaN03 aq.sol. w/5% ZnH03+2.5% tripolyphosphate aqueous peroxide solution calcium hypochlorite; all cone.
8
OK to max. stable tamp. lor reagent
8
"
calcium hypochlorite; sat.
8 8 8 8 8
8 8
u u
chlorine dioxide
.. u
a
chlorine dioxide. wet; sat.
2
chlorine water bleach sol.; sat. chlorine water, saturated
8 7 7 7 7 7
..
u
.
..
chlorine water; saturated
8" "
Vinyl Ester
,.
8
,
;
71 82 71 7 7 7
Reichhold Allac 580
u
special cure system generally used
.. ..
not recommended for use 43 82 82 82 82 82 40
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 470
..
93 60
,.
Ashland Hetron 980 Ashland Hetron FR992
"
93 93 93 93 82 82 82 82 82 82 82 82 82 82 82 93 104 104 104 93 163 177 163
8 8
" "
Bleach
38 38 38 80
..
"
'Helron 800 tor maximum reslstence not recommended for use
:
. 2.. {....· 8
t,:
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922
nOI recommended for use
.~:
. .
Reichhold Atlac 580 Dow Derakane 470 Dow Derakane 411
2
..
Black Liquor
not recommended lor use 27
20
60 60 60 60
Bicep Bisulfite
Material Note
20 20 20 100 100 100 100 100
Benzyltrlmethylammonlum Cl1loride
Resistance Note
special notes apply
. ."
"
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
© Plastics Design Library
731
Chemical Resistance - Vinyl Ester Resin
Bleach
82
hydrosulfite bleach
82 82 82 82 hydrosultite
Bleach
/r;,:
highest temp. tor which informat. available
-9 9·..•· 9.[
8 ...:;
sodium hypochlorite
sodium hypochlorite bleach sol'n
5.25 5.25 5.25
chlorine dioxide bleach sol'n sodium hypochlorite
15 15
sodium hypochlorite bleach sol'n calcium hybochhlorite bleach sol'n sodium hypochlorite
15 15 15 20 30
8 8
16
50
8
93
pulp mill
.Reslstance Note
.:..~
5 5 5 5.25
Textone - Olin product; aq.sol. NaCL03
Bleach Liquor
POL:: Max. Ratjng Temp; ('Cl C···· 9
···ar
82 82 82 66
8 8
66 66
8 8,.·
······8 S-
8 8 8
93 66
'.special cure &synih. surf. veil used; . nonlhlxotroplc resins preferable
Blow Down
9ltRm~~;~.I.~b!elem~.19NMQ~m
Raichhold Allac 580
spepl
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
66 66 OK to max. sla~le lemp. lor reagent
blood sugar; all conc.
8
blood proteins
8 8 8
20
Reichhoid Allac 580
B: Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
8 8-
non-condensable gases
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
8 .....8
Blood
Dow Derakane 411
7
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 411 2x veil/corros. Uner rec6m •. Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Borax
saturated
100
Boric Acid
all concentrations
saturated
40
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold AIIac 580
Borol Bowl Cleanse
48% caustic and 12% NaBH4 mild
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
Brake Fluids
HD 557
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580
© Plastics Design Library
Vinyl Ester
732
Chemical Resistance - Vinyl Ester Resin
Resistance Note ' ,
Brake Fluids
HD 557
100
8
"
100 100 100
Brine
99 not recommended 'for US8 , Helron 800 for maximum feslslance nollecommandad for use
49
all concentrations sail; saturatad
8 8,.
all concentrations
chlorinated brinas; saturated sail brinas; saturated sail brine
Bromine
Dow Derakane 411 Dow Derakane 470 Dow Derekane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 30 30 30
Dow Derakane 411 Dow Derakana 470 Dow Derakane 8084
all concentrations dry gas
38 38 38 38 38 82
fumes, gas liquid water, saturatad
Owens Corn, Vibrin E-Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakana 470 Dow Derakane 51 ON Dow Derakane 530 Oow Oerakane 8084 Relchhold Allac 580
:.~
~.,
24 24 24 38 38 38 38 38
wat gas
bromine liquid
20
;. ~> -\- not recommendad f(kusa
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
':~ot ;ecom.; Inierinllle~t ex~: or '~xP::
, "
to fumas may be OK
bromina water water
Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084
liquid
5 100 100 100 100
wet gas
100 100 100
dry gas
Brown Stock Bunker Fuel C
82 82 93 82 32 38 32
5
5 5
Dow Derakana 411 Oow Derakane 470 Dow Derakane 510N Oow Oerakane 530 Dow Derakane 8084 Dow Darakane 411
'
20 20 20
Bromine
",'
Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn, Vibrin E-OlO (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hatron FR992
j!
Brines
,
Reichhold Atlac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Hetron 922
"
Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 980
}
Reichhold Allac 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A apoxy)
pUlp mill 100
Butoxyethanol (2·) .:-.)""
:~ol recom.; Intarmillant expo or axp,
20
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Darakane 530 Dow Derakane 8084
10 tumes may ba OK
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
40
100 100
Butoxyethoxyethanol (2,2·)
20 .
Vinyl Ester
not lecom.;'lnlermlltent axp:
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
© Plastics Design Library
733 Chemical Resistance - Vinyl Ester Resin
ResistariceNote.
100
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reichhold Allac 580
not recommended lor use
Butyl Acetate 20
.• not 'ecom.; Intermillent exp, or expo . 10 lumes mel' be 0)(
20 20
.2
8..
7 20
100
.2 8
8
8·
20
8 8 2.
49
9
100 100 100
49 49 49 49 43 not recom,; Inlerm.lllent e~p. or exp':' . 10 fumes may be OK highest temp. for which informal.. available .. .
. Helron 800 for maximum·reslslance
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Helron 800 lor' maximum resistance
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8 8
'8 8 8
?
70
• '8.
Dow Derakane 470
8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Allac 580
"8'
'8 .8 100
Butyl Carbitol
'8
100
88
100 100 100
38
not recommended lor use' not
,ecomme~ded
foi use
Butyl Carbitol Diethylene Glycol
Butyl Cellosolve
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
solvent
100 100 100 100
Butyl Ether
100 100 100
Butyl Glycol Butyl Hypochlorite
100
© Plastics Design Library
Dow Derakane 470 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8
100 100 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 8084
Helron 800 for maximum resistance
..
'e·
Dow Derakane 470 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
not recommended for use
8 8
100 100 100
Butyl Benzoate Butyl Benzyl Phthalate
usil'J10)$filsslW.miltgiliiil }f): not recom.; inlermillenl expo or exp. . .to fumils may be .OK
..
2 2' ;"'. 2
(tert-), (sec-): all conc. all concentrations
Butyl Alcohol (tert-)
27
~i
20 20
Butyl Alcohol (sec-)
not recommended lor use
2
20
normal
not recommended for use 32
2 2
Butyl Acrylate
Butyl Alcohol
Dow Derakane 530 Dow Oerakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
2 .2
100 100 100 100
Dow Derakane 470 Dow Derakane 510N Dow Oerakane 411
................. :.-........... ::-:.;.::.:.:.-....... :........... ':.. -_.. :....
th!sliihePieieitediriiMriili' .
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Atlac 580
98
20
98 98 98 98
20 20 20 20
n.ot ·recom.; In(eimlnent exp; orexp .. to','umes may be OJ< ...
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Vinyl Ester
734
Chemical Resistance - Vinyl Ester Resin
5
Butylamine -;~.:
n-butylamine; aqueous
50
Butylene Glycol
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580
100 100 100 100 100
Butylene Oxide
20
Dow Derakane 411
20 20 20 20
Dow Derakana 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron FR992 Reiehhold Allae 580
100 100 100
Butyraldehyde 20
100
25 25 25 25 25 25 25
Dow Derakane 411 Dow Derakane 470 Dow Darakana 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
Butyric Acid
Cadmium Chloride
Calcium Bisulfate Calcium Bisulfide
Vinyl Ester
50 50 50 50 50 50 50 50 70 70 70 85 100 100 100 100 all concentrations
Dow Derakane 470 Owens Corn. Vibrin E-085 (epoxy novalee) Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reiehhold Atlae 580
20 20 20
Butyric Acid
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakana 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reiehhold Allae 580 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold AlIae 580
© Plastics Design Library
735
Chemical Resistance - Vinyl Ester Resin
Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashtand Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
aqueous; saturated saturated
Calcium Bromide
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580
Calcium Carbonate
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reiehhold AlIae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
saturated
Calcium Chlorate
all concentrations
.f··
saturated
Calcium Chloride
Dow Derakane 41 I Dow Derakane 470 Dow Derakane 5I ON
all concentrations
Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
saturated
with 5% acetic acid
Calcium Hydroxide
30
all concentrations iecommend d01lble synth. veil
15 15 15 15 15 15 15 15
Calcium Hydroxide
Calcium Hypochlorite
© Plastics Design Library
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
25 25 25 25 25 all concentrations
\
..
··•.
recom~~~J~~ble synth·.~ell.'
Reichhold Allac 580 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N
Vinyl Ester
736
Chemical Resistance - Vinyl Ester Resin
.;-:-:::"
Calcium Hypochlorite
all concentrations
71 71 40
7 7
e bleach, all concentralions
7 7
? 7
7 saturated
8
e 20
Calcium Nitrate
all concentrations
all concentrations
e 8 8
82 80
8 •8
93 99
8
104
8
99 99 99 99
8 8 '8 8 8 8
e saturated
Calcium Sulfite
Cal on E Cane Sugar Cane Sugar Liquors
all concentrations
93 99
8
104
8
99
8
80
sodium hexametaphosphate
all concentrations
Dow Derakane 530 Dow Derakalle 8084 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) special" notes apply Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 special cure system genela'~ ~sed Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ip!
8
82
Reichhold Atlac 580
••••.8·
82 82 82 82 82 82
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
71 82 82 82 82
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetlon FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8
all concentrations saturated
8
8
a 8 5 5 5 all concentrations
8 8
82
8 8
82 82 82 82 80
8 8
8' saturated
5
93
8
8
Vinyl Ester
'Special notes app!y
Dow Derakane 411
cane sugar liquors&sweetwater; all cone. liquor & sweetwater; all cone.
8 .8
Caprylic Acid
104 82 80
8
8 8
Capric Acid
71 82 71 71 71 71 82 71
99 99 99 99
8 8 8
saturated
Calcium Sulfate
8 8
.".:,
f-
8
71 82
"8
93
8
82 82
8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922
© Plastics Design Library
737 Chemical Resistance - Vinyl Ester Resin
Resistance Note Caprylic Acid
5
; .~.
5
Caramel Carbamide Carbolic Acid Carbon Dioxide
,highest lemp lor which mlormal. ~ , '",~vall~~le,
49 saluraled
nof rec'ommended lor'-use
10
Reiehhold Allae 580 ;.:":
gas, dry
Carbon Disulfide
8
100 100 100
8"
II 8'
93 99 121 99
2
fumes vapors
8'
e 20
iiofiiicommiiiidiidfo.r use 20 20
",2
nol recom,; Infermilleni exp, or exp, to lumes may be OK
20 20 20 20 20 20 20
gas
93 highest lemp, 'lor which informat
204 100 100 100
Carbon Tetrachloride
79
vapors
Carbonic Acid
Carbowax
© Plastics Design Library
vapor
100 100 100 100 100
reslstancii
Hetron 800';~r ma,xlmum resistance'
32
100
32
11mlIed se~ice life expeeled;' Ihis Is" prefiirred material '
Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashiand Helron 980 Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reiehhold Allae 580
saturated
vapor
~ Helton 800 tor maximu~
100
Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Reiehhold Allae 580 Dow Derakane 470 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
"../$
Carbon Tetrachloride
Reiehhold Allae 580 Dow Derakane 470 Dow Derakane 510N Dow Oerakane 411
a~ailable
99 121 99
vapor
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Reiehhold Allae 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reiehhold Allae 580
~ol riieommended for use
100 100 100 100
Carbon Monoxide
Dow Derakane 411 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
gas
wet, acidic
Ashland Helron 980 Ashland Helron FR992
100 100
Ashland Helron 922 Ashland Helron 980
Vinyl Ester
738
Chemical Resistance - Vinyl Ester Resin
....'. Ashland Hetron FR992 Reichhold Allac 580
Carbowax Pol ethylene Glycols Carboxyethyl Cellulose
Carboxymethyl Cellulose
all concentrations 10 10 10 10 10 10
~~~.
..
::";
,.
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
shampoo
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Cashew Nut Oil
Castor Oil
:8 100
e
100
Ii
66
8
38 38
epoxidized
8. 9'>
71 71 71 71 71 epoxidized
100
Dow Derakane 411 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
highest lamp, tor which informal. available ".
·9
9 ::".
8
80
8'
24 49 24 94
8 8
8
100
Cerous Nitrate Chlorination Washer Chlorine
spent, phenolic refinery
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
saturated
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
hoods & vent systems
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084
chlorine water
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashiand Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
chlorine water; all cone. chlorine water; saturated
7
dry gas
7';(" 7 ·'8'"
.J gas, wet or dry liquid
99 99 99 104 82 93 -48 -48
2x vaiVcorros. linar recom. "II
2x vaiVcorros, liner recom. gOOd tasl rasulls allar short expos.
·48
Chlorine
moist gas
with hydrochloric acid, wet
dry gas
Vinyl Ester
Dow Derakane 411 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
9 9,· .. '
100 100 100 100
Caustic
Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
all concentrations 10 10 10
Carpet Cleaners
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N
100
,.
99 99 99 104 82 99 177 82 94
2x veiVcorros. liner recom.
• 2x vaiVcorros, IInar recom.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
© Plastics Design Library
739
Chemical Resistance - Vinyl Ester Resin
.
..;?-,,",.:.'
<MjteriarNot~:
;~Z~~;~~~~(~CI Chlorine
liquid
wet gas
Chlorine Dioxide
.·.s
100 100 100 100 100 100 100 100
·48
8... """ 8'
nol recommended for use
8
8:·
<1 gil
all concentrations
60
8
60
8
82
8
60
8
30
8
82 86 71 71 82 65 65 65 65 65 82 82 82 71 82 60
Generator Effluent, R2 system
wet, saturated
wet; saturated
8 8
"'S""" .8"
8 8
·s, 8·'
in air
8, '8
5 5 5
8 2
15 15
Chlorine Gas
dry
use Hel,on 980/35' al hlghel le~p,
spe~lat
noles apply
7 7 7 65 65 65 65 65 49 49 49
82
Chloroacetic Acid
10
Dow Derakane 411
10 10 10
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 not recommended fo, use
concentrated
nOI retom.; Inlelmillent exp, or expo:' 10 tumes may, b.e OK-
20 20 20 20 20 20 20 20 20 20 25 25
© Plastics Design Library
Owens Corn, Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
salurated
Chloro-o-Tolyl
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn, Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Hetron FR992
82
121
coolers & strippers
Chlorine Water
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn, Vibrin E·Ol0 (bisphenot·A epoxy)
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
•nol recommended lor use
.2 8 . ·8
100 100 100
82 82 82
.. 8 8
bleach, wet, saturated
Chlorine Dioxide
good Ie51 resulls afte~ short expos,
-48 -48
·~·2·
/){
2 '2
'u .~.::
2
,
2
:2 ;"',:
2" 2 "'2 2 8
S
66 66
..
Ashland Helron 922 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980
Vinyl Ester
740
Chemical Resistance - Vinyl Ester Resin
25 25 25 25 25 25 50 50 50 50 50 50 50 50
Chloroacetlc Acid
80 80
monochloroacetic acid
Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Atlac 580 20
Dow Derakane 411
80 80 80 80 80 80 100
20 20 20 20 71 71
100 100
63 63
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Ashland Helron 922 Ashland Hetron FR992
20
Dow Derakane 470 Dow Derakane 510N Dow Derakane 411
Chlorobenzene
60
Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Ashland Hetron 980
20
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411
20 20 100 100 100 100 100
27
not retommended ;oiuse Hetron 800 lor maximum resislance not recommended for use
Chloroform not recom.; inlermitl~nf expo or ~lip. 10 fumes may be OK
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Helron FR992 Reichhold Allac 580
20 20 20 20 liquid; trichloromethane
vapor
100 100 100 100 100 100
Chloroproplonlc Acid (2-)
100
Chloropyrldlne Chlorosulfonlc Acid
100
Chlorotoluene
Vinyl Ester
not recommended.lor use
Owens Corn. Vibrin E-085 (epoxy novaIec) Reichhold Allac 580 ij" "
w
10
20
10 10 10 10 100 100 100 100
20 20 20 20
2
.:'.
,. Owens Corn. Vibrin E-Ol0
:....
..:
not recom.; intermittent expo Or expo ,; to lumes mey be O K '
(bisphenol-A epoxy) Dow Derakane 411
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
© Plastics Design Library
741
Chemical Resistance - Vinyl Ester Resin
Max.
TeJnp.(!cj
not recom,; Intermiltenle~p:or exp;< , 10 rume~may be OK not recommended for use'
100
Choline Chloride Chromic Acid
Resistance Note
95
75
':.-
with 15% nitric acid
Chromic Acid
3
wi 20% sulfuric acid
Chromic Acid
30 30 30 30 30
all concentrations
Chromium Sulfate
saturated all concentrations saturated
© Plastics Design Library
2 8 ,8 8'
'8 8 ,,8 '
8 8 8 'B '8 ' 8, B B 'B
8 B'
. iB
10 15-20 15-20 15-20 20 20 20 20 20 20 20 20 20 20 20
30 30 30 30 40
Chromous Sulfate
,2
3 3 5 5 5 5 5 5 5 5 5 10 10 10 10 10 10 10 10 10
intermittent
Chromic Sulfate
2, 2,> 2,
2,5
8":':,,, " 2
2 2
38 49 38 65 65 65 65 65 43 27 3B
27 65 65 65 65 65 60 43 not recommended for ,us'e
,',c'
,2, 2,"
2 .8 2
Jl, , ,B,
8 8
Ii '
27 not recommende'd for us'e 49 65 65 65 49
2, 2'
'2
",
2 20 20 20 20 20
:1 :1
not recom,; Iniermillenl e~p, or exp, 10 fumes may be OK "
2 2,
2 ",C',,2
8'
30
Relchhold Allac 580
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
2, with 13,7% sulfuric acid wi 16% sulfuric acid
Dow Derakane 8084
Owens Corn, Vibrin E'085 (epo~y novalee)
,
2
saturated
Material Note;"
:<:"
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-010 (bisphenol,A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E,010 (bisphenol,A epoxy) Reichhold Allac 580 Owens Corn, Vibrin E,010 (bisphenol,A epoxy) Ashland Hetron 922
Vinyl Ester
742
Chemical Resistance - Vinyl Ester Resin .'C.:}:.
.,.
,,'
~;~g;:~t
,
;:,"
C
)
"
".::~.;
Chromous Sulfate
Cinnamaldehyde
8ea9!'~t Note -.....:,:-;
"
"
;
Cone, Temp. ('C)
(%)
saturaled
" " 100
POL
~atlng
Max. Temp. ('C)
a 8 a
66 66 60
••
.:..:;.:;
ReslstlineeNote
all concenlralions
8 8 8 8 8 8
99 99 99 99 65 80
8 a 8 8 2 2 2·
93 99 104 99
iron and steel; 9% HCL, 23% H2SO4
8
82
Dow Derakane 411
" " " "
a 8 a 8
82 82 82 82
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
all concenlralions
"
a a
.."
8
a2 82 82 80
"
8
82
"
'8
e
82 82 82 49 80
8
66
a a 8
66 60 60 60 80
" " "
" " " saturated
.." 129 129 129
.." " Cleaning Bath
Cobalt Chloride
Cobalt Citrate
e
12 12 12 12
Cobalt Naphthenate Coba It Nitrate
8
e 8
-
all concenlrations
" saturated
"
e
" 15
Cobalt Octoate Coconut 011
CcC
,
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
.,
.'
" Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 , Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
" Ihis is Ihe preferred malerial
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411
..
"
"
15 15
49 49
9 9
..
.
Dow Derakane 470 Dow Derakane 8084
all concentrations
a
66
Reichhold Atlac 580
"
e
."
a a
82 82 82 a2 82 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
all concentrations
e a
e a 8 a
93 66 82 66
a
94
e
;
"
'. .,
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411
8
38
all concentrations
a
80
salurated
" "
..
a a a a
71 82 71 a2
all concenlrations
a
93
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
8 a
99 99
Dow Derakane 411 Dow Derakane 470
.. "
Vinyl Ester
.
bighest temp. lor which informat. available
100 100 100
Copper Chloride
..
9
.. ..
Copper Ammonium Chloride
nlii recommended for use
49
.
Copper Acetate
8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhoid AIIac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
15
..
Cod Liver 011
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
,
:
Citric Aeid
N~t~ ;it
Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580
30
8
.Material
"
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580
© Plastics Design Library
743 Chemical Resistance - Vinyl Ester Resin .,.
,·····w·
W."·
•
'W,'"
... ';:~~~ ;~' . :,....
~'."
,.,~
',.
,.
R$agent
'ReagenfNoW .
Copper Chloride
~':
(.-<-
···'Conc< Temp:' POL
Temp~('c)
all concentrations
8
"
8
99 104 82 94
(%)'··('C)
8
"
8
"
8
"
Copper Cyanide
saturated
8
" "
8' 8
all concentrations
8 8 8
" " " " "
Copper Nitrate
8 8
saturated
8 8
"
8
"
8
all concentrations
8 8 8 8
" "
"
8 8
" "
8 8 8
" saturated
" " Copper Sulfate
all concentrations
.' 8 8
8 8
"
8
"
saturated
8
" "
a
w/28% sullurlc acid
" "
12 12 12
8
,8 8
Corn Oil
8 -8
8 8
8 8
8
100 100 100 100
8
8 8 8 8
slurry
" " "
8
" "
...
all concentrations
" " " "
8
8 8 100
8
Cottonseed Oil
8 ", ..,
© Plastics Design Library
,
8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5t ON Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
99 99 99 99 82 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (blsphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
,
.'
..,.
this is the preferred material
" "
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Darakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Relchhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
82 82 82 82 65 71 66 93 66 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
99 104 99 99 99 65 99
Ashland Hetron 922 Ashland Hetron 980 :::: Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold AIIac 580
93
8 8 ,8" .
" Corn Sugar
'.'
8 8· 8 8
"
99 99 99 99 82 93 99 104 99
93 99 104 99 49 49 49
8
Material Note
93 99 104 99
99 99 99 99 82 94
8 .8
"
Resistance Note
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol,A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
93 99 104 99
8
" " "
Corn Starch
Max.
Rating
..·.•·'1
...
:~
."
99 104 99 110 93 99
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Reichhold Atlac 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
99 99
Dow Derakane 411 Dow Derakane 470
Vinyl Ester
744
Chemical Resistance - Vinyl Ester Resin
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100 100 100 100
Cresyllc Acid
Crude Oils
all concentrations sodium hydroxide
12 12 12 100 100 100
24 24 24
sour crude
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
storage tank bottoms
sweet
Crude Oils
sour
sour and sweet crude sour or sweet sweet
Cyanides Cyclohexane
100 100 100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100 100 100 100 100 100 100
Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (blsphenol·A epoxy)
cyanide disposal; all cone.
Reiehhold Allae 580
vapor
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411
49 49 49 49 100 100 100 100 100
Cyclohexanone
100
Cyclohexyl Alcohol
100
Cyclohexylamlne Cygon 400
100
100
Decalln
tetrahydronaphlhalene
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allae 580 Owens Corn. Vibrin E·010 (blspheno'·A epoxy) Reiehhold Allae 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100 100
Ashland Hetron 922 Ashland Helron FR992
100
Owens Corn. Vibrln E·010 (bisphenol·A epoxy)
Decyl Alcohol 100
Vinyl Ester
Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992
Dow Derakane 411 Dow Derakane 470 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
© Plastics Design Library
745 Chemical Resistance - Vinyl Ester Resin
Material-Note Owens Corn. Vibrin E-085 (epoxy novalec) Reichhold Allac 580
100
Desmut Detergents
10
Dow Derakane 411
dishwashing liquid, bideg.
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
liquid, biodegradable
organic
organic pH 12
Detergents
organic pH, all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Renex; all concentrations sulfonated
sullonated; all concentrations Cascade; solution
Detergents
liquid; biodegradeable
organic organic, pH 12 sulfated sulfonated
DFR 121
Diallyl Phthalate
5 5 5
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold AlIac 580 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
100 100 100 100 100 100 100
Arapahoe Chemicals
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
all concentrations
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (blsphenol-A epoxy) Reichhold Allac 580 Owens Corn. Vibrln E-085 (epoxy novalee)
71
Dlammonium Phosphate
65 65 65 65 65 65 65 65
use
Dibromophenol
20
© Plastics Design Library
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 470 Dow Derakane 51 ON Reichhold Allac 580 Dow Derakane 411
Vinyl Ester
746
Chemical Resistance - Vinyl Ester Resin
20
Dlbromopropanol Dlbromopropanol (2,3-)
Dow Derakane 8084
all concentrations
Reichhold Allac 580 100 100 100
49 49 49
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Dlbutyl Ether 100 100 100 100
.
":,.
"
100
Dibutyl Phthalate
Dlbutyl Sebacate
Dlbutylamlne Dlchloro-4-Anlllne (2,6-)
not recommended .for use ..:
all concentrations
100 100 100 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
100 100 100
Dow Derakana 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrln E·Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
all concentralions
di-n·bulylamine
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
100
in 32% HCI
Ashland Helron 922 Ashland Helron FR992
77 77
Dlchloroacetlc Acid 100 100 100
129 129 129
:;.:"~;
Dichlorobenzene 20
2
Owens Corn. Vibrin E·085 (epoxy novalee) Ashlend Helron 922 •Ashland Hetron 980 Ashland Hetron FR992
8 '8 2,.,
Dow Derakane 470 Dow Derekane 51 ON Dow Derakane 411
}t'
,,'
noUecom.; Inlermlnenl expo or axp. t6 fumes may be OK
.J
20 20 100 100 100 100
Dichlorobenzene too)
38 .-::.'
100 100 100 27 20
(._~-
Dow Derakane 470 Dow Derakane 411 .?
100 100 100
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron FR992 Reichhold AlIac 580
100 100
Ashland Helron 922 Ashland Helron FR992
It',
",
Dow Derakane 411
20 20 20 20
Vinyl Ester
Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
uSe 470·36 \f servo marginal . nof ;ecom.; Iniermilienf e~p;ilre~p. 10 fumes may be' OK:,'{< "",
20 20 20
Dlchloroethylene
nOI recommended for use " tietron lioo for 'maxlmum reslst~nce :. nol recommended fir usa
not recommended for 'u~e
Dlchloroethane
Dichloroethane (1,2-)
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold Allac 580
:: 2 .,;'·2 :~
,.,.'2
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
© Plastics Design Library
747 Chemical Resistance - Vinyl Ester Resin
'Max., Temll'('C)
not recom,; intermiltent ex~. or exp, 10 fumes may be OK •• nol recommended lor. use
100 100 100 100
Dlchloromethane
melhylene chloride
"':/
20
noi recom,; 'n.leimjJtent exp,.pr exp, . ' .10' lumes may"be OK
20 20 20 20
dichloropropane
Dlchlorophenol Dichlorophenoxyacetic Acid (2,4)
not recommended lor use·.
2
2 38 38 38
2 2
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992
2 2
Ashland Helron 922 Ashland Helron FR992
2
100 100 acid, sails, eSlers and lormulalions
Dlchloropropane
7 7 7 .7
49 49 49 49
8
38 27
20
.• 8 2
20 20
2:
.....
not recommended lor use
;u
2 7 2
~ :v,
27
2
2 2
100 100 100 100
2
100 100 100 100
2 2
not recommended lor use
2 2 2
8.. 8
'8 '8 2'
20
8
all concentrations
·i..····8·8 8
il ,9 100 100 100 100
8 8 ..;
8 "8
.. ,
Dlethanolamlne 49 49 49
.8···· .. 9 9 9 8
.
Dow Derakane 470 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Relchhold Aliac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Aliac 580
2 ..2
Dlchlorotoluene
© Plastics Design Library
"uslI'41~::l6i(seiv:maiiiliiaj
not recom,: lnlermllienl exp, or expo 10 lumes may be OK
~.
20 20 20
30
Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Aliac 580
II
2 2
20
Diesel Fuels
Dow Derakane 470 Dow Derakane 8084 Dow Derakane 411
not recom,; Inlermilienl exp,. or exp, 10 fumes may be•.OK
.•...,.:·2.
Dlchloropropene
Dlchloroproplonlc Acid
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
dissolul. solvent must be OK
2
100 100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Aliac 580
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Aliac 580
2
2 2 ,2
Dow Derakane 8084
Dow Derakane 411
2
100 100 100 100
Dichloropene
Resistance Note
27 27 27 27 nol' reCOm,; inlermillenl expo or expo ...........•.......lo.l~mesrnaybeOK
Reichhold Aliac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn, Vlbrin E·Ol0 (bisphenol-A epoxy)
82 82 82 82 82 65 79 93 79 94 49 highest lemp. lor which inlormal. .. available
27
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Ashland Helron 922
Vinyl Ester
748
Chemical Resistance - Vinyl Ester Resin ;,\i
.•. •. );
Lii ( " , t f){· ""'ii!')
'"
I·····
..,:.':,
"N
Reagent Note ." .,
'.'
·;v.
Diethanolamine
;-.:-.
.i
.
"
Cone, Temp. , POL Max. ('C) (%) Rating ,Temp. ('C) 30 30 100 100 100 100
8 8 8
'8
8
43
8 8
38 38 38 38 40
8 8 8
100 lOa lOa
Diethyl Carbonate 20 20 20
2 27 49 27
8
38 27
8 2
lOa lOa lOa 100 100 lOa 100
2 .2 2 2
24 24 24
Diethyl Glycol
8
Dlethyl Ketone
waler
" Diethyl Phthalate
97 97 laO
Dlethyl Sulfate
" " " " "
27 not recom.; Iniernillleni expo or expo 10 fumes may be OK
20 20 20
2 2 2 2 2 2
"
2 2 2 8 8
8
Diethylanlline Diethylene Glycol
Vinyl Ester
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 470 Dow Derakane 510N Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Dow Derakane 470 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580
"
"
nol recommended lor use
" " " " ..'"
Ashland Hetron 922 Ashland Hetron FR992
60
Owens Corn. Vibrin E·Ol0 (bisphenol,A epoxy)
38 38 38 38
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
not lecommended lor use
2 lOa lOa lOa
2 8 2
lOa 100 lOa lOa
2 2 2 2
lOa
8
lOa lOa 100 lOa
' 8
8 8 8
99 99 99 99
lOa
8
93
38
" not recommended lor use
Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Reichhold AIIac 580
" "
" 30
'"
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
2
lOa 100
.'
Reichhold AIIac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
"
8
8 8'
Diethylamine
Helron 800 lor maximum reslslance
20
lOa 100 100 100
Diethyl Maleate
use E,085 vinyl ester resin
not recommended lor use
8
8
.
" "
•
Material Note
Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold AIIac 580
not recom.; intermillenl expo or expo to lumes may be OK
82 82 82 82 82
8 8
,.
nol recom.; Iniermilleni expo or expo to lumes may be OK
8 8 8
2 2 2 2 2
. ~..
27 50
8
20
Resistance Note
49 27 27 49
8
100
ethyl ether
:..
','
Dlethyl Benzene
Diethyl Ether
:~.::
~
"
..
.' '.
Owens Corn. Vibrln E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E'010 (bisphenol,A epoxy) Reichhoid Allac 580
© Plastics Design Library
749
Chemical Resistance - Vinyl Ester Resin "':
Reagent I······
:.,.
po'i.· I·':". Max.
...... ..
Diethylene Glycol Butyl Ether
diethylene glycol n·butyl ether
100 100 100 100
DETA
Dlethylformamlde
Diethylhexyl Phosphoric Acid
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·085 (epoxy novalee)
'., .:'8
100
,····"8
27
Reiehhold Allae 580
100
30
100
27
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580
>"S"f
100 100 100 100 100 100
in kerosene
in kerosine
Dlethylmaleate Diglycol Amine
saturated with C02 and H2S
'.
2 8
20 20 20 20 20 20 20 20
8 8.
8 8 8 8
8
!l
100
2
100 100 100 100
132·.2' 132 2 132 2 132 2
8 8 _,2
20 20 20
nOI recom.;· inlermillent expo or expo '. \0 lumes may be OK
" n~t
60
8 8
38 38 38 38 27 32 38 32 30
-B
100
recommended for use
;,.
~ 8
"
8
8 8 8
8
no.1 reeor,nmended Jor use
2
100
8 i':.
:-.: / ..8"':'
8 8 100 100 100 100
".
49 65 49 49 38 27 49 27 30
8',
38
8
30
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Reiehhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580
82
Diisobutylene
© Plastics Design Library
20 20
8
8
100 100 100 100
Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
8
8. 8
Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reiehhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
•
not re.commended for use
65 65 65 65 38 66 38
.8
100
82 82 82 82 66 49 66 49
2 ..
8 :':
100
not recommended for use
2
100
Diisopropanolamine
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
2 }'
Dilsobutyl Phthalate
100 100 100 100
not ;ecommendedlo(use 30
2 2 2 2-
24 24 24
Dllsobutyl Ketone
Diisopropyl Amine
Material NOte
32 32 32 30
8 ,'8
".
Diethylene Glycol Butyl Ether Butyl Carbltol Diethylene Glycol Dimethyl Ether Diethylene Glycol Ethyl Ether Carbitol Diethylenetriamine
Resistance Note'
Rating Teinp. ('e)
".
'.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5\ ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·OIO (bisphenoi·A epoxy) Reiehhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580 Owens Corn. Vibrin E·Ol0 (bispheno!·A epoxy)
Vinyl Ester
750
Chemical Resistance - Vinyl Ester Resin
Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Dimethyl Morpholine 20 20 20 100 100 100
49 49
Dimethyl Phthalate
Dow Derakane 470 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Ashland Helron 980 Ashland Helron 922 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580
100 100 100 100 100
Dimethyl Sulfate
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Dimethyl Sulfide
20
Dow Derakane 470 Dow Derakane 51 ON Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Dow Derakane 411
20 20
Dow Derakane 530 Dow Derakane 8084
Dimethyl Sulfoxide Dimethyl Thiazolidine (2,2-)
100
Reiehhold Allae 580
1 1
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Dimethylaniline
100
Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Owens Corn. Vibrin E·085 (epoxy novalee)
100
Dimethylformamide 20 20 20 20 20 100
Dinonyl Phthalate
100
Dioctyl Phthalate
100 100 100 100 100
Dioxane
Diphenyl Ether
Vinyl Ester
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Delakane 530 Dow Derakane 8084 Reiehhold AlIae 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hellon 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Relehhold Allae 580
100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-085 (epoxy novalee) Reiehhold Allae 580
100 100
Ashland Helron 922 Ashland Helron 980
100 100 100 100
© Plastics Design Library
751
Chemical Resistance - Vinyl Ester Resin
Ashland Hetron FR992 Reichhold Allac 580
Diphenyl Oxide
diphenyl ether, phenyl ether 20
Dow Derakane 411 Dow Darakane 530 Dow Darakane 8084
27
Dow Derakane 470
27
Dow Darakane 510N Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100
Di iperazine Sulfate Dipotassium Phosphate
solution; all concentrations
Dipropylamine
di-n-propylamine
Dipropylene Glycol
all concentrations
Reichhold Allac 580 50 50 50
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084
100
Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
100 100 100 100
Dipropylene Glycol Dibenzoate Dishwashing Detergents
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100
Owens Corn. Vibrln E·Ol 0 (blsphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Cascade, in solution Cascade, solulion
Distilled Water
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100
Divinylbenzene
20 38 38 100 100 100 100
DMA 4
weed killer 2,4-0 (Dimethylamine)
DMA 6
weed killer
Dodecane
;[~:g~~S\,.:8~~~~~b~c~·lnformal' :;:;;~~{rec~;"me~d~d lor ~se .~'-:: '. ,~':: :<;f::::;~:::/<
Dow Derakane 8084 Dow Derakane 470 Oow Darakane 51 ON Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Oarakane 51 ON Dow Darakane 530
100 100 100
Dodecene
100
© Plastics Design Library
1f!l1£i~:i~::
Dow Derakane 411 Oow Derakane 530 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
49
Dow Derakane 411
49 49 49
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
Vinyl Ester
752
Chemical Resistance - Vinyl Ester Resin
100 100 100 100 100
Dodecylbenzenesulfonlc Acid
8 8 8
. 8.. 8
all concentrations 8 8 8 ~ ..
ri8 8 w/10% sulfuric acid, 4% water, 1% oil
8
85
8'
85 85 85 85 100
Dowanol DB
8
8 8 8
butyl carbitol
8
27
8 ·8 ,,: 8
butyl carbitol glycol ether
20
2
20
;<~,
100
Dowanol EB
ethylene glycol n-butyl ether
100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
use 470:.3611 se;v.marginal..
it-·· Owens Corn. Vibrin E-010 (bisphenol·A epoxy)
8
38 38 38 38
Dow Derekane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
8' 2 8
DowanolPM
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bispheno/-A epoxy)
-.:'
30
'8
glycol ether
not recom.: inl8i~lfienl ex~ o'r expo to fumes may be 0 ,. .
30
Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
21 not recom.: Intermlnenl ex,{ or e'xp. 10 fumes may be O K '
20
Dowfax 2A1
solution surfactant
surfactant
40 40 40 40
49 49 49 49
45 45 45 45
49 49 49 49
Dowicide
antimicrobial
49 49 49 49
Dowtherm
heal Iransfer agent
49 49 49 49 94
100
Dual8E ECR 34
Vinyl Ester
100
Dow Derakene 470 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
20 20 20
Dowfax 2AO
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411
8
8. 20
•....
65 65 65 65 80
7 7
e
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetren FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
99 104 99 93 49 49 49 49 65
27 27 27 27 27 27 27
8
glycol ether
65 66 82 66 60
Dow Derakane 411 Dow Derakene 470 Dow Derekane 510N Dow Derakane 530
"::'.<
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 ,~
:~:.
:;"
.....
~.
\.,
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derekane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakene 530 Owens Corn. Vibrln E·010 (bisphenol·A epoxy) Ashland Hetron 980 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
© Plastics Design Library
753
Chemical Resistance - Vinyl Ester Resin
Resistance Note ; .;"
Electrosol
detergent
38 38 38 100 100 100
8
5
8 '8
8 8 8 8 8
5
5 5
8 8 8 8 8
Elvase Embalming Fluid Eplchlorohydrin
100
8 8
Epoxy Erlonal NW Etch
Epoxy 828
66 66 66 93
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
38 38 38 43
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
,
Reichhold Allac 580
27
not recom,; intermittent exp, or exp, to f~nies,may be OK
20 20 20
2 2
"
8 8 8
Endura-Etch solution
'8
20
Etchant Ethanolamine
fresh; 50% ammonium hydroxide
monoethanolamine
8,
Ether
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
32 32 32 32
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
not recom.; inlermlttenlexp, or exp, to fumes may be OK ' 49 49 49
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
,
43
Reichhold Allac 580 Ashland Hetron 922
not recommended lor use
Ashland Hetron 980
32 32
Ashland Hetron FR992
not recommended lor use .
24 24 24
8
50
8
50
.~.
Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec) , .~ot recommended for use
2 2
"
2 7
16
43 32 32 32
2'
Ethyl Acetate
wi 83% methylene chloride. 1%
not recommended lor use
'2
100 100 100 100
-8 8 2
8 8 8 8 2 2 8
100 100 100 100 100 100 100 100
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Allac 580
2
8 8
100 100 100
Dow Derakane 470 Owens Corn, Vibrin E-Ol0 (bisphenoi-A epoxy) Dow Derakane 411
not recommended for use"""",
2
100
~ '
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
20
2 2 2 2
.. ..
32 32 32 27 38 27
2
100 100 100 100
"'~
21
usa 470-36 il servo marginel
2
not re~o.mmended for use
20
2
:not reCOm.; intermittent exp, or expo " to ~umes may be OK
20 20 20
2
2
2 2
• not recommended foi use
,:,
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 470 Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922
caustic
© Plastics Design Library
16 16 100 100 100 100
'2 2
100
2
2 2' 2 8
30 not recommended lor use
Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn, Vibrin E-085 (epoxy novalec) Reichhold Allac 580
Vinyl Ester
754
Chemical Resistance - Vinyl Ester Resin :', ;"'\">.,
." ..
R8a'g~rlt{ .', ,. :~::.:::
...
:~
.-
::A':;:
..
"?:.:.
, ..
. '>
~'-::: '.;.
F,:
.::~
" ."
I"" .> .},
"
R8agen,t~ote ' ....,.,..
.~:'
Conc; Temp. ..'
Ethyl Acrylate
2'
20 20 20
2
Ethyl Alcohol 20 20 20 20 10 10 10 10 10 10 15
ethanol
Ethyl Alcohol
"
" "
27
2 2 2 8 8
"
:
use 470·36 if serv.merginal. nol recom,; inlermiltenl exp, or expo to'(umes may be OK'
Dow Derakane 470 Dow Derakane 411
"
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Hetron 922
"
49 65 49 49 49 60 66
" "
lower surf. hard, can occur, drying can reslore hard, .
66 66
Ashland Helron 980 Ashland Hetron FR992
8
lower surl. hard. can occur, drying can reslore hard.
50 50 50 50 50 50 50 50
66 38 38 65 38 38 49
.."
20
8 8 8 8 8 8 8 2
27 38 27 27
20
8 8 8 8 2
67 67 67 67 67 100 100 100 100
" "
no'l recom.; iniermilleni expo or expo .t~f~~es~~tbe()K .
38
8
20 20
8
43
8 8 8 8 8
27 49 38 27 40
8 8 2
38 27
20 20 20 20
.2 2
2
,
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
,
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 use E·085 'vinyl ester resin (bisphenol·A epoxy) Dow Derakane 470 Dow Derakane 510N Dow Derakane 411 :not ,ecom,; inlermiltenl exp, or expo : . to lumes may be OK Dow Derakane 530 Dow Derakane 8084 " Ashland Hetron 922 " . nOl. recommended loru.s~·:: Ashland Hetron 980 .:·HelrOn 800 lor maximu\ll rnlslance' Ashland Hetron FR992 nill recommended for use Reichhold Allac 580 >
..
2 2 2
8 2 2 2
Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580 Dow Derakane 8084
lowe' surf, hard. can occur, drying can restore hard.; Hetron 800 for max, resist • not recommended lor use
.2
20
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922
not recom.; lnterlllilleni expo or expo 10 lumes may be OK not recommended lor use
2
Ethyl Benzene
..
"
50
95100 100
"
Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
not recommended lor use
7 2
Material Note Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411
" "
2 2 2 2 2 2
38
95100 95100
.
noi recommended for use
50
20
95 95 95 95 95
with 1/3 benzene
,.
Resistance Note
8 8 8
15
Vinyl Ester
",.. "
recom,; inlermiltenl exii, o'r expo 10 lumes mey be OK
8 8 8 8 8
15
Ethyl Bromide
Max.
2 20
100 100 100 100
Ethyl Alcohol
POL
.~.!'.')A ;l'~):> Rating Temp.I'C)
38
"
"
nol recom.; Inlermlltenl expo or exp, .. to fumes may be OK '.
Dow Derakane 411
.." , ..
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
.,- ~.
",
.. ,,:
© Plastics Design Library
755 Chemical Resistance - Vinyl Ester Resin ......
Reagent
':'.,,,,:
'.:.
•... " . <
':,.'C:'>",.
'Cone; '("),'
Ethyl Bromide
Te,nip:
"POL Max. {·C)2RlitlngTemp. ('C) ·,·2 ,
20 10 10 10 100
.
2·
Resistance Note
Material Note
,not r8com.; inl9rmittenl expo or exp, : to lumes may be OK ' nOl recommended lor use
Dow Derakane 8084
2 2 2
Ethyl Chloride
8 8 2 20
2
20 20
2
20 20 nOI recommended lor use ,nol recom.; Intermittenl expo or expo . 10 lumes may be OK
2
nol recommended lor use
2 2 '2':
Ethyl Chlorohydrln
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
2
Ethyl Ether
2 2
20
Ethyl Hexyl Alcohol
not recont; intermiltenl exp, or exp. 10 lumes may be OK " " " .. not recommended for use .. ..
2
20 20 20 20
2 2
2 2 2
lOa lOa lOa
2
lOa
8
Ethyl Parathion
2
Ethyl Sulfate
2 8 8
,
Dow Derakane 41 I Dow Derakane 470
38 38 38 38 38
:1 100 lOa lOa
Ethylamlne Ethylanlline Ethylene Chloride
aqueous
elhylene dichloride
., ~:
8 8
/.
60
8> 8
lOa
8
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
30 30
100 100 lOa lOa
Ashiand Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
not recommended I.or use
8 8 8 8' 20
Ethylene Dibromide
38 38 38 38 not recom,; inlermittent exp, or expo 10 lumes may be OK not recommended for use
2
lOa 100 laO lOa
38 not recommended lor use 43
lOa 100
:,:: 20 20 20 100 all concenlrations
27 21
:not';e~om.:
Inlerm1ltenl.exp.or 10 fumes ma.y be 'OK
,t 2
2 2 8 8
.
99 99
nOI recommended for use .
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Helron FR992
nOI recommended lor use
Ethylene Dichloride
© Plastics Design Library
27 38 27
lOa
Ethylene Chloroformate Ethylene Chlorohydrin
Ethylene Glycol
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E,010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992
nOI recommended lor use
.:'";
Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron FR992 Reichhold Allac 580
Ashland Helron 922 Ashland Helron FR992
nol recommended lor use
:
e.,
~.
Dow Derakane 411
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
40
e ..
Dow Derakane 470 Dow Derakane 510N Owens Corn. Vibrin E·OtO (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
2
lOa lOa lOa 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
exp~'
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980
Vinyl Ester
756
Chemical Resistance - Vinyl Ester Resin
Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
AMBITROL, Dow
100
Ethylene Glycol Butyl Ether
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
20
Ashland Helron 922 Ashland Halron 980 Ashland Helron FR992 Reichhold Allac 580
100 100 100 100
Ethylene Oxide Ethylenediamine
100 aqueous
Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Allac 580
100
Ethylenedlamlnetetraacetlc Acid
Versene 100
38 38 38 EDTA
100 100 100 100 100
Eth~heXYI
Orthophosphorlc Acid j-2-' Ethylhexyl Phosphate (01-2-' Eucalyptus Oil
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakana 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980
I
lillll~!!t~
.
Owens Corn. Vibrin E·010 Ashland Helron FR992 (bisphenol-A epoxy) Ashland Helron 922 Ashland Halron 980 Ashland Helron FR992 Reichhold Allac 580
20 100
100 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Reichhold A11ac 580
EVA
Ashland Helron 922 Ashland Hetron 980 Ashland Halron FR992
Exalt
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Fatty Acid Esters
100 100 100 100 100
Fatty Acids
2·5% sulfuric
all concenlralions
fally acid eslers
Vinyl Ester
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Halron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470
© Plastics Design Library
757 Chemical Resistance - Vinyl Ester Resin
Rea!1e~t
saturated
100
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
Ferric Acetate
all concentrations saturated
Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-010 Ibisphenol-A epoxy)
Ferric Chloride
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411
FeCl3: HCl; 29:18.5
FeCl3:ferrous chloride:HCl (48:0_2:0.2)
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Ferric Chloride
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
salurated
wi 5% ferric & 20% ferrous chlorides
100
Ferric Nitrate
all concentrations saturated
100
Ferric Sulfate
all concentrations
saturated
100
Ferrous Chloride
all concentrations
saturated
© Plastics Design Library
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980
Vinyl Ester
758
Chemical Resistance - Vinyl Ester Resin
Resistance Note Ferrous Chloride
saturated
Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bispheno!·A epoxy)
lOa
Ferrous Nitrate
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
saturated
lOa
Ferrous Sulfate
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
saturated
lOa
Fertilizers
8·8·8 composition
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580
8·8·8,10.4 uran 26 potash 3 borax, pH8.2 solution; 8·8·8
Owens Corn. Vibrin E·OtO (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
ureaammonium w/35.4% urea, 20.3% water ureaammonium, 43.3% ammonium nitrate URAN;44.3%NA4N03,35.4%CH4N2 O,20.3%H20
Fish Oils
Reichhold Atlac 580
and meal exhaust gas
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Flocculant
Separan CP7
Dow Derakane 41' Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Flue Gases
incinerator gases
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Dow Derakane 470
boiler
171 171 171 171 <204 <204 204
coal tired recovery boiler upsets
Fluoboric Acid
all concentrations
norrecommended fQr use
hIghest temp. for which Informat, ,. available '.' . tecommiind double synlh. veil 'n
surfacing mai ;ec.;inmended synlh. surf, veil generelly used
saturated
10
Vinyl Ester
Dow Derakane 41' Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922
© Plastics Design Library
759 Chemical Resistance - Vinyl Ester Resin
POL
Resistance Note
Material Note
104 99 82 71 60 40
synlh, surf. veil generally used
Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
60 49 49 49 49 49 49
carbon fiber veU recommended recommend double synlh. veil
27 27 27 27 27
recommend double synth. veil
30
carbon IIber veil recommended
82 82 82 65 82 38 38 38 66 66 66 82 82 82 82 65 66
recommend double synth. yell
~aUng
Fluoboric Acid
Fluoride Salt
10 10 10 15 25 100
8 8
7 7 7 8
& HCI
7
fluoride salts & HCL, 30:10
7
7 7 7 7 7
Fluorine
gas
7 7
7 7 7 7
Fluoslllcic Acid
fumes
7 7 '7 7 7 8 8 8 8 8 .. 8 7 7· 7
saturated
10 10 10 10 10 10 10 10 10
Fluoslllcic Acid
7
25 25 25 25 25 25 25 25 25
Fluoslllcic Acid
Fluosulfonic Acid
7 ..·7 8 8 8:j,
7 7
7 7 7 8
35 35 35 35 35 35 35 35
Formaldehyde
© Plastics Design Library
all concentrations
49 49 49 38 38 38 38 38 30
'surfacing mat recommended
" surfacing mat recommended surf. yeil generally used
~ynlh.
" recommend double synlh. yell
surfacing milt recommended synlh ..surl, veil generally used
"
recommend double synth. veil
.
,.
synlh. surl:vell generally used
synlh. su;CveligeneiiiiiYusiid
8
66 93 66
8 8 8 8 8 ·7
65 65 65 65 65 82
8
43
fumes. wet
slurry
..
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
38 38 38 38 38 38 38 38
8 8 8 7 7· 7 7
8
Fly Ash
.:~
sulfacing mat recommended
65
·9
65 65 65
9
"
r.ecommend double synth. veU
.surfacl~(mat reco",,,,.e.~.~~~ .. highest lemp. for which informal, ,ayallable'
".".
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakene 470 Dow Derakane 51 ON Dow Derakane 530
Vinyl Ester
760
Chemical Resistance - Vinyl Ester Resin .•..•.••.. '
\';:,./.i
I·.·;Y~·MF . ,
ii; •.
::'.;
.. . I'.
.i.
h..
.
'
.::
....
... .....
,'.
'.' "Reagent Note
.~
Cone;· remp. (%)'
," :~
....
".
Formaldehyde
25 25 25 25-37 25-37 25-37 37
('C)
POL Max. Rating Temp. ('C) 8 8
a a
66 66 66 66 66 66 32
37-44 37-44 37-44 44
8 8 8 8
32 32 32 49
50-52 50-52 50-52 100
8 8 8 8
66 66 66 60
100 100 100 100
8 8 8
a
38 38 38 40
8
30
8 8 8 8 8
a a
82 82 82 82 82 82 82 65 66 49 49 49
8
80
50 50 50 50
8
a
49 49 49 60
50 85
8 8
43 30
90 98
a
49 38
a a 8
"
Resista.nee Note
MateriaI NQtll,,., ." .. Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetlon FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E'010 (bispheno\·A epoxy)
_.
lhis is the prele;red material
..
.
.
Formamide
Formic Acid
concentrated 10 10 10 10 10 10 10 10 10 25 25 25 30
Formic Acid
Fosterge
8
a 8 8
8 8
8
a
Foslerge products
.
Freon
li
100
Freon 11 100 100 100
Freon 113
8
38 38
8
30
a
43 24 24 24
8 8 8 8 8
a a
Fuel Oils
Vinyl Ester
e
8unker C
.. ..
8 8 8
"..
a
8unker C no. I and no. 2
8 8 8 8 8 8 8
100 100
,
38 38 38 38 99 99 99 99 65 82 82 82 82 65 93 77
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
,
Owens Corn. Vibrin E-085 (apoxy novalec) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakana 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
"
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A apoxy) Reichhold Allac 580 Owens Corn. Vibrin E-Ol0 (blsphenol-A epoxy) Ashland Hetron 980 Dow Derakane 470
...
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Helfon 800 10f m~~I~uni
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
f~s';tance
.
.u
.:~
~.'
«.
-.
Dow Derakane 411 Dow Derakane 470
'..
.
,
.'
.,
,.
:,'
Dow Derakane 411 Dow Darakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922
© Plastics Design Library
761 Chemical Resistance - Vinyl Ester Resin ...
.<""" ..':, '," ....,(.
)'"
<",.,
'-.-"':
Reagent
Mat ','
Temp. ('C)
Fuel Oils
100 100 100
8
100
20
2
20 20 20 20
2 2 2 2 8' 8 8 8 8 8 8 8 2
..
100
Furfural Alcohol 20
saluraled
10-100% alcohol up to 10% alcohol
8
30
2 7 2·
27
~"
y.
Dow Derakane 470 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Dow Derakane 8084
nOt'!ecorr( Inlermillenl expo or lixp. .. 10 fumes may be OK •.
2 .. 2 2,.·.· 2 ,2, 2'
·····8
with methanol
8 8
Dow Derakane 411
38 80
38 38 49 38
wilh benzene
,
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
8 8 ,8
8 8 2
not recommended lor use 82 82 82 82
65 49 49 49 49 not r.ecommended for use 30 43 40
'."'.
Dow Derakane 470 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
not recom,; lnlermiltenl expo or expo 10 fumes may be OK
8 8 8 8 8' .8 .....8
Owens Corn. Vibrin E-085 (epoxy novalee) Reichhold Allac 580
27 27 27
38
,
unleaded, no methanol
© Plastics Design Library
•••
27
8 2
>~
100
100
••
2
leaded
wi 20% melhanol
notJecommended for use use 470-36 if servo marginal nol recommended lor use not recom.; infermiltent expo or exp, 10 Jumes may be OK .
'8 .,
20
Ashland Helron 922 Ashland Hetron 980
8
Gasoline
not recommended tor use
8 8
20
up 10 10% alcohol
49 71 38 49 38 43
Ashland Helron FR992
a-
20 20 20 20 20
49
66
2 ..
Galecron 4EC, inseclicide
10-100% alcohol
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
2
8
Gasohol
not recom.; Inlermiltenl.exp. or exp, 10 Ium,es may be OK
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411
2
·2 2 8
.
Gallic Acid
pOI recommended for use
2
20 20 20
Material Nole,. <. Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reichhold AIIac 580
93
8 2
5 5 5 5 10 10 10 20 50100 50100 50100 100
Furfural
77 77 94
8 8
Furfural
Galecron
Resistance Note
Dow Derakane 470 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Atlac 580 Owens Corn. Vibrin E-085 (epoxy novalec)
Vinyl Ester
762
Chemical Resistance - Vinyl Ester Resin
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Owens Corn. Vibrin E·085 (epoxy novalec)
100
Glass Cleaners
ammonia fortified
Gluconic Acid
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
50 50 50
Glucose
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold AIIac 580
100 100 100 100 100
Glutaraldehyde
Glutaric Acid
pentanedioix acid
50
49
Dow Derakane 411
50 50 50 50
49 49 49 49
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
50 50 50 50 50 50 50 50 50 50
Glycerin
100 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold AIIac 580
Glycerin Trlacetate
100
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Glycerine
100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992
35 35 35 35 70 70 70 70 70 70 70
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Re:chhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
50 50
Dow Derakane 411 Dow Derakane 470
Glycolic Acid
hydroxyacetic acid
hydroxyacelic
Glycols
Glyconlc Acid
Vinyl Ester
all concenlrations
© Plastics Design Library
763
Chemical Resistance - Vinyl Ester Resin
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Glyme
Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
Glyoxal
Glyoxylic Acid
wi saturated 502
40 40 40 40 40 40 40 40 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold AlIac 580 Owens Corn. Vibrin E-Ol0 (blsphenol-A epoxy)
25 25 25 25
Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
Golden-Glo Goodrite K702 Goodrite K732 Grass Killer Gravy
Green Liquor
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dalapon grass killer
Dow Derakane 470
brown stock
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AlIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
pulp mill
Gypsum Halso 99 Heptane
100 100 n-Hepfane
heptane-n
100
normal
100 100 100 100 100 100 100
vapor and condensate
Heptane (n-) Herbicides
Hexachlorocyclopentadiene
Ashland Hetron 922 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atiac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
crude
high purity
© Plastics Design Library
Relchhold Atlac 580
gypsum slurry & H3P04, fluorine water
100 100 100 100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980
Vinyl Ester
764
Chemical Resistance - Vinyl Ester Resin
100 100
82 43
Hexachloroethane
7'
Hexamethallnetetramine Hexamethylenetetramine
20
2
20 20 20
2 2 ·8
43
Aeiehhold Allae 580
40 40 40 40
8
38 38 38 38 71 71 71 71 71 71 71 60
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
8 8 8 8
II 100 100 100 100
Hexylene Glycol Hex.ylene Glycol Ammonium Chloride
8
8 8 •8
100
8
43
100
8
94
100
8
8
Hot Stack Gas 204
Hydraulic Fluids
49 49
8
177
8
8 8
82 82 82 82 66 82 66 94
8
66
8' 8
100 100 100 100 100
Hydrazlne
Hydrobromic Acid
aqueous
2
20 20 20 20
2 ·2 2·~>):.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FA992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Aeiehhold Allae 580
'2
not recommended
2·
25
8:
30
40 40 40 40 40 40
8 8'" 8 8 8
65 65 65 65 65 65
10
8
70
8
99 104
2, 2· 2
8.
8 8
8 8
8 8
8 8 '8
Dow Derakane 51 ON Dow Derakane 470
Dow Derakane 411
70 70 70 100
18 18 18 18 18 18 18 18 18 25
Vinyl Ester
20
Ashland Helron 980 Ashland Helron FA992 highest lemp.10r which Infor.mat. available •.
9
8 8
Hydriodlc Acid
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Helron 922
8
8
Hydrazlne Hydrate
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Hetton 980 Ashland Helron FA992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Aeiehhold Allae 580
8
Skydrol500
Dow Derakane 470 Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
',·2
8 8
2,4·methyl·2·penlanediol
, . use 470·36 it seiv. marginal. notreeom.; Intermittent exp.or exp.; •. 10' fumes' may be OK • .
65
Hexane
Hexanedlol
49
99 82 82 82 82 82 93 93
for'u~;
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FA992 Aeiehhold Allae 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
,
.~
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Aeiehhold Allae 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Helron 922 Ashland Helron 980 Ashland Helron FA992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Aeiehhold Allae 580 Ashland Helron 922
© Plastics Design Library
765
Chemical Resistance - Vinyl Ester Resin
Hydrobromic Acid
25 25 25 25 25 25 25
93 93 82 82 82 82 82
Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Hydrobromic Acid
47
40 71 71 71 65 65 65 65 65 71 38 38 38 38 38
Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
93 93 93
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
82 82 82 82 82 65 99
Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470 Dow Derakane 411
6
48 48 48 48 48 48 48 48 48 62 62 62 62 62
Hydrochloric Hydrochloric Acid
w/l.l% amine
8 .8 8 8 .••. 8 _. 8 8 '8' 8 8 8·
8 8
1.1 1.1 1.1
8 8.
% organics
&free chlorine, all conc.
& organics
fumes
99 99 99 82 177 49 49 49
lumes & free chlorine
wi small amount acetone
20
Hydrochloric Acid
wilh 8% nitric acid
wi 20% phenol. 70% water
2 1·5 1·5 1·5 10 10 10 10 10 10 10 10 10 10 10
© Plastics Design Library
inhibitor
15 15 15 15 15 15 15
liner recoin:····
2x vell/corros. liner recom. ' :-:....
8
:",'
8 8 2
60 99 104 99
synlh; sUlf.veil ge';~~al!y used
not recommended lor use
""
2 8 8
8 7 'i~
99 104 99 82 82 82 99 82 60
synlh. surf. yell' generaily used
.:':'.
"double c:vell recoJ111llendad
"
.~.
93 30 8 8 "·8 :.:'>: 8:'" 8.":
8' .:"7
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 8084
2' 8.. '
10 <15
Hydrochloric Acid
2X ~eiVcorros.
do~ble c·~ell r~comni~nded
not recom.; Interminent expo or expo 10 fumes may b~!:OK;'
20
&organics
double c·veil rec.ommended·.·.
66 66 66 99 104 99 82
synlh. surf. veil generallY-used "
double c.ve]1 recommendeer
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·085 (epoxy novalec) Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
Vinyl Ester
766
Chemical Resistance - Vinyl Ester Resin ,'., ..
,.
:~'"
"'"
..
,
.:~:~:
Reagent· ..':.'>"
,,.
..
Reagent Note ,.
..;'.~
...
.:;'. :.. t/:~·:·
.. , ..
Hydrochloric Acid
Hydrochloric Acid
acid cleaner
" " " "
wi <5% chlorinaled hydrocarbons
"
Hydrochloric Acid
Hydrocyanic Acid
wi 2% sulfuric acid. 5% acelic acid
~onc.
Temp,
1%)
I'C)
15 15 15 15 18 20 20 20 20 20 20 20 20 20
7 8 8 8 8 7 7 7 7 7 8
7 7 7
25
7
50
8
66
31 31 31 31 31 32 32 32 32
8 8 8 8 8 8 8 8 2
82 82 82 82 82 66 66 66
32 36 36 36 36·37 36·37 36·37
27 27
100
8 8 8 8 8 8 8 8 8 8
99 99 99 99 82 93 66 66 66 30
" saluraled
" "
" "
Hydrofluoric Acid
Vinyl Ester
1 5 5 5 10 10 10 10 10 10 10 10 10 15 15 15 20 20 20
49 49 49
7 2 2 2 8 8 8 7 7 7
8 8 8 7 7 7
"
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-085 (epoxy novalee) Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580
" "
double c-veil recommended
"
" " "
use an ISOINPG polyester resin
synlh. surf. veil generally used
" " 00
54 65 82 82 82 65 43
"
double c-veil recommended
nol recommended for use
7 7 7 7 7 8
•.
Material Note
synlh. surt. veil generally used
66 66 66 38 38 38
8
Resistance Note
" " "
~
37 37 37 37 37 37 37
" "
wi 50% nilric acid
,
2 8 8 8 8 8 .. 8
"
Hydrofluoric Acid
82 82 99 82 93 93 104 93 82 82 82 99 82 80
25
all concenlralions
hydrogen cyanide
POL Max. Rating Temp. ('C)
synlh. surf. veil generally used 00
" " " "
, double c·vell recommended
" 00
"
"
synlh. surf. veil generally used
" "
51.8
surfacing mal recommended nOI recommended for use
66 66 66 65 65 65 65 65 30
synlh. surf. veil generally used
38 38 38 38 38 38
" "
. "
recommend double synlh. veil
" "
" "
carbon tiber veil Is recommended ":'::::::':syillil','stirl, vell·genehilt{useif·""""
"
"
recommend double synlh, veil I
" "
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashiand Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N
© Plastics Design Library
767
Chemical Resistance - Vinyl Ester Resin '.
"
.
.;::. .'~'.'.'
Reagent
, ,-J!
>,:;
,
.:: ,t><, '
,0:;;"
fe,
",,;'.,:."
:"
.....
~:
"
'~"'"
.,
R8agen~ Note
Hydrofluoric Acid
POL
Cone. Temp. (%)
.' .. .......• :.~.
C'C}
20 20 20
w/12% nitric acid
.
..
Hydrofluoslllcic Acid
20 22 22 24 24 24 40 40 40
27 27 27
Hydrogen Chloride
dry gas
.
..
. .
.. ..
. .
gas, weI
. © Plastics Design Library
100 100 100 100 100 100 100
82 82 82 82 82
recommend doubla synlh. vail
66
surfacing mat recommended recommand double synth. veil
Ashland Helron 922 Ashland Halron 980 Ashland Helron FR992 Dow Derekane 411 Dow Derekane 470 Dow Derekane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Dow Derakane 411 Dow Derekane 470 Dow Derekane 510N Dow Derekane 530 Dow Derekane 8084
..
.
. . . .
..
. . . synlh. surf. vail generally used
38 38 38 38 38 38 38 38 43
...... ~urlaclng m~1 racommandad
99
'.'
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Raichhold AIIae 580
..
. . . .. .
recommend double synlh. veil
Ashland Halron 922 Ashland Halron 980 Ashland Halron FR992
99
.:.
,
8 8 8 8 8
8 8 8
8 8
weI gas
synlh. surf. veil generally used
104
8
.. ..
gas gas, dry
~
8
>
66 66 66
38 38 38 38 38
8
..
surlacing mal recommendad limiled service lila expacled
f.
6 6
..
..
.
.
8 7 7 7 7 7 7
. . .
Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
. . .. .
8 8
8 8 8 6 8 8 10 47 100 100 100 100 100 100
............•. recommend double synlh. veil
nol recommended lor use
7 7 7 7 7 7 7 7 7 7 7
..
.
38
8 8
wet gas
wal
7
Material Note'
not recommended lor use
8
100 100 100
. . dry . ..
38 38
2 2
35
Hydrogen Bromide
7 7 2
Resistance Note
2 2 2 2
35 35 35 35 35 35 35 35
Hydrogen
Temp.c~c)
6 6
10 10 10 10 10 10 10 10 10 25 25 25 25 25
Hydrofluoslllcic Acid
Max.
Rating
8 8 6 8 8 8 8 8 8 8 8
6 ,. 8
82 82 82 82 82 55
usa E-085 vinyl asler resin
"
70 40 82 82 82 82 82 82
99 99 99 99
.
82
82 82
99 104
99 99 99
.. ..
Ashland Helron 922 Ashland Halron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
99 99 99 99
104
Dow Darakana 411 Dow Derekana 470 Dow Derakane 510N Dow Derakana 530 Dow Derakane 8084 Owans Corn. Vibrln E-Ol0 (bisphenol-A apoxy)
. ..
;-
Dow Derekane 411 Dow Derakana 470 Dow Derakane 51 ON Dow Derekana 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derekane 51 ON Dow Derekane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Vinyl Ester
'68
Chemical Resistance - Vinyl Ester Resin ··.·.·-w.··
,:'
"
';:' /t \
~,J;
~eagent
."., :::"'"
" "
;-:-.
Reagent Note
Cone. Temp. POL Max. (%) I'C) Rating Temp.I'C)
Resistance Note
Malerial Note
recommend double synlh, veil
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
"
Hydrogen Fluoride
vapor
7 7 7 7 7 7 8 8 8 7 8 8
10 12 12 12 lOa 100 lOa lOa
8
82 82 82 82 82 93 82 93 82 65 32 32 32
5
8
66
"
" " " gas weI
" " gas wet
" "
Hydrogen Peroxide
Hydrogen Sulfide
5 5 5 30
8 8 8 8
66 66 66 38
30 30 30 30 30 30 30 30 35
8 8
8 8 8 8 8
38 38 65 65 65 65 65 38 41
35 35
8
all concentrations
8
"
gas
5 5 5 5 5 5
8 8 8 8 8 8 8 8 8 8 8
gas
laO laO
8
8 8
8
glycolic acid
" "
glycolic acid
Hypochlorous Acid
8
aq. sol. w/5% ZnHS03+2.5% tripolyphosphale
Hydroxyacetic Acid
Hydroxybenzenesulfonlc Acid
41 30
" " surfacing met recommended synlh. surf. veil generally used
" "
tiyde perox:siiWlieismusfajlpTove
Ashland Helron 922
"
Ashland Hetron 980 Ashland Helron FR992 Reichhold AIIac 580 Ashland Helron 922
35 35 35 70 70 70 70 70 70 70
8 8 8 8 8 8 8
8 8 38
" ..
hyd, perox, suppliers must approve materials
" "
hyd, perox. suppliers muSI approve malerials
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Darakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
93 60 OK to max. slable temp. for reagllnt 82 93 82 38 38 38 38 38 38
.
highest temp. for which informat. available
9
Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Helron FR992 Owens C3rn. Vibrin E·Ol0 (bisphenol·A epoxy)
"
99 104 99 82 82 82 93 82 82 82 82 60
8
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 470
saturaled
8
30
Owens Corn. Vibrin E·Ol0 (bispheno/-A epoxy)
concentraled
8 8
49 49
8 8
49 60
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922
" " salurated
10 10 10 20
Vinyl Ester
" surfacing mel recommended synth. surf. veil generally used
meterials
"
Hydrosulflle
" " "
,
8 8
8 8 .. 8
,,'OK '10 max, stable temp. for reagenl 66 66 66 49
© Plastics Design Library
769
Chemical Resistance - Vinyl Ester Resin
<"< ··'·'T·'" '. ,.'
i'
R~li~~ntNoj~i . : Cone. .,.."".,.?{~)
.".,<:,:""
Jemp~.
Hypochlorous Acid
20 20
8
Hypophosphoric Acid
50 50 50
8
Hypophosphorous Acid
8 8 8
50 50 50 50 50 50 50 50 50
8 8 8
8 8' 8',,-. 8
8 8
50
Incinerator Gases Insecticides
49 49 49 49 65 65 65 65 65 65 82 65 65 65 82 30
8 8 8 8 7 ... " 8
Ion Exchange Resin
losprep 44
Dowex 50WX4
100llgal
IrgasolOA
100 100 100
Isoamyl Alcohol
,
8 8 8. 8
32 32 32
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8
49 49 49 49 40
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold AlIac 580
7
49
8
38 49 38 51.8 49 49 49 49
8
8 , 8
2
100
8
100 100 100
8 8
.. ".
.. surfacing ·it)atrecommended.
,ot recom.; Intarmlliant exp. ofaxp. to fumes may be OK . :::,
.&
'\,
Dow Derakane 411 Dow Derakane 470
99
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8 .. 8
all concentrations
.surfacing mat recommended
82 82 82
8
Isodecyl Alcohol
'.
8 8
.~:
Isocure 306
,
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Dow Derakane 510N Dow Derakane 530
'8
20
.
99
8
100
Dow Derakane 4 t 1 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
8 ii
8
all concentrations
surfacing mat regommended .
99 99
8
Isobutyl Alcohol
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allae 580
8 8 8'
,a 100
"
.....
32 32 32 49 49 49 49 49 60
8
8 8 8 ··8
100 100
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
49
8
vapor
38 38 38
93
8
...,i' Ashland Hetron 980 Ashland Hetron FR992
7 "
8 crystals
Material Note <
49 49
8
8 8
Iodine
Reslstanc'e Note
POL Max. Rating Temp.i·c)
. I'C)
II ,,8: ' 8
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
60
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
32 32 32
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
82 82 82
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
"
© Plastics Design Library
Vinyl Ester
Vinyl Ester
© Plastics Design Library
771
Chemical Resistance - Vinyl Ester Resin
Isopropyl Myrlstate
·,8 8
all concenlralions
8,"" " 8""
.(fa Isopropyl Palmitate
all concenlralions
..~ 8 8 8 8 8 8 8
100 100 100 100
Itaconic Acid
8
8
all concentrations
.,8 10 10 10 25 25 25 25 25 25 25 25 40
'8
jet aircraft fuel
51.8 49
99 49 49
8
99
8 8 ,,8
8
8
60
8
30
8 "c.. '8.
82 82 82 82
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
65 43
Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Owens Corn. Vibrin E-085 (epoxy novalee)
8
8
100
8 8 8 8
60
100
8
60
Reichhold Aliac 580
100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Oerakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec)
100 100 100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
all concenlrations
10 /:.;.
80
Lasso
© Plastics Design Library
herbicide
·r-
100
Kerosine
Lactic Acid
Reichhoid Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
49 49 49 49 49 38
8
J%ba Oil JP4
Reichhold Allac 580 Oow Oerakane 411 Dow Oerakane 470 Dow Derakane 510N Dow Derakane 530 Dow Oerakane 8084 Ashiand Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
99 99
8
JP 4
Reichhold Atiac 580 Dow Derakane 411 Dow Derakane 470 Dow Oerakane 510N Dow Derakane 8084
104
8 ", 8
80
Jet Aircraft Fuels
93 99 99 99 65 93 99 99 99 99 65 99
8
30
8'·
49
Dow Derakane 470
Vinyl Ester
772
Chemical Resistance - Vinyl Ester Resin
\:;,,'ji; . , ; ' i , . Ii!;;'... •. . ·i. ..•. .•.. . . . .~. . . , i . . . . ;'}~)j,; . . . •. {{ . . · it, .. d . \ ) , Te~p:
. . . we",>'
,.
.,..,
.;;)/.i?i/?
./\// ' r:.\'J.'X;'/(,C). .......
Lasso EC
Latex
.
. ....
100 100 100 100 100
··1····· P·DL. . Mail. Rating Temp,I'C) 8 8
all concentrations latex paint emulsion; all cone. latex rubber emulsion; all cone. rubber; aq. dispersions; all cone.
8 8 8 8
65 65 65 30
styrene butadiene latex
8
54 38 49 49 49 49 49 30
,.8 8 8 8 8 8 8
Wisk; all concentrations
8 '8
all concentrations saturated
" " Lauroyl Alcohol
.• 100
Lauroyi Chloride
dodecanol
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
71
100
e
99 99 99 99 65 99 99 99 99 65 60
100
8
60
100
8 8 8 8
65 65 65 60
8 8 8 8 8 8
il 8
crude acidic
Lauryl Mercaptan
all concentrations
"
"
., . '
! ....
all concentrations
" "
" "
"
Vinyl Ester
8 8 8 8 8 8
99 104 99 99 99 99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (blsphenol·A epoxy) Reichhold Atlac 580
'.'
',:
.,
.. ..: ....
'.~'
r,
·,·x-'
,
.
/
>:
.
:~
.
..
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 .' Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
"
..
Dow Derakane 470 Dow Derakane 5I ON Reichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
••••
'"
Lead Acetate
Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
..
,:.,-
65 65 65 65 49 65 65 65 65 38 49 49 49 60
8 8
>-
"
;
38 38 38 38 60
il
"
,.
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
100
"
Owens Corn. Vibrin E·Ol0 (blsphenol·A epoxy) Dow Derakane 411 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
60
100 100 100 100
" "
"
"
•••
8 8 8 8 8 8 8 8
'.'
Reichhold Atlac 580 ..,:::
93 99 104 99
·8
lauryl chloride. crude, acidic
"
..
8 8 8 .8. 8
" "
,:;::
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
.~
8 8
" "
Lauryl Chloride
8 ·8
....
93
8 8 8 100
Lauryl Alcohol
8 8
Mater/alNote ".
not'recommend'ed lor use
2
100
Resistance Note
27 38 27
8 2
60 60
"
Laundry Detergents Lauric Acid
,
,
'. ,.
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON
© Plastics Design Library
773
Chemical Resistance - Vinyl Ester Resin
Resistance Note ........-.-....................,.... '. ~
100
Dow Derakane 530 Reichhold Allac 580 Owens Corn. Vibrin E-01 0 (bisphenol-A epoxy)
Lead Chloride
ell concentrations saturated
93 99 104 99
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Lead Nitrate
all concentrations saturated
93 99 104 99 94
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
100
Levullnlc Acid
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol-A epoxy)
all concentrations
saturated
100
Lime
slurry; saturated
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Linseed 011
all concentrations
Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100 100 100 100
lithium Bromide
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol·A epoxy)
all concentrations
saturated
lithium Carbonate recommend double synth·. veil
Lithium Chloride
all concentrations saturated
28-40 28-40 28-40
© Plastics Design Library
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold AlIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
Vinyl Ester
774
Chemical Resistance - Vinyl Ester Resin
Id}).j,I;;I.;I~",,~,.i~',j'~ ... . ,',~,.,'~'~':.'~::,,;,!'.~i~·5' ~:;~ . '·"~.· ·.'·~;·"';· ~"",.;1r ., ... ;it
" . . :>',;"
_".'
..!'J%) ..:, ('C)
Lithium Chloride
Lithium Hydroxide
Ii"
,
)3';;, @i Con:~. T~mp. ~.oL.
" ." , . , 0 . " .
,
0-45 0-45 0-45 45-55
8 8 ·8
45-55 45-55
8
104 99
saturated
8
66
" " "
8 8· 7 7
66 66 82 82
"
7
"
7 7 8
82 82 82
8 8·
II
II
5 20
Lithium Hypochlorite
8 7 7 7 7 7
all concentrations
bleach, all concentrations
8 8
8 8. 8.
'8
18
Lithium Sulfate
8
all concentrations
Magnesium Bicarbonate
all concentrations
82 82 82 82 82 82 82 82 82 60
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Aeichhold Atlac 580 Owens Corn. Vibrin E·Ol0 ., (bisphenoi·A epoxy)
82 82 82 82 82 82 82 82
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Aeichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
.8
8.
e 8
); ~ 8 8
8 8
a 8
il 8
Magnesium Chloride
all concentrations
8 8
8 8.
8 8
8 8 saturated
8 8
8 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 5I ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992
}.
8 8
15 100
special notes apply
Aeichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
8
saturated
60 65 82 65 65 65 65 82 65 65 65 40
77 82 82 82 60
8
all concentrations
40
99
·8, .,
Magnesium Carbonate
recommend double sypth. veil
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Dow Derakane 41 I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
8
8
100
.'
8
8
Magnesium Bisulfite
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992
99 104
8 .,',.
99 104 99 99
Material Note
8
8
saturated
100
Resistance Note
. Mal(. Rallng Temp.,l'c)
·8..
80 30 99 99 99 99 82 93 99 104 99 94
•••
••
Dow Derakane 4I I Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Aeichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FA992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
•
Vinyl Ester
© Plastics Design Library
775
Chemical Resistance - Vinyl Ester Resin ,
" ..
.,,,,,,,)'::',
",', Re~gent Nolet " Magnesium Fluosilicate
.... ..'?/ }.'
. • ' ~COtlc:t~'mp;
i'"
, POL
Max; ".'
Resistance Note
"·,i\.«~):. ,(·C),. Ra:tl~~g Temp.(Oc) .
all concentrations
82
recommend double synth. veil
99 82 82 100
Magnesium Hydroxide
all concentrations saturated
60 8
93 99
8
104
8
99 99 99 99 99
•. , 8; 8 8' .8 8 100
Magnesium Nitrate
all concentrations
60
8
99 99 99 99
100
Magnesium Oxide Magnesium Phosphate
8 8
82 71 71 71
8
94
8
60 49 49
8 8
aqueous; saturated all concentrations
/"-
8'
8
Magnesium Silica Fluoride Magnesium Sulfate
100
'8
50
37.5
7'
60 99 99 99 99
all concentrations
8 ,. 8
.•
8 8 8 saturated
100
Magnifloc 500
all concentrations
Maleic Acid saturated
8 8 8 8
93 82 82 82
Manganese Chloride
manganous chloride, all cone.
99
8 8
99 65 99
5
8
104
5
8
99
100
8
80
~'
99 99
8" 8' 8
© Plastics Design Library
99 99
.8 8
5
..,
99
99
Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
99 94
8 8 8 8 8 8 8"
8
surfacing mat recomme~de.d
104
60 60 60 60 65 65 65 65 65
8
Dow Derakane 411 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
93 99
8 8
Magnifloc 837A
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
82
8 8 8 8 8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
82
8. 8 8 8
saturated
.' ...
Material Note.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
.... . ~
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
Vinyl Ester
776
Chemical Resistance - Vinyl Ester Resin ::'~"
..". ..... .,
•.
. ;::'C,: ,'_'"
1~'~ri~l~f~#~:'~"lri~,:\Ma~~" manganous chloride, all manganous
Manganese Sulfate
all concentrations manganous sullate. all cone.
8
8<::
saturated
82 99 104 99
8'
8 with 10% sulfuric acid manganous
90 100
aqueous
100
8'
30 38 27
.8
8 20
2
20 20
::.2
nol recom•.; Inlermlltent exp, or exp. to Jumes may be 01<
8.
30
Owens Corn. Vibrin E·085 (epoxy novalee)
.8
99 104 99 93 99 99 99 99 82 60
Ashland Helron 922 Ashland Helron 980 Ashiand Hetron FR992 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
."
saturated
8 8 ·..···8 <.'
. 8 ...• ' 8 .",,:8
8 8 100
8
;
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
8
99 99 99 99 65 93 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
.8
30
100
·8 8
..•...8 ...
:<;""8 ';.
i:,:: ,.. 100
38 38 38
Methoxyethyl Acetate Methyl Acrylate Methyl Alcohol
2'/ .:;
2. :'. '8 .
methanol ~~
20 20 20 100 100
Vinyl Ester
2 2
8 i
2
.,."
..... use E·085 vinyl esl.i resin limited service life expecled
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
nOI recomf(lended for use
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
". 38 30
20
methanol
.
99 99 99 99 82 99 104 99 93 60
saturated
Mercury
Dow Derakane 470 Dow Derakane 5 t ON Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084
2
100
100 100 100
Ashland Hetron 980 Ashland Helron FR992 Reichhold Atlac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
93 60
8
all concentrations
Metex S483 Methanamide
Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922
99
'8
Mercurous Chloride
Materi~I . . N.~tt?
Resistance Note,
93 99 99 99
8
. 8 8
Mercuric Chloride
.
Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
'8
Mercaptopropionic Acid (2-)
..'
cone.
Manganese Chloride
Melamine Resins Mercaptoacetic Acid
..
27
Dow Derakane 470 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 •not racom.: Intermillenl exp. or exp.. to fumes may be OJ( Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 not,recorllmanded for use use E·085 vinyl ester resin'.
© Plastics Design Library
777 Chemical Resistance - Vinyl Ester Resin
Methyl Alcohol
8
100
38
can restore.'hard,; Halron' 800 'for ' max. resist. not rec.ommeil'ded 'or use
100
Methyl Bromide
gas
10 10 10 10 10 10
,loWer silrf; hard.·can occur, drying
27 27 27 27
"
not recommended for lise ncit recom;;lnlermilt~nt~exp. or,exp.. ./ / iJ~'~'!lerrn.~y,b~,()~, ....••... ,....
20
Ashland Halron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 8084
;:u$e,,~1(F3$'ifW'l~~@~~r;;:;
Methyl Ethyl Ketone
Dow Derakane 470 not .recommended 'forus'iV':':"/::"" Owens Corn. Vibrin E-Ol0 .. {..::,:~.: . (bisphenol-A epoxy) ·noneiom.; jnlermhteJiex~:ore~ii) Dow Derakane 411 . 10 'umes may be OK .. Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 not recommended lor use Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 ~.
20 20 20 20 100 100 100 100
Methyl Isobutyl Ketone
Methyl Methacrylate
100 100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
100 100 100
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
all concentrations MMA
....
24 24 24
Methyl Parathion
Ashland Helron 922 Ashland Helron FR992
Methyl Styrene
100 100 100 100
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580
Methyl Tertiary Butyl Ether Methylanlllne
100 100
Ashland Helron 980 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Methyldlethanolamine Methylene Chloride
100
30 ·····nofiecommeildedI6ruse no(recom.; inlermillenl exp, or·exp. . .... 10 fumes maY be OK' .
20 20 20 20 20
wI 5% chloroacetic acid
Methylhydrazlne
~
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
t::'
90 90 100 100 100 100
monomelhylhydrazine -:~;.~
20
,,' "
20 20 20 20
.:.:.;~~-
100
Methylstyrene (a
o
;~,.n
27 27 27 27 40
)
20 100
© Plastics Design Library
Dow Derakane 411
not}~com'!lendad.19!use' '.
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-Ol0 .. use E·08.5,vinyl ester resin (bisphenol·A epoxy) Dow Derakane 8084 not expo or. axp; ; <....• ( 10 'umes'may be OK.·' . Reichhoid AIIac 580 . not rec.omrjlandij~loruse
;ecorri.~;I~t~;I1li1i8ni
Vinyl Ester
778
Chemical Resistance - Vinyl Ester Resin
..
..
'Resistance Note· Milk
8 8 8·.,.· 8 8 8
wagon cleaner; acid
wasle
8 and milk products
6
100 100 100
8 ,8
Mineral Oils
8 8 8
8 8 8 6
100 100 100 100
8
8
100
Molasses
6 8 6
and invert molasses 100
Molybdenum Disulfide
manufacluring
Molybdic Acid Morphollne
25 20 20 20 20 100 100 100
49 49
Mustard Myristic Acid
all concenlrations
8
66 27
2
Dow Derakane 411 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 8084 Reichhold Allac 580 use 470-36 il servo marginal not recom.; Inle-rmlltenl exp, or expo lolumes may be OK
2 2 2 2·
nol recommended for use
2 2
8 6 6 8 8 8
93 99 104 99 93 99 99 99 99 65 99
8
6
100 100 lOa 100
8 6 6
43 49 49 82 82 82 82 82 82 93 82 80
100
8
66
7 7 8··
8 :6. 6 8.
Dow Derakane 470 Dow Derakane 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
99 99 99 99 65 99 104 99 93
8 8
6
Vinyl Ester
93
7
8
heavy aromatic HAN, heavy aromatic naphlha
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Allac 580
93 65
6
Naphtha
99 99 99 99 65 93 99 93 94
6 8
8 6 6 . ,6 8.
100
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
8
8
laO 100 100 100
27 27 27 82 82 82 99 32 32 32
43 49 94
8 6 6
Motor Oils
.~
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
:.:~
use 470·36 il servo marginal
Reichhold Allac 580 Dow Derakane 470 Dow Derakane 510N Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reichhold Allac 580
© Plastics Design Library
779 Chemical Resistance - Vinyl Ester Resin
Resistance Note Naphthalene
99 99 99 99 82 82 93 82 80
8 ,8. 8,)
":: 8i'·
.a
i8 100 100 100 100
Neutralizer
' :8. 8 8
& Desmut
8 8 8. "'8 8
Nickel Chloride
all concentrations
8' 8
i8 '.,' 8 8 8
If
saturated
8 ·8 8
100
Nickel Nitrate
all concentrations
8 8 8 8 8
saturated
"'S
.8
8.· '8 8
100
Nickel Sulfate
all concentrations
.8 8 8 8 8 8 8
saturated
6
r
100
Nicotinic Acid Nitrating Acid
Hetron 800 for mulmum reslslance
65 65 65 65 65
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
99 99 99 99 82 93 99 104 99 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
99 99 99 99 82 93 99 104 99 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N ' Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrln E·010 (bisphenol·A epoxy)
99 99 99 99 82 93 99 104 99 80
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold AIIac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrln E·Ol0 (blsphenol·A epoxy) Reichhold Atlac 580
Niacin; all concentrations
Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
spent .. ~...
strong
Nitric Acid
fumes
~
,.
:,;
nitric hydrofluoric acid, 8/5
2 2 2 2 5 5 5 5 5
© Plastics Design Library
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
82 82 82 82 82 82 38 60 38 99 104 99 93 71 71 71 65 65
recQmmend double "Ynth. veil
".
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470
Vinyl Ester
780
Chemical Resistance - Vinyl Ester Resin '.,
Cone. Temp. (%)
Nitric Acid
wilh 2% hydrochloric acid wilh 5% hydrofluoric acid w/l0% hydrochiDric acid
with 3% chromic acid
Nitric Acid
8
vapor
red luming
8
49
8 8 8 8
8
60
8
49
38
66
8
38 49 49 49 49 49 38 54
8 8
38 40
8
38 49 38
8
40 40 40
20 20 20
8 8 2
2 8 2
nol racom.; Inlermillent expo or expo 10 fumes may be 01<
49 49
2 not recommended lor use
2 8
30
8
43
:2
nOI recommended lor u,se
-2 8.
71
8 8
82 71
2 24 24 24
not recommended lor use
20
2
20 20
2
38 27 nol recommended for use nOI recom.; inlermillenl expo or expo 10 lumas may be OK
2 not recommanded lor use
2 2 2
2,
100
2
100 100 100
8 8
8
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Oerakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Oerakane 470 Dow Derakane 411
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-085 (epoxy novalec) Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992
2 2 2
8
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580
Dow Oerakane 510N Dow Derakane 530 Dow Derakane 8084
2 2
8 2
Vinyl Ester
27
2 2
Nitrobenzene
Nitrogen Tetroxide Nonyl Phenol
nOI recommended lor use
2
60 60 60 65
100 100 100 100
not recommended lor use
8 8 8
8
synlh. surf.•eil generally used
66
8
8
Material Note Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
79
93 93 93 49
8
20
100 100 100
60
8
50 50 50 50
wi 5% hydrofluoric acid
8 8 8
8
Resistance Note
65 65 65
2
35 35 35 40 40 40 40 40
50 50 50
POL Max. Rating Temp.t·c) 8
5 5 5 5 8 8 10 10 10 10 10 10 15 15 20 20 20 20 20 20 20 20 28 28 28 30
Nitric Acid
Nitric Acid
('C)
43 43 43
Dow Derakane 470 Dow Oerakane 510N Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 530 Dow Oerakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992
© Plastics Design Library
781 Chemical Resistance - Vinyl Ester Resin ..
'.l>;C,''''''· . . ,(,...){<; . ...7?,'L...)\·/>'Y
,ii:>."
I· .
:1;,/;
'..
.v.'··
,\......,.
.,.•.•.. --, .
,Reagento~o~e:';L~f~i:I~~~;~:fl~g Te~p~i;c)
Octane
Resista nce Note
100
Octanoic Acid
8 8 8 8
saturaled
65
~ 8
8
82 93 82 71 80
tertiary
8
60
a
100 100 100 100
sour crude, wyoming
sweet crude
Oleic Acid
8
43
Reichhold Allac 580
·8 8 8 8 8 8
99 99 99 99 99 99
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
grease, lube, vegetable
100
8
94
sour crude sweet crude
100 100
8 8
94 94
8
all concentrations
8
8 8 100 100 100 100
Oleum
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetren FR992 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
82 82 82 82
8'
8
Octene Octylamine Oils
:
99 65
8
93
8 ..•.. 8'
93
99
8 8
93 94
; . not recommended for use
2. ,
fuming sulfuric
Dow Derakane 411 Dow Derakane 470 Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 .. (bisphenol·A epoxy)
99 93
2 2
2 tuming sulfuric acid
2 2
20
Oleum Sulfate (a
o
20
2
20
2
20
2
20
2 '8 8 8 8
)
Oleum Sulfates (a Olive Oil
o
)
100 100 100 100
Orange Oil Orthobenzoyl Benzoic Acid
all concentrations
© Plastics Design Library
not recom:; Interm/llen, expo or expo 10 (umes may be OK
Ashiand Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
49 49 49 49
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
8
49
Reichhold Allac 580
.. 8 8 8
99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Re/chhold Allac 580
99
99
·,B'·
99
B
93
8 .. ~
93
·8
99 94
100
...•... 8 .
100
....·•.8:..
93
... B
99
,
99
8 8 B·····
;'ia
Oxalic Acid
.
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
caprylic acid
caprylic acid
Material Note
"
93
... . ".
.,
99
.'
99 65
8· .•.•
99
8 8
104 99
8
99
"
.
.'
:
":..: ~:.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
Vinyl Ester
782
Chemical Resistance - Vinyl Ester Resin
Max; Temp. ('C) all concentrations
99 99 99 65 60
100
Resistance Note' Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhoid Allac 580
~:"'"
100
Oxidizer Ozone
Palm 011 Palmitic Acid
Ihermal oxidizer, HCL absorption
Dow Derakane 470 5 5 5 5 5 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100
8'
wax
Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-OlO (bisphenol-A epoxy) Reichhold Allac 580
100
8
100
8
93
100
8
94
8 8 8 8 .8 8 8 8
Paraffin
93 99 104 99 99 99 99 99 65 94
saluraled
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Peanut 011
Dow Derakane 411 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100 100 100 100
Pentasodium Triphosphate Perchlorlc Acid
Perchlorlc Acid
10
Reichhold Allac 580
5
8
82
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922
5 5 10 10 10 10 10 10 10 10
8
8 8 8 8 8
82 82 66 66 66 65 65 65 65 65
30
8
27
8 }-.
27 27 38 38 38 38 38
Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470
27 27 27 27 50
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 8084
8 8
8 8
30 30 30 30 30 30 30
8
Iii' ~:; ',8...· 8
Perch loroethylene
8
8' ,8
8
e
.
20 Perclene
Vinyl Ester
100 100 100 100 100
~.:
2 8
8 8' 8
8
expos. of perchloric acid to organics can be dangerous . "}>S::···:·
expos. of perchloric acid 10 organics.' can be dangerous """ , .
Ashland Helron 922
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
.'.
use an ISO/NPG polyesteriesln : not recom,; inl.rmillenl expo or expo ' , ; 10 fumes}"ay be O~ ,
43 27 38 27 50
Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
Helron 800 lor maximum resislance
Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·085 (epoxy novalee)
© Plastics Design Library
783 Chemical Resistance - Vinyl Ester Resin
Ashland Hetron 922 Ashland Hetron FR992
Perclene Peroxides
perchloroethylene
Reichhold Allac 580
bleach, dilute
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
Phenol
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
carbolic acid
Phenol
carbolic acid
>1 2 2 2 5 5 5 10 10
Reichhold Allac 580 Owens Corn. Vibrin E·085 (epoxy novalec)
88 88 88
Reichhold Allac 580 Dow Derakane 470 Dow Derakane 411
88 88 88 100 100 100
Phenol Resins Phenol Sulfonic Acid
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
saturated
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
65
20
Dow Derakane 470 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411
65 65 65
20 20 20
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
65 65
25 25 25
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
H3P04:HCL, 15:9; sat. wi CI2
vapor and condensate
wi P405, HCL, S02; fumes
© Plastics Design Library
20 20 20
Dow Derakane 411 Dow Derakane 470 Reichhold Allac 580
Phosphate Salts
Phosphoric Acid
20
phenol formaldehyde resin; all cone.
Phenolsulfonic Acid
Phosphoric Acid
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 470 Reichhold AIIac 580 Dow Derakane 8084
80 85 85 85
Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
Vinyl Ester
784
Chemical Resistance - Vinyl Ester Resin
Reslsta nce Note
·..,.Max..".,. Temp.I'C) 8 8
85 85 85 85 85 100
8 "8
8 8 ~;;
Phosphoric Acid
super phosphoric acid 76% P205 superphosphoric acid, 76% P205
polyphosphorlc acid
Phosphorous Acid
wI 1·2% hydrochloric acid
Phosphorous Oxychloride
..
105 105 105 105 105 105 115 115 115 115 115 115
,. 8 8 8 8 8 8
8· 8 8'" 8 8
8
70 70 70 70 70 70 70 70 70 70 70 70
a a
8 .
30
Owens Corn. Vibrin E·085 'epoxy novalec)
8 8 8 8 8
8.
not recommended fol. 'use '..
2 .2 2
20
100
Phosphorus Oxychloride
100 100 100
wI Irace fluorine
..
30 no.l recommended lor use
2 2
2 8
"
Phosphorus Trichloride
2 2 8'
93 104 93
.• synlh. surf: veilgerieilillyused
,
100
nol recommended for use
100 100
Phosphoryl Chloride Phossy Water Photographic Developers Photographic Fixing Baths Phthalic Acid
2 100 bleaching balh; color phOIO
8
. 8 8' .
all concentralions
30
100
8
99 104 99 99 99 99 99 80
100
8 "
93
8
8 8 8
"
.. 8
"
"u
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashiand Hetron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
30 30
100 100
" " " "
Vinyl Ester
,.......,
2.
Owens Corn. Vibrin E·010 (blsphenol·A epoxy) Reichhold Altac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·085 (epoxy novalec)
2
8 ,. 8
"
nOHec'om,; Inle'rmiltenl expo or expo .. to fumes may be OK
2
20 20 20 20
Phosphorus Pentoxlde
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 ., Owens Corn. VIbrin E·010 (bisphenol·A epoxy)
8
Phosphorous Trichloride
..
80 99 99 99 99 82 99 99 99 99 82 80 82 82 82 82 82 82 38 38 38 38 38 80
8 8 8
100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
99 99 99 99 82 80
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold AlIac 580
© Plastics Design Library
785
Chemical Resistance - Vinyl Ester Resin
Resistance Note Phthalic Anhydride
saturated
Pickling Solutions
gold; sulfuric
Picric Acid
Pine Oil
100
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
25 25 25
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
aqueous; all concentrations alcoholic
10 10 10 10 10 10
38 93 38 38 43 20
10 10 10
20 20 20
2 2 2
20
8 '2
20 20 49
2 2 9
not recom.; intermittent expo or expo to (umes may be OK .
disinfectant
., 49 not lecom.; intermittent expo or expo 10 fumes may be OK
highest temp. for which informat., available
100
8
94
100
8
65
8
43
8 8 8 7.. ,.,
82 82 82 82 82 82
brass
7 7
bronze
cadmium cyanide
7 8 8 8 8 8 ., 8 8 8
chrome
49 65 49 49 49
""7'.. 7 2 8 8
chrome bath
::'.8' 8
chrome plating
8 8 8.. ',8
chromium plate
;
~
If
. .;
·8 8 8
Plating Solutions
copper
8
e':' 8"" ;.'
;:~
8 8 8 8
© Plastics Design Library
...recommend double synth. veil
::~.
38 38 38 38 38 38 54 54 54 54 54 50 71 82 71 82 71 82 71
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
82 82 82 99 104 99 93
7 7' 7
Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 470 Reichhold Allac 580 Dow Derakane 411
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
82 82 93
J ;:: ~ ..
Plating Solutions
Mllterlal Note
recommenddoulilesynthiveil " not recommended lor use synth; surL veil generally used
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
Vinyl Ester
786
Chemical Resistance - Vinyl Ester Resin
Max;~ POL Rating temp; ('C)
Plating Solutions
copper
copper cyanide balh
copper matte dipping balh
copper pialing
gold
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 .8·'·
8 gold plating
Plating Solutions
hard chrome plaling baths iron
iron plaling
lead lead plating. acid
lead plaling, alkaline
Plating Solutions
nickel
nickel plating
Plating Solutions
platinum plaling solulion
silver
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 .. 8 8 8 8 8. 8 ., 8 8 8 8· 8 8 8 8 8 8 8 8 8 8 8 8
8
silver plating
lin f1uoborale
Vinyl Ester
8 8 8 8 8 8
Resistance Note
82
Dow Derakane 530 Dow Derakane 8084
71
82 82 82 82 93 93 93 82 82 82 38 38 38 38 38 93 93 93 93 60 82 82 82 82 82 82 82 82 93 93 93 93 82 82 82 82 82 82 82 82 82 82 82 82 82 93 93 93 93 93 93 93 82 82 82 82 82 82 82 82 82 82 82 93 93 93 93 93
Material Note
synlh. surl. veil generally used
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411
synlh. surl. veil generally used
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Relchhold Atlac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
synth. surf. veil generally used
Dow Derakan. 411 Dow Derakane 470 Dow Derakan. 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Hetron 922
© Plastics Design Library
787 Chemical Resistance - Vinyl Ester Resin
Plating Solutions
tin lIuoborate ,',
S S,
7 .. 7
tin lIuoborale plating bath
7 .7 7 7
Plating Solutions
zinc
8 8
S 8 8 8
zinc cyanide bath
S 8 8' '8
zinc fluoborale
8
:;.,
il 8 7 cadmium cyanide
71 71 71 71 71
7 7 7,7 7
Plus 5
8
S 8,
Polyacrylamide
8 8. 20
93 93 93 99 99 99 99 82 82 82 82 82 82 71 71 71 93 93 93 93 82 93 82 82 82 82 82 38 38 38 38 80
Polyesters Polyethylene Glycol
100 resins
':';<:
surfacing mal recommended recommend double 5ynth.. ~eil
"
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
.-... :".
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
80
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
115% H3P04
.,
115 115 115 115
Polyvinyl Acetate
','
>:.~
)",
adhesive: all concentralions adhesives
.:.:....;
:.."
emulsion
{"
© Plastics Design Library
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100
emulsions: all concentrations
Dow Derakane 470 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 8084
100
12 12 12 12 12
Polyvinyl Alcohol
Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetren 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Carbowax
Polyethylenelmine
Polyphosphorlc Acid
8
surfacing mal recommended 'recommend double synlh.,veU'd
" nat'recom.: InlarmlllanI8x~: or expo 10 lumas may be OK ,"
2 ~'"
Polyam inoamide
synlh. surl. veil.generally u~ed'
;.
Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Reichhold Allac 580
Vinyl Ester
788
Chemical Resistance - Vinyl Ester Resin
Resistance Note all concentrations
Polyvinyl Chloride
8 8 8 8'
38 49 38 50
Dow Derekane 411 Dow Derekane 470 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Atiac 580
latex with 35 parts DO?
latex with plasticizer latex with 35 parts DO?
20 .
Potassium Alum
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
.8 8 6
99 99 99 99 62 94
8 8 6 8
93 99 104 99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
6
66
Reiehhold Allae 580
8 6 ·6·
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reiehhold Allae 580
8
il 6. 6
saturated
Potassium Amyl Xanthate Potassium Bicarbonate
5
10 10
? 8
71 71 71 71 71 71 65 65 65 65 65 60
10
6
71
50 50 50 50 50 50
7 .7 -7 7
62 62 82 82 62 60
saturated
10 10 10 10 10 10 10
Potassium Bicarbonate
8
.8
. ····6
7 7
7 7
7
:~.
.6
50
Potassium Bromide
all concentrations
saturated >
Potassium Carbonate
all concentrations saturated
10 10 10 10 10 10 10 10
Vinyl Ester
-'
'~:'
recommend double synt.h. veil
'recommend double synth. veil
Dow Derakane 41 t Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allae 580
6
60
6 8 8 8
38 49
8 8 8 8
93 71 71 71
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reichhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
'Ii
43 32 32 32 62 62 62 65 65 65 65 65
Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
6 6 8 6 6 6
~
notiecom"lntermiltentexp. or expo to fumes may be OK
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 8084
99 104 99
8 '8
Potassium Aluminum Sulfate
Material Note
7 ·7 7 7 7
38 94
recommend double·synth. veil
© Plastics Design Library
789 Chemical Resistance - Vinyl Ester Resin
,". :,. ~
Max,· PDl Ratjng Temp. ('Cl
Potassium Carbonate
Potassium Carbonate
Potassium Chloride
10
,8
60
10 25 25 25 25 25 25 25 25 25
8
66 82 82 82 65 65 65 65 65 60
50 50 50 50 50 50 all concentralions
8 8 8 7 7 7 7 7 ·8 7 7 7 7 7 8.
8 8 8 8 8 8 8 8 8. . ·8
brine, 300 ppm C12
Potassium Cyanide Potassium Dichromate
8
82 82 82 82 82 60
Resistance Note
recommend dOUble synlh. veil
recommend double synth.veil
"
99 99 99 99 99 82 94 93 71
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
100 Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Dow Derakane 411
all concentrations
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold AlIac 580
,8 8
a 8
Potassium Ferrlcyanlde
8
93
8
99 99 99 99 82 94
8
8 8 8 8
saturated
all concentrations
.8 8 8 8
93 99 104
8
99 99 99 99 82 94
8 8" 8
8 8
8 saturated
8.
8 8
Potassium Fluoride
8 .8
8
© Plastics Design Library
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Reichhold Allac 580 Owens Corn. Vibrin E-010 (bisphenol·A epoxy)
99 104
8 8
Potassium Gold Cyanide
MaferlalNolll .. ;;,:.;-.
8 ,8
Potassium Ferrocyanlde
):\::
.:::::::::(.
12 12 12
8
8 8
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenoi-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
93 99 104 99 66 66 66 38 38 38
synlh. surf. veil generally used '
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakan. 470 Dow Derakan. 51 ON
Vinyl Ester
790
Chemical Resistance - Vinyl Ester Resin --,-
'Reagent
,
,,:.
Reagent Note ...:.
Potassium Gold Cyanide Potassium Hydroxide
Cone. Temp. POL Max. C'C) t'llo) Rating Temp.t·c) 12 12
38 38
KDH: KCN: copper cyanide; 2:3:8 ozlgal
7
82
recommend double synlh. veil
Dow Derakane 4I I
"
7 7 7
82 82 82 82 66 66 66 65 65 65 65 65 66 60
use 470-45 il470 required recommend double synth. veil
Dow Derakane 470 Dow Derakane 5I ON Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 5I ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
7 8 8 8 7 7 7 7 7 8 8
10 10 10 10 10 10 10 10 10 20 25 25 25 25 25 25 25 25 25
Potassium Hydroxide
Potassium Nitrate
7 7
7 8
40
8
40
45 45 45 45 45 45 45 45 50 50 50 50 50 50
8
66 66 66 82 82 82 82 82 66 66 66
8 8
7 7
7
93 93 93
7 7 8 8 8 2 2 2
"
recommend double synlh. veil use 470·45 11470 required recommend double synth. veil
" "
recommend double synth. veil use 470·45 If 470 required recommend double synth. veil
"
"
Owens Corn. Vibrin E·Ol0 (blsphenol·A epoxy) Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 5I ON
recommend double synth. veil use 470·45 If 470 required recommend double gynth. velf
Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
" "
not recommended for use
" "
"
e
" "
8 8
" "
8
65
8 8 8 8 8 8 8 8 8
99 104 99 99 99 99 99 82 94
" " " "
e
93
8
65 65 94
Dow Derakane 4" Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
" " " " " " "
e
99 104 99 99 99 99 99
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 4I I Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
" " " " " "
Vinyl Ester
7 7
66 66 66 65 65 65 65 65 43
"
8
"
Potassium Permanganate
8 8 8
Dow Derakane 530 Dow Derakane 8084
all concentrations
"
Potassium Oxalate
Material Note
8 8
" " "
Potassium Iodide
Resistance Note
e 8
8
e e 8 8
e
49 65 49 94
Dow Derakane 4I I Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrln E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
.
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Relchhold Allac 580
;
© Plastics Design Library
791
Chemical Resistance - Vinyl Ester Resin <
,"..
." ,.
'.~
R~ligiir:it
>.
, ,
,. ••">
Potassium Permanganate
;.:
• <':--,
'.
'.""
;.:
,
...... ...
··Re~gilr\f;~.O,~e; .... ., ~~
~.:'.
'::::,:'
..
I'·' '.';
•... <
:.:~
.
conc~:
';'l~),)
,
<
Tem'p.
POL Max. ' Rating Temp. ('C)
all concentrations
8 8
"
Resistance Note
Material Note "
82 94
Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Aliac 580
<
Potassium Peroxymonosulfate Oxone Potassium Persulfate
" "
8
93
8
38
"
" "
8 8
99 104 99 99 99 99 99 82 94
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold AlIac 580
8
.."
8
" " "
8 8
"
8
"
8
8
8
93
60 60 60 60 60 60
8 8
54 54 54 54 54 94
60 100 100 100
8
" Potassium Pyrophosphate
8 8
8 8
8 8 8.
Potassium Silicofluoride
'1
i,
,
7
7
, Potassium Sulfate
all concentrations
" " " "
..
" "
..
" Preptone PropIonaldehyde
100
8
Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Aliac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
65 38 38 38 38 38 38 30
8 8 8 .8 8 8 8 8 8
99 93 99
8
93
8
43
',ecomi11enddoubiesyiiihveil" ..
"
carbon fiber veil Is recommended
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Aliac 580
20 20
38 27
2
8
8. '8 8
8 8
50 50 50 50 50 50
,
" "
27 27 27 93 93 93
8 8 8 8
82 82 82 82 82 30
8
71
8
49 49
not recom.; i~ie(milt.nl exp, or expo . to fumes may be OK
2 2
8
1 1 1 20 20 20
50 80 80 100 100
,
,
<
2'
nOI recommended lor use
2
" "
2 2
"
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
not recommended.lor use
8 20
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
"
99 99 99 99 82 94
'8
© Plastics Design Library
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON
2
Propionic Acid
Propionic Acid
,
1
"
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Helron FR992 Ashland Hetron 922 Ashland Hetron FR992
Vinyl Ester
792
Chemical Resistance - Vinyl Ester Resin
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Owens Corn. Vibrin E·085 (epoxy novalee)
100
Propyl Alcohol Propyl Palmitate (1-) Propylamlne
n·propyl alcohol
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
all concentralions n·propylamine; concentraled n·propylamine; aqueous
Propylene Glycol
100
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) 40
all con centralions
..:: ~
Pulp Purifloc C41 Pyridine
chlorinated
Dow Derakane 411 Dow Derakane 470 Reichhold Allac 580
f10cculant
Dow Derakane 411
20 , 20 20 20 20 100 100 100 100
Rayon
Rayon Coa ulatin Bath Rayon Spin Bath Red Liquor
Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992
all concenlrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Oakite
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold AIIac 580
all concenlrations
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
saluraled
100
Vinyl Ester
iecoii,~!~ded for use
:.
rayon spin balh
Salicylic Acid
Salt Brine
'. not ~;. .~~: :~:
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Allac 580 Dow Derakane 470 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
RJ-4 Fuel
Salicylaldehyde
Mt recom.; Inlermittent expo or expo to fUm!6 may be OK." •• ;,... '
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411
rayon spin bath rayon spinning, fumes
ammonium based
Rust Stripper
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold Allac 580
30 30
Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
© Plastics Design Library
793
Chemical Resistance - Vinyl Ester Resin
Material Note Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashiand Helron 980 Ashland Helron FR992
desalinalion pH 7.5, 2.75x normal
100 100 100
Selenious Acid
all concenlralions
..
Septic System
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
Sequestrene 30A Sewage
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
100 100 100 anaerobic
municipal municipal; trealed & untreated
., lreatment .~~
Silicone Oils Silver Cyanide
or greases
100
all concentrations saturated
5
Sliver Nitrate
Skydrol500 Slimetrol
© Plastics Design Library
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Owens Corn. Vibrin E·Olo (bisphenol-A epoxy) Reichhold Allac 580
all concentrations
hydraulic fluid
.
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
100 100 100
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Allac 580
Vinyl Ester
794
Chemical Resistance - Vinyl Ester Resin
Sodium Acetate
aqueous; all concentrations
Owens Corn, Vibrin E·010 (bisphenol·A epoxy)
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn, Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
..
~:.,
100 100 100
Sodium Alkyd Arylsulfonates
all concentrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
Sodium Alkyl Arylsulfonates
Owens Corn, Vibrin E·010 (bisphenol·A epoxy) Reichhold AIIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8 pH 8
Sodium Alkyl Xanthate
40 40 40
8 8 8
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
8 8
8' ,
Sodium Aluminate
"
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992
8
8
,8 ,8 8 ""
66 71 71
8 8
saturated ~
Sodium Benzoate
8
all concentrations saturated ~~
0' 8 ":8 8, ,8 8 8,
,,{ 8
S' .,.8 "~" ..,,
100
Sodium Bicarbonate
;."
82 99 104 99 82 82 82 82 82 80
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E·010 (bisphenol·A epoxy)
',:.
~.:
'.;
all concentrations saturated ..J
:~:
...
';'."
.
,; "
:~
with sodium carbonate, 15:20
,;'." h
Sodium Bicarbonate
10 10 10 10 10 10 10 10
7 7 7 7 7
82 82 82 82 82
8 ,.8
82 82 82 82 82 82 82 82
8
7 7 ••7 7 (.
.,
".
racommend double synlh, ve'll :'., '
" .-:.; It";,,
recommend double synth, yell,.
,,'"
'
Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Darakane 411 Dow Darakane 470 Dow Darakane 510N Dow Dar.kane 530 Dow Dar.kane 8084
© Plastics Design Library
Vinyl Ester
795 Chemical Resistance - Vinyl Ester Resin /~.
Material Noti(······ Sodium Bicarbonate
10 with 20% sodium carbonale
Sodium Bichromate Sodium Bifluoride
. . . ~. • <
15
all concenlrations
Dow Derakane 411 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
8 8 .•
:s'
.If"·'
.. '8 8
Sodium Bisulfide
wi 15% sodium hydroxide
Sodium Bisulfite
all concenlrations salurated
Sodium Borate
all can centralions saturaled
Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
8····· .'8
8 8 .8 . '/l
./8 . . . 8
12
5 20
all concenlrations
8
© Plastics Design Library
Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
5 5 5 5 5 5
Sodium Bromide
93 99 104 99 99 99 99 99 82 94
Dow Derakane 411 Reichhold Allac 580
SWS, stabilized water sol., sat.
wilh 20% sodium bromide
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Helfon 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992
""'8'
Sodium Bromate
99 104 99 99 99 99 99 82 60
15 15 15 15 15 15 45 45 45
.••••.. /l
wi 48% sodium hydroxide; BOROl
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100
Sodium Bisulfate
Sodium Borohydrlde
60
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
Vinyl Ester
796
Chemical Resistance - Vinyl Ester Resin ····,··w_·
,
····,~···.·w~,.·,,···
,
....•.
-<;" .~
;
';;':':::':'.
Reagent . ;: :'
~;'-':
:~
.. .. :::~
'
, ,.'
'"'.
Sodium Bromide Sodium Butyl Xanthate Sodium Carbonate
..... '. ""'.,)., .. ;'~
".
.
,
...
,
......,
"~
~:
..
'd.
'.
..,. Re~geritNdte . . "
,Conc.
'
','
"""
'
all concentrations with 20% sodium bromalo
(%)
re/rip. POL
Max. ,Ratlng Temp. ('ci
('C).
8 20
B
5
8 8 8
saturated
" "
B 7 7 7 7 7
with sodium bicarbonato. 20:15
" " " " 2 2 2 10 10 10 10 10 10 10 10 10
Sodium Carbonate
with 15% sodium bicarbonate
Sodium Carbonate
8
8 B 8 B 7 7 7 7 7 8
,
8
20 25 25 25 25 25 25 25 25 25
8 8 8 8 7 7 .. 7 f: 7 7
32 32 32 32 32 32 32 32 32
8
"
8.
8 8 7 7 7 7 7 B
.,
7
35 35 35 35 35 35
Sodium Chlorate
7 7 7 7
.8.
saturated
8 8 8
~.
"
"
..
wi sodium chloride. 3.2M:3.4M
8. 8
" " " "
8 8 8
8 8 8 '."
Sodium Chlorate
,
50 50 50 50 50 50 50
8 8 8
"
/,':',., .. ,.. .".
71 71 71 82 82 82 82 82 82 82 82 82 82 82 82 82 82 82 60
"" Reichhold AlIac 580
.,.,,,
" "
., ,-, ...
recQll)m~nd
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakano 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashiand Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Dorakane 8084 Owons Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
double synlh. veil
.." "
,
..
"
recommend double synth. veil
.." .. .
82
.
71 71 71 82 82 82 82 82 60
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Dorakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Dorakane 530 Dow Dorakane 8084
, rec~mmend double syntti. veil
.
..
.
"
:.':' Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
t 71 71 71 82 82 82 82 82 60
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenoi·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
recommend double synth; veil u
,.
" " "
recommend doubte Synlh. veit
82 82 82 82 82 71 99 104 99 99 99 99 99 82 113 113 113 113
" " " " "
,
,
.,
82
93
,Milterlal Note '.
79,8
8
8 8
'.".,
"-'"
66
8
8
,
93 93
99 99 99 99 82 94
..8
Resistance Note . .....
::.-
"
., .'
.. ;:
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakene 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Dow Dorakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakano 8084 Dow Derakane 411 Dow Dorakane 470 Dow Dorakane 510N Dow Derakano 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
© Plastics Design Library
Vinyl Ester
797 Chemical Resistance - Vinyl Ester Resin
Max.
Resistance Note
Temp. ('C) Sodium Chlorate
Sodium Chloride
90 90 90 100
8 8 8
99 104 99 94
all concentrations pH 10.5, C12; saturated
8 8
93 94
pH 3; saturated
8
99 99 99 93 93 93 93 82 82 82 82 82 82 99 104 99
il
8 8 8 8 8 8 8 8
pHl015, CI2 saturaled
pH 11, some C12, saturated
8 8 8 8 8 8 8
saturated
Sodium Chloride
wi 5% HCI; saturated
8 8 8
wi sodium chlorate, 3.4M:3.2M
8 8 8 8.
wl15% ammonium carbonate; pH 13
Sodium Chlorite
5 5 5
8
saturated
,,8 8 '8 8 8
2 2
2
Sodium Chlorite
Sodium Chromate
8 8
50 50 50 50 50 50
8 8 8 8 8 8
50
© Plastics Design Library
all concentrations
i'-::
94 99 104 99 99 104 99 65 65 65 65 65 71 99 104
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411
99
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992
38 49 38 38 38 43
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
8 8 8 8 8 8 8 8
99 104 99 99 99 99 99 89 94
,8
93
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 41 t Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold Allac 580
8 8 8 8
99 99 99 99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Darakane 530
' 8
saturated
50 50 50 50 50 50
Sodium Cyanide
8 8 8 8 8 8 8 8
10 10 10 10 10 10 25 25 25
Reichhold Atlac 580 Owens Corn. Vlbrin E-Ol0 (blsphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
;:
not recommended lor use
.2
all concentrations
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
99 99 99 99 99 99 99
2 ·2
Material Note
Vinyl Ester
798
Chemical Resistance - Vinyl Ester Resin
saturated
5 10 10 10 15 50 50 50
Sodium Dichromate
saturated
50 100
Sodium Diphosphate
100 100
Sodium Dodecylbenzenesulfonate
5 all concentrations
saturated
Sodium Ferrocyanlde
all concentrations
saturated
Sodium Fluoride
Vinyl Ester
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Allae 580
all concentrations
100
Sodium Ethyl Xanthate Sodium Ferrlcyanlde
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
all concentrations
Oow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Atlae 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold Atlae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
© Plastics Design Library
799 Chemical Resistance - Vinyl Ester Resin
;
Material Note Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reiehhold Allae 580 Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
Sodium Hexametaphosphate
saturated
10
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reiehhold AlIac 580
15 15 15 20 45 45 45
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Reiehhold Allae 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
10 10 10 10 10 10
Sodium Hydrosulfide
all concentrations
w/15% sodium hydroxide
Sodium Hydroxide
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reiehhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
w/12% cresylic acid
Sodium Hydroxide
10 10 10 10 10 10 10 10 10 15 15 15 <20 25 25 25 25 25 25
© Plastics Design Library
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vibrin E-010 (bisphenol- A "ooxy) Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084
Vinyl Ester
800
Chemical Resistance - Vinyl Ester Resin
w/12% sodium borohydride; BOROl
Sodium Hypochlorite
slabIe
bleaches
sleble
vapors
Sodium Hypochlorite
sleble
50 50 50 50 50 50 50 50 50
Owens Corn, Vibrin E-010 (blsphenol-A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold AlIac 580
2 2
Ashland Helron 922 Ash land Helron 980
2 5.25 5.25 5.25 5.25 5.25 5.25 5.25
66 65 82 65 49 65 66 82
5.25 5.25 5.25 5.25 5.25 5.25 5.25 >5.25 >5.25 >5.25
66 65 82 65 49 65
10 10 10 10 10 10 10 10 10 10 10
Sodium Hypochlorite
stable
15 15 15 15 18 18 18 18 18 18 18 18
Sodium Lauryl Sulfate
all concentrations
100 100 100
Sodium Methoxide
.'
; Ihis is Ihe pi~'er(ed mai~iial i special ~,j,e&' synth. surl, veil used;, nonlhlxotropic raslnsprafarable' this is lhe prel~;iedhiatihal, 'Speclel notas apply , use4iO·45 11,4.70 niqulred special notes apply
[OK to max stable temp.\orreagehr •••••
•
h~~~"
,v."
lhis)s ttie preferred I\la.te'rial, speclei cure &synih.s~ii.i;;;;ifu;;~d; nonlhixolropic resins preferebre ttils)s iileprererred material' speClalnotes apply
Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470
use 470·45 il470 required . special notes epPIY
fhisisttiepieleiiediiialeriaf " speCiaf cure &: synth,surh veilused( ,'inonlhixof(oplc rlisins' piefeiiible" "~ihls Isu\'Q'~iele;redmatinaT ,}\ OK 10 max, sl;;bJe JemtiotM~~ei\L' ~peci~':'n'oi:~& apply." '.-.:,~' "',
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 880 Ashland Helron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470
usa 470·45 if 470raqulied ";;~ecial nOles apply
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn, Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn, Vibrin E·010 (bisphenol-A epoxy)
Sodium Methylate
Vinyl Ester
© Plastics Design Library
801 Chemical Resistance - Vinyl Ester Resin
..
..... Max; . '
Resistance Note
Temp. ('CI Sodium Nitrate
all concentrations
8 8 8 8 8
99 99 99 99 82 94
8 8' 8 8
93 99 104 99
all concentrations
8
94
saturated
8 8' 8
93 99 104 99
}.
':"8 . •
saturated
Sodium Nitrite
Sodium Oxalate
Sodium Persulfate
all concentrations saturated
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Reichhold AlIac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
82 99 99 94
8 8. 8
Reichhoid Allac 580 Dow Derakane 411 Dow Derakane 470 Owens Corn, Vibrin E-010 (bisphenol-A epoxy) Reichhold AlIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
all concentrations 20 20 20 20 20 20
Sodium Phenolate Sodium Phenoxlde Sodium Phosphate
2 2
.. ~"
all cone,; sodium monophosphate
.8' ,8
8-;. 8
all concentrations saturated
8 8 8
8
sodium monophosphate; all cone. sodium phosphate tri, all cone.
Sodium SlIIcate
S :;. 8 8:. 8 8 ·'8
25 25 25 25
8 8 8
~ 8 .:. 8 "',.
S 8.
/\ 6 6 6
Sodium Sulfate
© Plastics Design Library
all concentrations
99 82 93 99 104 99 94
99 99 99
8
all concenlrations
99 99 99
99
10 10 10 10 10 10 all concentrations pH 9-10,5
'
8 8 8
Sodium Phosphate
..
• 8
8
Sodium Polyacrylate
Material Note'
:X::····
,,
82
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn, Vibrin E-010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
99 99 99 99 82 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol·A epoxy)
66 82 82 82 82
Reichhold Atlae 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
99 99 82 60
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Reichhold Atlac 580 Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992
93 99 104 99 99 104 99
syn\h,surJ; veil geneial~~sed
Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992
Vinyl Ester
802
Chemical Resistance - Vinyl Ester Resin
POL Max. Rating Temp.('c) Sodium Sulfate
all concentrations
a
99 99 99 99 82 94
8
a a 8 8
Sodium Sulfhydrate
hydrosullide; all conc. w/15% sodium hydroxide
Sodium Sulfide
15 15 15 15 15 15 20 45 45 45
all concentrations
8
93
a
50
8 8
60 60 60 60 60 60 82 60 60 60
a 8 8 8
8 8 8
a 8 8 8 8 ·8 8 8 8 8
saturated
a 10 10 10
Sodium Sulfite
all concentrations
8 8 8
Resistance Note Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Atlac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
99 99 99 99 82 50
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
.-:.:'"
93 99 104 99 99 104 99
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992
8 8 8
99 99 99 99 82 94
8 8 8 8
93 99 104 99
8
99 99 99 99 82 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
77 93 93 93 94
8
82 82 82 82 82
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
a
71
Reichhold Allac 580
8 8 8 8
66 66 66 94
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (blsphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON
8 8
a
..... ~ .
concentrated
Sodium Tartrate
all concentrations
8 8 8 8 8
a
Sodium Tetraborate saturated
8 8 8 8
saturated solution
8
8 8·
a Sodium Tetrabromide Sodium Thiocyanate
all concentrations
50 57 57 57
Vinyl Ester
82 82 82
.".
".
:~
.
~'.
© Plastics Design Library
803
Chemical Resistance - Vinyl Ester Resin .,
Reagent ~..:
\;
"i
.i/
,";ii'r~: ,':, ..
«/ !;(~".fii;~<:'::
":,
· i i ..
'·······,~\f{;." /
':·.:,·.,!iPf~Ci
Sodium Thiocyanate Sodium Thiosulfate
':.". I·,' POL Max. ". ' Rating Temp.c'c)
Temp. C'C)
!l
57 57
8
!l
all concentrations
8 '8 8 8 8 8 8 8
" " " " " "
" " Sodium Tridecyl Sulfate Sodium Triphosphate Sodium Tripolyphosphate
66 82
all concentrations
8
" "
8
94 93
saluraled
8 8
8
"
8 8 8 .8 8. 8 8
"
"
" " "
"
8 8 8 8
all concenlrations
" "
"
8
"
8 ; 8 8,
40 40 40 40
Soil Solder Plate
8
clay
8
"
8 8
"
8 8
8
.. 8 Solvents
Continue Etch
"
'.
'
8 8 8
8
"
8
Dowclene
'8
" "
8'
Dowclene EC
8
" " "
8 8 ,8 8
Varsol
Sorbitol
solutions, all cocentrations
8
"
8
"
8 8 8
" solutions; all concentrations
8 8
"
8 . ',•. 8
Soy Sauce Soya Oil
© Plastics Design Library
49 49 49 82 82 82 82 82 94
8
"
Sodium Xylene Sulfonate
82 82
8
"
100 100
8".' 8 "8
Resistance Note
93 99 99 99 99 99 99 99 82 94 71 71 71 71 80 99 104 99 93
.Material Note Dow Derakane 530 Dow Derakane 8084
•
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
" Reichhold Allac 580
"
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
32 32 32
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
65 65 65 65 65
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
38 38 38 49 49 49 38 38 38 38 43
Dow Derakane 4'1 Dow Derakane 470 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Atlac 580
71 82 71 71 94
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
66 66 66 66 38
Dow Derakane 411
82 82
Ashland Hetron 922 Ashland Hetron 980
Vinyl Ester
804
Chemical Resistance - Vinyl Ester Resin
Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
Soybean 011
all concentrations epoxidized
Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
soya oil
epoxidized
Span Spearmint Spearmint 011
100 100 100 100
surfactant; all concentrations spearmint oil
Reichhold Allac 580 Dow Derakane 411
all concentrations
Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100
Stannic Chloride
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
Stannous Chloride
all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580
slurry; all concentrations
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Starch Steam
Stearic Acid
Stilbene SX Stoddard Solvents Styrene
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakene 530 Dow Derakene 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allee 580
all concentrations
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
4
100 Dow Derakane 470 Dow Derakane 510N
20
Vinyl Ester
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 411
© Plastics Design Library
805 Chemical Resistance - Vinyl Ester Resin . -.-:::..;.~~' ::
~- - .:.
c' ...
.'.-.~
"'Milterl~I~ote Dow Derakane 530
20 100 100 100
Styrene Acrylic Emulsion
all concentrations
20
Succinic Acid Succinonitrlle
all concentrallons
aqueous; all concentrations aqueous; saturated aqueous
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
100
aqueous
Sucrose
Dow Derakane 8084 Ashland Helron 922 Ashland Helron FR992 Reichhold Allac 580
20
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Dow Derakane 8084
all concentrations
Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Atlac 580
Sugar Beet
liquor
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580
Sugar Cane
liquor & sweelener, all cone.
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
sucrose, all concenlrations
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
liquor: all concentrations
Sugars
solution
Sulfamic Acid
60 60 60
salurated
10 10 10 10 10 25 25 25 25
Sulfanilic Acid
all concentrations
Sulfite Liquors
or sulfate liquors; pulp mill
Ashland Helron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Hetron 922
© Plastics Design Library
Vinyl Ester
806
Chemical Resistance - Vinyl Ester Resin
./~
8 8'"
Sulfonyl Chloride
aromatic 100 100 lOa
Sulfur
2
molten
7,," 7
molten
Sulfur Chloride
100 100
8 8', 8,,'
8 vapor
:,,8 2
27 27 lOa 100 100
",'-.
Sulfur Dichloride
Sulfur Dioxide
dry or wet ;':::: ~
.
";.,
burner ges, wet dry or wet gas dry or weI
Sulfur Trioxide
weI
Vinyl Ester
not recommended lor US8, ":'.
"
fumes vapors
Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 41 I
60 ,:'
99 121 99 99 82 99 99 99 99 82 60
nol recommended
<177 <177
;
fotUse .... r
"
5 10 100 100 100
100 100 100 100 100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron FR992 Ashlend Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
.:;
gas
dry
Sulfuric Acid
94 94 94 94 82
'2 2 2 2 2,
"8'",,
wet gas; aqueous
'"
2
dry gas; aqueous
sulfur dioxide burner, wet gas
not recommended 19r use'
,2"'"
27 27
Dow Derakane 470 Dow Derakane 51 ON Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 5 t ON Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992
dlssolut. solvent must be OJ<
'~.'
27
vapor
149 121 82 82 82 82 82 82
<177 ;{ <,I!(: <177 2 121 2 121 ,2
fumes
Reichhold Allac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992
'~':
f'
burner gas; wet
Ashland Hetron 980 Ashland Hetron FR992
"
8 8 8 7 7
wellable, fungicide
:'; ~·:·:~:··::;;+i;rJ·
104 99
2 '2' 2
38 38 38
Mliterlal~No't:".:'
Resistance Note
"Max. Temp/('c)
99 104 99
.,-'
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Helron 922 Ashland Hetron FR992 Reichhold Allec 580 Ashland Hetron 922 Ashland Hetron 980 Ashlend Hetron FR992 Reichhold Allac 580 Dow Derakane 411 Dow Derakana 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Reichhold Allec 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
© Plastics Design Library
807 Chemical Resistance - Vinyl Ester Resin
POL
Sulfuric Acid
Temp.(~c)
vapors
8
wi ferrous sulfate, 10:sal.
8 8
82 99 99 99 99 82 82 82 82 82 82 93 54 93
6 8 8 8
with phosphoric acid, 10:20
8 8 8
with 37% HCL and 5% CH3COOH
Sulfuric Acid
with 90% manganese sulfate with phossphoric acid with saturated ferrous sulfate
with 2,5% chromic acid wi 3% chromic acid vapor
Sulfuric Acid
wi 12% copper sulfate
trace dichlorides
wi 3% sodium dichromate w/4% sodium dichromate trace organics
vapor
Sulfuric Acid vapor; wi trace nitric acid evaporation
© Plastics Design Library
Max.
Rating
8 8
1 2 5
8 8
10 10 10 10
8
10 13,7 16 16 15-20 15-20 15-20 25 25 25 25 25 25 25 25 25
8 2 2 2 8 8 8
28 28 28 30 30 30 30 32 32 47 47 <50 50 50 50 50 50 50 50 50 50
8 8 8
68 68
8 8
II 8
8 8 8 8,
6 8
6
74 74
8 2 2 2 2 2 2 2 2 8
8 8
8 8
8 8 121 121
8 2 2
<60
8
65-70 65-70 <70 <70 70 70 70 70 70 70 70 70
2 2
not recommended lor' use Ashland Hetron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
82 82 82 99 104 99 99 99 99 99 82 93 49 49 49
thlij"IS'thepref~rredniaterlal
not (ecommeoded lor use
60 60 60 60 99 104 99 93 not recommended lor use 50
not recommended for use
8
6 8
82 82
.·8 8 8
Owens Corn, Vibrin E-085 (epoxy novalee) Reichhold Allac 580
93
71 71 71 82 82 82
8
Mat~rial~;f~( Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
93 82 93 80
2
2 8
Resistance Note
:/
Ashiand Hetron 922 Ashland Hetron 980 Ashtand Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashtand Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron FR992 Ashland Hetron 922 Ashlend Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Vinyl Ester
808
Chemical Resistance - Vinyl Ester Resin .... ,. ~~agent
.
:},
,
.' ~'.
..
Reagent Note ....
'
..
Sulfuric Acid Irace organics
"
Irace dichlorides
"
Sulfuric Acid
wi chlorine. saturated
" "
Irace organics
Sulfuric Acid
"
Max. . POL Rating Temp.. ('e)
Cone. Temp. (%) 70 72 72 75 75 75 75 75 75 75 75 75 76 76
('C)
8 2 2 8 8 8 8 8 8 8
74 74
93 93 93 93 93
49 49 49 38 49 38 38 38 43
"
nol recommended for use
"
2 27
not recommended for use
"
2
" "
2 30
8
2
not recommended for use
2
" " " "
:1
93 93 93 93 96
20 20 20 20
2 2 2 2
98 98 98
82 82 82
,
Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Ashland Helron 922 Ashland Helron FR992
"
••
8 2 2
20
Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Ashland Helron 922 Ashland Hetron FR992
,
2
74 74
Reichhold Allac 580 Ashland Helron 922 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980
nol recommended lor use
2
74 74
Material Note'
88
8 8
80 80 80 80 80 80 80 80 80
Resistance Note
"
not recom.; inlerm~lenl expo or expo 10 fumes mey be OK
2 2
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·085 (epoxy novalec) Ashland Hetron 922 Ashiand Helron 980 Ashland Helron FR992
" "
2
"
2 2
"
not recomme~ded lor ~se ,':-
vapor
"
"
Sulfurous Acid
8 8
" "
8 8 8 8 8 8 .8 8 8 8 8
Sulfuryl Chloride 100 100 100 100 105% orthophosphoric acid
SPAN; all concenlralions Tween; all concenlralions Ultrawel; all concenlralions
8.
"
43
8 8 .
8 8
Reichhold Atlac 580 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
.. not recommended for yse
" Owens Corn. Vibrin E·085 (epoxy novalee) Reichhold Allac 580 Ashland Helron 922 Ashland Hetron 980 Ashland Hetfon FR992
nol recommended' lor vse
" "
2
8 ,',8
.... ':.
30
\:.
."
.'
2
8 8
.
.'
2
S····
:~
...
..
38 38 38 38 38 38 49 49 49 49 49 60
2 24 24 24
8 100 100 100 100 100 100
Vinyl Ester
"
;
2 100
Surfactants
"
2 2
all concentralions saturaled
10 10 10 10 10 10 10 10 10
Superphosphorle Acid
2
...
93 99 99 104 104 99 99 66 66 66
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Reichhold Atlac 580 Dow Derakane 411
Reichhold Allac 580 Ashland Hetron 922
;.,.
'<,
" Ashland Helron 980
" Ashland Helron FR992
,".
" Reichhold Allac 580
" "
© Plastics Design Library
809 Chemical Resistance - Vinyl Ester Resin
.:'.. /:":"
',Mall. .'
Resistance Note
Temp. ('C) Surfactants Tall Oil
anionic
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992
8 ':8
66 94
8
99 99 99 99 94 94 94 94 66 66 66
Reichhold Allac 580 Owens Corn, Vibrin E,010 (bisphenol,A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
.8 8 8."
tall oil reactor
8 .8. 8 8 8 '·8 8 8 8 8
lall oil storage, all conc.
Tannic Acid
all concenlrations
8 8 8 8 8 .' saturated
8 8 8
all concentrations
8 8
S··"
8
93 99 99 99
8
49
8
:.8. 8
Tetrachloroethane 20
2·
20 20 20
2 2 2 8
100 100
Tetrachloroethylene
not recom,; Iniermillenl expo or expo 10 fume.s may be OK
50 not recommended for use
2 ·8 8 8 8 2"
20
100
Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
20
2
not recom.; Inlermilleni exp, or expo 10 fumes mey. be OK
Dow Derakane 8084
27
9
highesl temp'" for wllich inlormat. . . available·
Dow Derakane 411
9' 30
8 <~
nol recommendedloi use
2
.8
J
8 :'8 8 "'8 ..,...
8 8 2
© Plastics Design Library
Dow Derakane 470 Dow Derakane 411
Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
40
8
38 100
,not recom.; inlermillenl e.xp. iIr expo lo.lumes may be OK
'.'
100
Tetrachloropentane
Tetrachloropyridine
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
'8
all concentrations perchloroethylene
perchloroethene
93 99 99 99 99 99 99 99 65 80
8. 8 8
saturated
Dow Derakane 411 Dow Derakane 470 Dow Derakane 5tON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E,010 (bisphenol,A epoxy) Reichhold AlIac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
99 99 99 99 65 80
8
8
Tartaric Acid
.. ~;:.
71 71 71
58 58 58
all concentrations reactor
Materlai Note'
Dow Derakane 470 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 411
27 49 27 49 27 49 27
Dow Derakane 470 Dow Derakane 51 ON
not recommended for iJse
Dow Derakane 530 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Vinyl Ester
810
Chemical Resistance - Vinyl Ester Resin
100 100 100
Tetrahydrofuran
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
THF
Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec)
THF; all concentrations
Tetrapotassium Pyrophosphate
60 60 60 60 60 60 60 60 60
~.
'.'.' '.'
""}
60
Tetrasodium EthXlenedlamlnetetraacetic Acl
)
all concentralions
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Reichhold Atlac 580 Dow Derakane 411
Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
Tetrasodlum Ethylenedlamlnetetraacetic Acid Salts Tetrasodlum Pyrophosphate
Reichhold AIIac 580
saturaled
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Ashland Helron 922 Ashland Helron 980 Ashiand Helron FR992 Reichhold Atlac 580 Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Reichhold Atlac 580
5 5 5 5 60 60
Textone
Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 411
bleach
liquid
liquid, 50% aq. sol. of sodium chlorite
Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580
Thloglycollc Acid
mercapoacetic acid mercaptoacetic acid, all conc. 20 20 20 10 10 10 10
Thlonyl Chloride
Vinyl Ester
Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Dow Derakane 470 Dow Derakane 510N Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Helron FR992 Reichhold Atlac 580
20
Owens Corn. Vibrin E-010 (bisphenol-A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec) Dow Derakane 411
20 20
Dow Derakane 470 Dow Derakane 51 ON
© Plastics Design Library
811 Chemical Resistance - Vinyl Ester Resin
Material Note Dow Derakane 530 20
Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
100 100 100 100
Tobias Acid
2-naphthylamine sulfonic acid all concentrations
Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530
s-naphthylamine-l-sulfon ic
Toluene
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
20 100 100 100 100 100 100 100
Toluene Diisocyanate
saturated
Toluenesulfonlc Acid
all concentrations
TDI
38 30
49 49
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Reichhold Allac 580
100
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
65 65 65 65 100 100 100
Tomato Sauce Transformer Oils
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Relchhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy)
100 100 100 100
Trlbutyl Phosphate
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
100 100 100 100
Tributylamlne Trichloroacetaldehyde
© Plastics Design Library
Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992
trion-butylamine
100 100 100
38
Reichhold Atlac 580 Ashland Hetron 922
Vinyl Ester
812
Chemical Resistance - Vinyl Ester Resin
100 100
Trichloroacetic Acid
Ashland Hetron 980 Ashland Hetron FR992
0-50 0-50 0-50 50 50 50 50 50 50 50 50 75
~. -,,-
:::-
Trichloroethane
:
85
8
30
100
8,
30
100 100
2,
2
Chloroethene 8M; 1,1,1trichloroethane
8
38
Dow Derakane 411
'8,
38 38 38
Dow Derakane 530 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084
8
Chloroethene 8M; 1,1,1trichloroethane
20
2
20 38
2 9
38 47 49 1,1,1-trlchloroethane
not recom:: Intermlltent exp",or exp, • 10 fumes may be OK ' ,
..,
9 ."
9 , 9;
100 100
27 30
8 8
100
Trichloroethylene
Ashland Hetron 922 Ashland Hetron FR992
"not recommended fo(use
8 Chloroethene 8M; 1,1,1trichloroethane
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Allac 580 Owens Corn, Vibrin E-085 (epoxy novalee) Owens Corn, Vibrin E-Ol0 (blsphenol-A epoxy) Owens Corn, Vibrin E-085 (epoxy novalec)
93 30 -:.
Trichlorobenzene
.''';
99 99 99 99 99 99 99 99 99 99
highest lemp. lor which Inlormal. ,available
Dow Derakane 510N Dow Derakane 470 Dow Derakane 510N Ashland Hetron 980 Helron 800 for maximum resiSlanCe: Owens Corn, Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580 not recommended fpr use"" If. .
2 2 20 20 20 20 20
Trlchlorofluoromethane
100 100 100
."
2
nol recom.; Inlermlltenl expo or expo 10 lumes may be OK
2
2,: not recommended lor, use.. ~
2 ":",,,2( 2
.".l!
49 49 49
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
20
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
trichloromonolluoromethane 27 27 27 27
Freon II
Trichloromethane
chloroform
Trichlorophenol Trlchlorophenoxyacetlc Acid (2,4,5-)
Vinyl Ester
acid, salts, esters and formulallons
Owens Corn, Vlbrin E-Ol0 (bisphenol-A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec) Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Allac 580
2 ''''2
2
100 100 100 100
Trichloroethylene (1,1,2-)
~
Dow Derakane 470
100 100
8,
100 100
27 27
100 100 100
79 79
r~~ommend
double syntti:vell '
Reichhold Allac 580 Ashland Hetron 980
38 27
Ashland Hetron 922 Ashland Hetron FR992
<
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992
2
2 u'
2
8
49
8 8,
49 49
Dow Derakane 411 .~.<
Dow Derakane 470 Dow Derakane 510N
© Plastics Design Library
813
Chemical Resistance - Vinyl Ester Resin
...:'::;::~:. : ~
:~.
acid, salls, esters and formulalions Dow Derakane 8084
Tricresyl Phosphate
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Ashland Hetron 922 Ashland Hetron 980 Ashland Helron FR992 Owens Corn. Vlbrin E·010 (bisphenol·A epoxy) Relchhold Allee 580
100 100 100 100 100
Tridecylbenzene Tridecylbenzene Sulfonate Triethanolamine
all concenlralions
20
Dow Derakene 411 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084
49
Dow Derakane 470 Ashland Helron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·010 (bisphenol-A epoxy)
100 100 100 100
Triethanolamine Lauryl Sulfate Triethylamine
Reichhold Allac 580
all con centralions
20 100 100 100
Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992
Trlethylene Glycol
Dow Derakane 411 Dow Derakane 470 Owens Corn. Vibrin E·010 (bisphenol·A epoxy)
100
Trimethylamine Trimethylamine Chlorobromide Trimethylamine Hydrochloride
100 Reichhold AIIac 580 saturaled Ashland Helron 922 Ashland Helron 980 Ashland Helron FR992 Owens Corn. Vibrin E-010 (bisphenol·A epoxy)
100 100 100 100
Trimethylene Chlorobromlde
Triphenyl Phosphate
100 100
Triphenyl Phosphite Trlpropylamine
Iri-n-propylamine
20 20 20 20
Dow Derakane 470 Dow Derekane 51 ON Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol·A epoxy) Owens Corn. Vibrin E-085 (epoxy novalec)
100
Owens Corn. Vibrin E-010 (bisphenol-A epoxy)
100
© Plastics Design Library
Dow Derakane 411
Ashland Helron 922 Ashland Hetron 980 Ashland Helron FR992
100
all concenlralions
20
100 100 100
Tripropylene Glycol
Trisodium Phosphate
Dow Derakane 411 Dow Derakane 470 Owens Corn. Vibrin E-010 (bisphenol·A epoxy) Reichhold Allac 580 Dow Derakane 8084
Dow Derakane 411 Dow Derakane 470 Dow Derakane 8084 Owens Corn. Vibrin E·010 (bisphenol-A epoxy) Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470
Vinyl Ester
814
Chemical Resistance - Vinyl Ester Resin ....
Reagent
ReageritNote
Cone, Temp. ("')
Trisodium Phosphate
('C)
all concentrations
8
saturated
25 25 25 50
Tritolyl Phosphate
tri-n-tolyl phosphale
Triton Triton X100
100
8
99 99
8 8
82 94
8
99
8 .. 8 8
99 99
8
99
99
e
100 100 100
8 8
Turpentine
8
e e e
e pure gum
Tween
8 8
100 100 100 100
e e
e
surfactant, all concentrations
8 8
8 8 8
surfactant: all concentrations
Tydex 12
e e
f10cculant
e
e 8
Ultrawet
e e
surfactant, all concentrations
"",
, ..
"
Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold AlIac 580 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy) Reichhold Allac 580
38
Dow Derakane 470 Dow Derakane 510N
.'
71 71 71
-" ;
65 65 65 65 38
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
82 32 38 32 30
-.
65 65 65 65 66 65 65 65 65 65
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
e
43
e
49 49 49 49 49
Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
82 82 82
Dow Derakane 470 Dow Derakane 530 Reichhold Allac 580
8
e
e e
extraction
e',' 8
e
all concentrations saturated
8
e e e
urea:ammonium nitrate:water; 35:44:20
8
e 20 50 50 50
49 82 82 82 49
.' 8
e e
.
........... ..~...~ ...,;' "
_.
49 49 nol recom,; Intermillent expo or·exp. to fumes may be OK
2 65 65 65
...'
~'.~
.~~: .~'.:}/::;<:: :~;::.~
fertil.;44.3%NMN03,35.4%CH4N20 ,20.3%H20 fertilizer ureaammonium nitrate
8
Vinyl Ester
.'
";.,
8
I
Urea
.~
.,-
60
38 27
<~:;er,~);'N8i~;; " ..
surfactants; all conc.
e
Uranium
80
);j..,
i\}.· ",:..:..:,::.:. . . '•.•,..
65 65 65 65 65 66
8 8
Uran
Resistance Note
99
8 8 8 8 8 8
wetting agent
Tuna Oil
POL Max•. Rating Teml'.' ('C)
i'
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N
© Plastics Design Library
815 Chemical Resistance - Vinyl Ester Resin
Max.
Temp. eel Urea
Urine Sugar Vanillin Varsol Vegetable Oils
:::
8
'e
vanillin black liquor solvent
8 8' 8 8, 100
Versene
.:.'.
8
. :~ ..':
cholating agents
7 7 .7. 7 7
Na EDTA, chelating agents
Vidden D Vinegar
2 100
Dow Dorakano 530 Dow Dorakano 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
116 49 43
Dow Derakane 470 Dow Derakano 411 Reichhold Allac 580
82 82 82 94
Ashland Hetron 922 Ashland Hotron 980 Ashland Hetron FR992 Owons Corn. Vibrin E·Ol0 (bisphonol·A epoxy)
49 49 49
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580
49 49 93 43
8 ,··8
fumigant
8
27
Dow Derakano 470
all concentrations
8 8 8
93 99 99 99 99 65 99 93 99
Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakano 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
100 100 100
Vinyl Acetate
65 65 60
j\.
all concentrations
100 100
24 24
8 8 .8 8 8 ~~
2 2
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron FR992
.'~
2:
Vinyl Toluene
27 27 27 27
nOl reconi,; Inlermiltent'ax~~ o,e~p. to fumes may ba OK •.,"
20 100 100 100 100 100
Voranol P 400
'8 8 8 8
Dow Dorakane 411 Dow Derakano 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owons Corn. Vibrin E·010 (bisphonol-A opoxy)
27 27 27 30 not reco!,!ino~d .•d tor US.e
Roichhold Allac 580
polyol
Dow Darakano 411 Dow Derakane 470 Dow Dorakane 510N Dow Derakane 530 Dow Derakane 8084
Waste
organic; water, HCL, CI2 vapors
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530
Water
50 ppm phenol
Dow Derakane 470 Dow Dorakana 51 ON Raichhold Allac 580 Dow Derakana 411 Dow Darakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakana 8084 Reichhold Allac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakana 530 Dow Derakane 8084 Dow Darakane 411 Dow Derakane 470 Dow Derakano 510N Dow Derakane 530
doionized
doionizad, all concentrations demineralized
',. ~ distillod
© Plastics Design Library
Vinyl Ester
816
Chemical Resistance - Vinyl Ester Resin
.. R~agerit
..
".
:/
..... ...',:,
.' ......•.
~:, "
."
Water
,:,.
.
:~:/
; ,:~-:-;
. iI
.
, "'.
..
".
~iiagent Note .-
'I'C)
Max, Rating Tem'p;('c) 8 8
82 93
6 8 8 8 6 8 8 6 6
32 32 32 93 62 62 62 82 82
100 100 100 100 100 100 100
6 6 6 8 6 6 6
62 104 82 99 104 99 94
100 100 100 100 100
8 6 6 8 8
99 99 104 99 99
" "
"
sea water, all concentrations stream condensate
"
" " " city, 10-60 psi
" " deionized
" " "
"
demineralized
" " "
Water
distilled
" " " steam condensate
" " "
.Resistance Note
~;
.'
.•..
,
.. ',':"
'.'
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy)
"
Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
'
100 100 100 100
'8
100 100 100 100
"
8'
93 104
6 8
93 94
8 6 8 8
82 82
activated carbon beds
8 8 6 6 8
82 62 82 82 65
"
" "
82 94
"
Waxes
chlorinated, all cone.
8 8 8 8
"
" "
.'8,
" chlorinated
" " " Whey Whiskey
100 100 100 100
8 8 6 8
all concentrations
pulp mill
65 27 27 27
6
66 66 66 82 82 82 82 65 82
6
49
6 .. 8
" " " " " " "
8 ·6' 6 ,,8 .. .. 8
8,
pulp mill; all concentrations
Witch Hazel
.~.
'":.'
all concentrations
2 8 8 20
2
27
9
.~
Ii
Dow Derakane 411 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992
'"
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Dow Derakane 8084 Reichhold Atlac 580
.....
--
Owens Corn. Vibrin E-Ol0 (bisphenol-A epoxy)
.., ...
Xylene
Dow Derakane 411 Dow Derakane 470 Dow Derakane 51 ON Dow Derakane 530 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
,
80
6
Ashland Hetron 922 Ashiand Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol-A epoxy) Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Owens Corn. Vibrin E-Ol0 (bisphenol·A epoxy) Oow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
82 82 82 82 71 82 93 82
6 6 8
White Liquor
,
•.
h
Dow Derakane 8084 Reichhold Atlac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Reichhold Atlac 580 Dow Derakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Derakane 8084
:"
Water Treatment Beds
,.,.
Material "NQte •
distilled irrigation
Water
":
~.~
. . Coile; T~mp. PO'L (%)
.
,
;
.'
iiotiiicomm~ndedloTijs8"
...
~
27 27 not racom.; intarmilleni'exp. Ol-exp. to fumes may be ·OK highest iemp. for which informal. available
Reichhotd Atlac 580 Dow Derakane 411 Dow Derakane 530 Dow Derakane 8084 Dow Derakane 470
.~.,
27
Vinyl Ester
9
,"
Dow Derakane 510N
© Plastics Design Library
817 Chemical Resistance - Vinyl Ester Resin
Reagent
Reagent Note
C9ilc. Temp. ("').
Xylene
wi 30% amyl acetate
Zeolites Zinc Chlorate
all concentrations
Zinc Chloride
all concentrations saturated
70 100 100 100 100
POL
('C)
Rating 8
100
Zinc Cyanide
all concentrations
.
not tacommended1ili use
}';, Ashland Hetron 980 Ashland Hetron 922
93 80
Raichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
93 99 99 99 99 154 121 99 82 80
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakana 411 Dow Derakana 470 Dow Darakane 510N Dow Derakane 530 :.. } Dow Darakane 8084 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
82 ·81
Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
8 8
'0 8 ., ·8 8 8 8
,8
38
..
•Hetron 800 for ma~lmulll ies!~!anClJ" not recommended Jot usa.:
Ashland Helron 980 Ashland Hatron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Dow Darakane 411 Dow Derakane 470 Dow Derakane 510N Dow Derakane 530 Dow Darakane 8084 Reichhold Allac 580
Zinc Electrolyte
Zinc Fluoborate
Zinc Nitrate
49
8 8
8 100
Tem~. ('C)Hetfon800fof:ma~imUlnJaSISI~"~e: 30
8
70 70 70 70 70 100
Resistance Note:
2 8 2 8
,;:8 :/:"
Max.
50 50 50
Ashland Hetron 922 Ashland Hetron 980 Ashland Hetron FR992 Dow Derakane 411 Dow Derakane 470 Dow Derakana 51 ON
all concentrations
Dow Derakane 530 Dow Darakane 8084 saturated
100
Zinc Phosphate Zinc Sulfate
25 all concentrations
100
Zinc Sulfite
saturated
100
© Plastics Design Library
Reichhold Allac 580 Ashland Hetron 922 Ashland Hetron 980 Ashland He'ron FR992 Owens Corn. Vibrin E·Ol0 (bisphanol·A epoxy) Ashland Hetron 922 Ashland Halron 980 Ashland Hetron FR992 Dow Darakane 411 Dow Derakane 470 Dow Derakana 510N Dow Derakane 530 Dow Derakane 8084 Reichhold Allac 580 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy) Ashland Hetron 922 Ashland Helron 980 Ashland Hetron FR992 Owens Corn. Vibrin E·Ol0 (bisphenol·A epoxy)
Vinyl Ester
818
Chemical Sort with POL Resistance Rating
Abietic Acid elevated terrlperature rubber Fluoroelastomer (FFKM)
8
Acetaldehyde room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
2-8 1-5 8 8 2-4 5 8 2 1 1-2 4-8 2-8 1-2 4 2 1 6- 8 2 3 1 9 2 2 2 2 3 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Acetamide room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 6 8 6 6 8
B 2 6 8 2 2 6 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
B 0-8
Acetanilide elevated temperature rubber Fluoroelastomer (FFKM)
B
Acetate room temperature thermoplastic elastomer PVC Polyol Styrenic TPE thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
2 8 9 1 9 3
Acetic Acid «5°k) room temperature thermoplastic elastomer Polyester TPE PVC Polyol Styrenic TPE
Urethane TPE (TPAU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyaminobismaleimide
3-4 8 8 8 8 6 6 8 6 6 2 8 6 9
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Acetic Acid (5-10%) room temperature thermoplastic elastomer PVC Polyol Styrenic TPE thermoset Diallyl Phthalate Resin Phenolic Resin Polyurethane
5 6-8 8 8 7
elevated temperature thermoset Epoxy Resin Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2-5 8 8 8 8 8
Acetic Acid (10-20% room temperature
3-5 8 6-8 4 8 8 8 8 2
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Acetic Acid (20-30%) room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Epoxy Resin
6 8 6 6 8 8 8 6 6 6 8 6 6 2 8 6 3-9
elevated temperature 3 8 6-8
thermoset Epoxy Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic)
5-9 5-9 8 8
Acetic Acid (30-400/0) room temperature rubber Ethylene Propylene Rubber
8-9
elevated temperature thermoset Vinyl Ester Resin
8
Acetic Acid (40-500/0) room temperature thermoplastic elastomer pvc Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber thermoset Polyaminobismaleim ide Polyester Terephthalate
8 6-8 8-9 8-9 8 8
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Acetic Acid (50-750/0) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Acetic Acid room temperature
)
thermoplastic elastomer Olefinic TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber thermoset Polyester (Isophthalate)
Polyester (I sophthalate) Polyester (Orthophthalate) Polyester Terephthalate Vinyl Ester Resin
1-9 5 8 8
thermoplastic elastomer Olefinic TPE Polyam ide TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
4-9 6-8 8 4-7 7-9 7-9 2-6 2 2-6 2 4-9 2 1-6 1 2-6 1-7 2-9 2-9 2-8 2-6 2 1 4-9 2-6 1 2-7 8-9 9 2 2 2 3 2
elevated temperature thermoplastic elastomer Polyam ide TPE rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Chlorendic) Polyimide
5-7 5 8 8 8-9 2 8-9
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
819
Chemical Sort with POL Resistance Rating Acetic Anhydride room temperature thermoplastic elastomer Olefinic TPE Polyester TPE pvc Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
6 7 2 6 6 2 8 6-7 2 1 1 6 1-2 6 8 2-4 6 2 4 2 2 8 2 2-3 2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMffFE) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 1 8 8 2 2-6 2 2
elevated temperature 8
Acetone (5-100/0) room temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
2 2 2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Acetone (40-50%) room temperature rubber Fluoroelastomer
9 2-9 8 2-8 9 9 2 2 2 2 7 1 8-9 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Epoxy Resin Phenolic Resin
8 1-7 8
Acetone Cyanohydrin rubber Fluoroelastomer (FFKM)
8
Acetonitrile room temperature thermoplastic elastomer PVC Polyol Styrenic TPE rubber Ethylene Propylene Rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1 8 8 9 5-6 6-9 4-5 5-6 9 2 8 2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluorosilicone Silicone thermoset Phenolic Resin
8 0 9 9
Acetophenetidin
elevated temperature
elevated temperature
rubber Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM)
Acetone
8
Acetophenone
room temperature thermoplastic elastomer Olefinic TPE Polyamide TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP)
1-2 4-8 3-8 1-6 4 2-8 2 4-6 6
elevated temperature
Acetoacetic Acid rubber Fluoroelastomer (FFKM)
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Melamine Resin Phenolic Resin Polyaminobismaleim ide Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Polyurethane Urea Resin Vinyl Ester Resin
room temperature 1-6 8-9 7 3-9 0-6 8 1-6 2 8 2 5-6 2 6-8 1-2 9 1-3 2-4
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Isophthalate)
Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Acetotoluidide elevated temperature rubber Fluoroelastomer (FFKM)
8
Acetyl Bromide room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
2 8
elevated terrlperature rubber Fluoroelastomer (FFKM)
8
Acetyl Chloride room terrlperature thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 8 2 2 2 1-2 8 8 8 2 2 1-2 2 2 4 2 2 8 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic)
8 8 2 2
Acetylacetone room temperature rubber Butyl Rubber Chlo:rohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 2 8 2 2 2 2 2 2 6 2 2 2
elevated temperature 8 2 2 8 2 1 1-2 2 2 1-2 2 2 1-2 2 2 2
rubber Fluoroelastomer (FFKM)
8
Acetylene room temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber
8 8 6 5-6 8 8 8 6 5-6 6-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
820 Chemical Sort with POL Resistance Rating
Polysulfide Rubber Silicone Styrene Butadiene Rubber
4 6 6
thermoset
thermoset
Acrolein
Furane Resin
room ternperature thermoplastic elastomer
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 7 3
elevated temperature
Olefinic TPE
6
rubber
Fluoroelastomer (FFKM)
8
Polyester (Chlorendic) Vinyl Ester Resin
room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Neoprene Rubber Nitrile Rubber Polyu rethane Styrene Butadiene Rubber
8 8 8 9 6 2 2 2
elevated temperature 8
Acrylic Acid (30-40%) elevated temperature thermoset 8
8
Acetylsalicylic Acid
6-9 5-7 5-6 1
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
elevated temperature
Polyester (Isophthalate)
8
Furane Resin
9
Acidic Clays 0
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE
6
elevated temperature
room temperature
thermoset 8
)
room temperature Olefinic TPE
Vinyl Ester Resin
9
room temperature 7-9
Olefinic TPE
rubber
Aconitic Acid
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature
thermoset
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Acids room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 5 5
elevated temperature rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8
8
Acridine elevated temperature
2
4 1-2 2
4 2 1-2 2
4 1-2 2 1-2
4 2 2 2 2 2
elevated temperature
rubber Fluoroelastomer (FFKM)
8 8
thermoplastic elastomer 8
8
8
Adiprene L167 elevated temperature rubber 5
Aerolube Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
6-8 8 1
2 8 2 8 8 2 8 8 8 8 6 2
Aerosafe 2300 room temperature
Acrylonitrile
thermoset
Vinyl Ester Resin
rubber
2
elevated temperature
elevated temperature
room temperature Vinyl Ester Resin
8
thermoset
Acrylonitrile «SOlo) 6
thermoset Polyester (Isophthalate)
Polyester (Isophthalate) Vinyl Ester Resin
thermoset
thermoplastic elastomer
8
room temperature
Acids (SO-7S%) thermoplastic elastomer
elevated temperature
rubber
room temperature
thermoplastic elastomer
Olefinic TPE
8
Acrylics
room temperature Polyester TPE
Fluoroelastomer (FFKM)
thermoset
thermoset
8 8 8 6
rubber
Fluoroelastomer (FKMfTFE)
rubber
elevated temperature
room temperature Polyester
2
Acrylic Latex
Acid Dichromate
Ethylene Propylene Rubber Fluorosilicone Nitrile Rubber Styrene Butadiene Rubber
Adiponitrile (30-400/0)
thermoset 8
rubber
Vinyl Ester Resin
thermoplastic elastomer
elevated temperature Fluoroelastomer (FFKM)
Adipic Acid
Fluoroelastomer (FFKM)
rubber thermoset
8
thermoset
room temperature rubber
elevated temperature rubber
Vinyl Ester Resin
room temperature 8
pvc Polyol
Acetylene Tetrachloride Fluoroelastomer (FFKM)
elevated temperature
Acrylic Acid
rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset
Vinyl Ester Resin
8 8
thermoset 8 8-9
Polyester (Bisphenol A)
Polyester (Bisphenol A) Vinyl Ester Resin
Adipic Acid (20-30 0k)
room temperature thermoset
Acetylene Tetrabromide
Acids (7S-97 %
8
Acrylamide (40-S00k)
rubber
elevated temperature thermoset
elevated temperature Fluoroelastomer (FFKM)
8
Acrylonitrile Latex
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 8 2
4 2 2 2 2 2
4 2
elevated temperature rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
Aerosafe 2300W room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorositicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 8 2
4 2 2 2 2 2
4 2
Note: Numbers refer to POL Resistance Ratings (O-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
821 Chemical Sort with POL Resistance Rating
elevated ternperature
Fluoroelastomer (TFP) Fluorosilicone Nitrile Rubber Silicone thermoset Polyam inobismaleimide
rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
Aeroshell 100 elevated temperature
elevated temperature
rubber Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Silicone
9
Aeroshell4 elevated temperature rubber Fluoroelastomer (FKM)
8
elevated temperature
room temperature
thermoset Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8
Air room temperature 8 8 9 9 9 9
elevated temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2-6 2-6 2-6 8 6-8 2 2-6 2-6 2 2-4 8 2 8 8 8 8
elevated temperature 9 8-9
Aircraft Fuels thermoset Vinyl Ester Resin
8
elevated temperature rubber Fluoroelastomer (FKM)
6
elevated temperature rubber Fluoroelastomer (FKMffFE)
8-9
Aircraft Turbine Fuels elevated temperature rubber Fluoroelastomer Fluoroelastomer (FKM)
9 9
elevated temperature 3-7
Aircraft Turbine Oils room temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM)
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer Olefinic TPE
8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Alkyl Alcohol elevated temperature rubber Fluoroelastomer (FFKM)
8
AlkylAmine elevated temperature 8
Alkyl Arylsulfonates elevated temperature rubber Fluoroelastomer (FFKM)
8
Alkyl Arylsulfonic Acid 8 8 8
5 3
elevated temperature thermoset Vinyl Ester Resin
8
rubber Fluoroelastomer (FFKM)
8
Alkyl Benzenesulfonic Acid (75-97%) elevated temperature
8
room temperature
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Alkyl Benzenesulfonic Acid 1 9 5 5
elevated temperature thermoset Vinyl Ester Resin
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM) 2
elevated temperature
8
Alkyl Chloride
Alkaline Cleaners
8
Alkyl Sulfide elevated temperature
8 8 8
rubber Fluoroelastomer (FFKM)
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8
8
Alkylbenzenes
Alkanes
Alkanesulfonic Acid
8
Alkyl Acetone
rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset Polyester (Isophthalate)
8
Alkyd Resins
Alkyl Arylsulfonics
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
2 2 2 6 6 2 2 2 8 6 2 2
Alkenes
elevated temperature
rubber Fluoroelastomer (FFKM) 7 1 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Aircraft Turbine Lubricants rubber Fluorosilicone
9 9 9 9
Alkaline
Aircraft Oils
8
Alkazene
Aliphatic Hydrocarbons
thermoset Furane Resin
Aircraft Lubricants
8 8 8 8 8 8 8 8 8 8 4 2 8 8
elevated temperature
thermoplastic elastomer pvc Polyol Styrenic TPE
elevated temperature
8 5 6
Algaecide thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Air Compressor Fluid rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
8 3-9 5-7 5-6 5 4-7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
room temperature 9
Alcohols
Agricultural Chemicals
thermoplastic elastomer PVC Polyol Styrenic TPE thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 6 6 1-5
8 8 8
elevated temperature
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
822 Chemical Sort with POL Resistance Rating
Alkylnaphthalenesulfonic Acid elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
Alkylsulfonic Acid elevated temperature thermoset Vinyl Ester Resin
8
room ternperature
room temperature 2 2 2-8
Allylidene Diacetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Almond Oil room temperature thermoset Polyester (Chlorendic)
2
elevated temperature thermoset Furane Resin
8
room temperature 6-9
elevated temperature thermoset Epoxy Resin
5-9
Alum 8 8 8 8 8 8 2 8 8 8 8 2 8 8 7 9 7 5
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 5 8 8 5-8 8
8
Aluminum Acetate room temperature rubber Butyl Rubber Chlorohydri!1 Rubber Chlorosulfonated PE Rubber
8 6 6
Aluminum Chlorohydrate (40-500/0) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Aluminum Chlorohydroxide (40-500/0)
Aluminum Bromide room temperature
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8
8 8 8 8 8 8
8 4 8 8
elevated temperature 8 8
8
Aluminum Chlorohydroxide elevated temperature thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8
Aluminum Citrate elevated temperature thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
8 8 8 8
8
Aluminum Fluoride (40-50%)
room temperature
room temperature
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU) thermoset Oiallyl Phthalate Resin Phenolic Resin
thermoset Vinyl Ester Resin
9 7 8 8
Aluminum Chloride room temperature 6 7 8 8 8 6-8 8 8 8 8 8
8 8 8 2 6 6 8 7 9 9 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
8
Aluminum Ethylate
Aluminum Chlorate
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 7-8 8 8 8 8
elevated temperature 1 9 5 1
Aluminum Chloride (5-10 0k)
room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Aluminum Chlorohydrate
room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
Alum (20-30 0/0) thermoset Epoxy Resin
8
Aluminum Borohydride 2 2 2-7
Allyl Chloride thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8 2 1 1-2 8 6 6 2 2 1-2 6
elevated temperature rubber Fluoroelastomer (FFKM)
Allyl Alcohol thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
9
Aluminum Fluoride room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Polyester (Isophthalate)
8 8 8 8 8 8
8 6 8 8 2
4 6 8 1 1 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Vinyl Ester Resin
8
8 7
Aluminum Fluosilicate elevated temperature rubber Fluoroelastomer (FFKM)
8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
823 Chemical Sort with POL Resistance Rating
elevated temperature
Nitrile Rubber Silicone Styrene Butadiene Rubber
rubber
elevated temperature
Aluminum Formate Fluoroelastomer (FFKM)
8
Aluminum Hydroxide (10-20 0/0) 8 8 8 8
Fluoroelastomer (FFKM)
thermoset
2
elevated temperature rubber 8
thermoset 8 8 8 8 8
Aluminum Linoleate elevated temperature rubber Fluoroelastomer (FFKM)
8
Aluminum Nitrate (5-10%) elevated temperature thermoset Vinyl Ester Resin
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
4
6 8
Aluminum Oxalate elevated temperature rubber Fluoroelastomer (FFKM)
8
Aluminum Oxide elevated temperature thermoset Polyester (Chlorendic)
8
Aluminum Phosphate room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber
8 8 8 8 8 8 8 8
4-9
8
8
6-8 7 8
rubber 8 8 8 8 8 8 8 8 8 8 2 2 8 6
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 9
7
elevated temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8 8 8
Amergel room temperature 6
elevated temperature 8
elevated temperature 8 8
Amines room ternperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 2 2 6 6
2 2 2 6 6
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Vinyl Ester Resin
8
Amino Acids room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 6 6 2 2 2 6 2 2 2
Amino Phenol elevated temperature rubber
rubber Chlorosulfonated PE Rubber
elevated temperature thermoset
rubber
thermoplastic elastomer
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Amerex 209
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
Olefinic TPE Polyester TPE Styrenic TPE
8 8 6
thermoset
rubber
room temperature
8 8 8
8
Aluminum Sulfate (30-400/0) Ethylene Propylene Rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Polyester (Bisphenol A)
thermoset Polyester (Bisphenol A)
8
Amine Salts
elevated temperature
rubber
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Polyester (Chlorendic)
Amerex 201
thermoset
thermoset
Aluminum Sulfate 8
elevated temperature thermoset
Polyester (Chlorendic)
8
room temperature Oiallyl Phthalate Resin
9
Aluminum Trichloride (30-400/0)
thermoset
Aluminum Sulfate (20-300/0)
elevated temperature thermoset
4
8 8
elevated temperature Fluoroelastomer (FFKM)
8 8 8 8 8 8 8 8 8 6
8 8 8 8 8 8 8 8 8
Aluminum Sodium Sulfate rubber
rubber
8 8 8 8
elevated temperature
room temperature
Fluoroelastomer (FFKM)
Phenolic Resin
8
rubber
Aluminum Nitrate Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
elevated temperature
rubber
8 8 8 8 8 8 8
Aluminum Trichloride (5-100/0)
thermoset
Fluoroelastomer (FFKM)
8
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
thermoset
Aluminum Salts
elevated temperature thermoset
Fluoroelastomer (FFKM) Neoprene Rubber
thermoset
thermoset
Aluminum Nitrate (50-750/0) Polyester (Bisphenol A)
8
Polyester (Chlorendic)
Aluminum Potassium Sulfate rubber
room temperature
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
elevated temperature
Aluminum Hydroxide
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
elevated temperature
thermoset
Phenolic Resin
rubber
Aluminum Potassium Sulfate «5%)
elevated temperature Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
8
Fluoroelastomer (FFKM)
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
824 Chemical Sort with POL Resistance Rating Amino Resins
Polyester (Chlorendic)
room temperature
Ammonia (S-100/0)
thermoplastic elastomer Olefinic TPE
8
Aminoanthraquinone elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature 8
Aminobenzene room temperature thermoplastic elastomer Olefinic TPE
6
Aminobenzenesulfonic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Aminobenzoic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Aminobenzoic Acid (p-) elevated temperature rubber Fluoroelastomer (FFKM)
8
Aminoethanol (2-) room temperature thermoplastic elastomer Olefinic TPE
8
Aminoethoxyethanol elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
6 6 2 2 2
Aminoethylethanolamine room temperature thermoplastic elastomer Olefinic TPE
6
elevated temperature rubber Fluoroelastomer (FFKM)
8
2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
room temperature
thermoset
2 2
8
8
Ammonium Benzoate
Ammonia room temperature
elevated temperature
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 5 8 9 9 6-8 2-8 6-8 2 1-6 1-8 2-8 6-8 1-8 2-8 2-8 2-9 2-8 2-9 2 2 2 2 9 2
elevated temperature
8 8 8
Ammonium Bicarbonate (S-100k) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Ammonium Bicarbonate (10-20%) room temperature thermoset Polyester (I sophthalate)
2
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Ammonium Bicarbonate (40-S0%) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Ammonium Bicarbonate
rubber Fluoroelastomer (FFKM) Fluorosilicone Silicone thermoset Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 2
0 8 8 8
room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
1 9 2-7 2 7
elevated temperature
thermoplastic elastomer Urethane TPE (TPAU)
9
Ammonium (S-100/0) room temperature 3-9
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8
Ammonium Bifluoride elevated terrlperature
room temperature 2
room temperature
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
Ammonium Bisulfide 2-8
Ammonium Acetate 8
Ammonia «5°k)
elevated temperature
7-8
thermoset Vinyl Ester Resin
elevated temperature
thermoset Furane Resin Polyester (Isophthalate)
elevated temperature rubber Fluoroelastomer (FFKM)
Ammonium Acetate (50-75%) 8
Aminosalicylic Acid (p-) rubber Fluoroelastomer (FFKM)
elevated temperature rubber Ethylene Propylene Rubber
thermoset Polyester (Isophthalate)
Aminosalicylic Acid rubber Fluoroelastomer (FFKM)
Ammonium Arsenate
Ammonium Acetate (40-S00/0) 8
thermoplastic elastomer Olefinic TPE
8-9 8
thermoplastic elastomer Urethane TPE (TPAU)
Aminopyridine
8
room temperature 7-8
roon1 terrlperature
room temperature
thermoset Polyester (Chlorendic)
Ammonium Alum
room temperature thermoplastic elastomer Polyamide TPE rubber Ethylene Propylene Rubber Fluoroelastomer (TFP)
8
elevated temperature 3-4
Ammonium «5%)
Aminoethylpiperazine thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature thermoplastic elastomer Urethane TPE (TPAU)
thermoset Vinyl Ester Resin
Ammonium Acid Sulfite (10-200/0)
Ammonia (20-300/0)
Aminoazobenzene rubber Fluoroelastomer (FFKM)
8
room temperature
elevated temperature thermoset Vinyl Ester Resin
8
Ammonium Bisulfite
thermoplastic elastomer pvc Polyol Styrenic TPE thermoset Polyester (Isophthalate)
8 8 2
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
825
Chemical Sort with POL Resistance Rating
Ammonium Bromate (30-400/0)
Urethane TPE (TPEU)
elevated temperature
Ammonium Chloride
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Ammonium Bromate (40-S00/0) elevated temperature thermoset Vinyl Ester Resin
8
Ammonium Bromide (30-40 0/0) elevated temperature thermoset Polyester {Bisphenol A} Vinyl Ester Resin
8 8
Ammonium Bromide (40-S0%) elevated temperature thermoset Vinyl Ester Resin
8
Ammonium Bromide elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Vinyl Ester Resin
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Ammonium Carbonate (5-100/0) room temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
thermoset Furane Resin Vinyl Ester Resin
8 8
Ammonium Carbonate (10-20%) elevated temperature thermoset Polyester {Bisphenol A} Vinyl Ester Resin
2 2
Ammonium Carbonate (20-300/0) room temperature 2
Ammonium Carbonate
8 8 8 8 8 8 8 8 8 8 8 8 8 7 9 9 1
8 8 8 8 8 8 8 8
Ammonium Citrate (30-400/0)
8 8 6 8 8 8 8 1-2 8 2 2 8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Ammonium Dichromate
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
Ammonium Chloride (S-100/0) room temperature
8 8 8 7
Ammonium Fluosilicate elevated temperature rubber Fluoroelastomer (FFKM)
8
Ammonium Formate elevated temperature rubber Fluoroelastomer (FFKM)
8
Ammonium Hydrogen Fluoride elevated temperature rubber Fluoroelastomer (FFKM)
8
Ammonium Hydroxide «5°-') thermoplastic elastomer Styrenic TPE thermoset Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
7 2 2 2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 7-8
thermoset Polyaminobismaleimide Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane
5-8 2 2 2 6
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 2 7-8
Ammonium Hydroxide (10-200/0) room temperature
rubber Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
8
thermoset Polyester Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
elevated temperature 7 7 7-8
room temperature
~C~~
9
rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
9 9 9 1
thermoset Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature 7 7
Ammonium Fluoride (30-400/0) room temperature thermoplastic elastomer
8 7-8
Ammonium Hydroxide (20-30°-') thermoplastic elastomer PVC Polyol rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber thermoset Polyester Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
Ammonium Fluoride (10-200/0)
9 2 2 2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Ammonium Fluoride (5-100/0)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8
room temperature 8
Ammonium Citrate
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber Fluoroelastomer {FFKM} thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Ammonium Hydroxide (S-100/0)
elevated temperature
elevated temperature
thermoplastic elastomer Styrenic TPE rubber
2
room temperature
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Ammonium Diphosphate
room temperature
thermoplastic elastomer Urethane TPE (TPAU)
6 8 8
elevated temperature
thermoset Polyester (Isophthalate)
Chlorohydrin Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber thermoset Phenolic Resin Polyester (Isophthalate) Polyester Terephthalate
thermoplastic elastomer Olefinic TPE Polyester TPE Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
thermoset Vinyl Ester Resin
elevated temperature
thermoset Polyester (Isophthalate)
elevated temperature
room temperature
elevated temperature 8 8
Ammonium Carbamate
B~~Rubber
7
8-9 8 5-8 8-9 8-9 9 2 2 2
elevated temperature 9 8 8
Ammonium Fluoride 9
room tem peratu re
Note: Numbers refer to PDL Resistance Ratings (O-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
826 Chemical Sort with POL Resistance Rating
Ammonium Hydroxide (30-40%) room temperature thermoset Diallyl Phthalate Resin Phenolic Resin
8 2
Ammonium Hydroxide room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Polyester (Orthophthalate) Urea Resin
Ammonium Oxalate
Ammonium Nitrate (5-100/0)
1 9 2 4-7 3-6 5
elevated temperature 8
8
8
8
8 8
8 8 8 8
Ammonium Lignosulfonate (40-50 0/0) elevated temperature 8 8
room temperature
9
elevated temperature rubber Fluoroelastomer (FFKM)
7-8 8 8
Ammonium Nitrate 8 8 8 8 8 8 8 8 4 6 8 2 8 7 9 9 2 5
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature
thermoset Vinyl Ester Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
Ammonium Metaphosphate elevated temperature 8
elevated temperature
elevated temperature 8
Ammonium Persulfate (5-10%) 8
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
8
Ammonium Perchloride rubber Fluoroelastomer (FFKM)
Ammonium Nitrate (50-750/0)
elevated temperature 8
5
Ammonium Perchlorate
elevated temperature
8 8 8 8 8 8 8
Ammonium Nitrite
Ammonium Lignosulfonate
Ammonium Pentaborate
rubber Ethylene Propylene Rubber thermoset Polyester (Chlorendic) Polyester (Isophthalate)
room temperature
8
8
thermoset Vinyl Ester Resin
room temperature
5-6 8
8
Ammonium Pentaborate (10-200/0) thermoset Vinyl Ester Resin
Ammonium Nitrate (40-500/0) thermoplastic elastomer Styrenic TPE
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
elevated temperature
Ammonium Nitrate (20-300/0) elevated temperature
thermoset Polyester (Bisphenol A)
elevated temperature
elevated temperature
elevated temperature 8
thermoset Vinyl Ester Resin
8 8 8
Ammonium Lauryl Sulfate
Ammonium Metatungstate
8
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
8
8 6 8 8 6 6-8 6-7 2-9 8-9 1-9 2 2 1 8-9 2
Ammonium Lauryl Sulfate (20-30%)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Vinyl Ester Resin
room temperature
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature
thermoset Polyester (Chlorendic)
thermoset Vinyl Ester Resin
Ammonium Lactate
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
Ammonium Molybdate
thermoset Vinyl Ester Resin
8
Ammonium Orthophosphate
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8 7 5-9 8
Ammonium Iodide rubber Fluoroelastomer (FFKM)
6 6 6
elevated temperature
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber thermoset Epoxy Resin Phenolic Resin
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8 8 8 6 8
room temperature rubber Butyl Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber
8 8 8 8 2 2 2
Ammonium Persulfate (20-30%) elevated temperature thermoset Polyester (Isophthalate)
8
Ammonium Persulfate room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 1-2 2 2 2 5
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
Ammonium Phosphate (10-200/0) elevated temperature rubber Ethylen.e Propylene Rubber
7-8
Ammonium Phosphate (20-300/0) elevated temperature rubber Ethylene Propylene Rubber
7
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
827
Chemical Sort with POL Resistance Rating
Ammonium Phosphate (50-75%) room temperature 2-6 2
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
rubber
8
Fluoroelastomer (FFKM)
8 8 8
Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
room temperature
rubber
thermoset
8
Fluoroelastomer (FFKM)
Ammonium Sulfate (10-200/0) 8 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 6-8 8 8 8 8 8
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
7 9 2-9 2 3
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8 8
Ammonium Phosphite elevated temperature 8
Ammonium Picrate elevated temperature 8
Ammonium Polysulfide elevated temperature rubber Fluoroelastomer (FFKM)
8
Vinyl Ester Resin
8
Ammonium Rhondanide elevated temperature Vinyl Ester Resin
8
room temperature
8
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8 8 2 1 8 8 8 8 2 8 8 6 7 9 9 5
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature thermoset
8 8 8 8 8 8 8 8 8
elevated temperature rubber
Ammonium Sulfide
8 8 8
rubber
Ammonium Thioglycolate elevated temperature rubber Fluoroelastomer (FFKM)
4 4
8 8 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber
8
room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic)
8 8
Ammonium Thiosulfate room temperature Polyester (Isophthalate)
8
2
rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
8 8
Ammonium Tungstate elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
rubber
8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
elevated temperature
8
8
Fluoroelastomer (FFKM)
thermoset
thermoset
elevated temperature
Furane Resin Polyester (Chlorendic)
room temperature thermoplastic elastomer
8
Polyester (Chlorendic)
Ammonium Thiocyanate
Ammonium Thiosulfate (50-750/0)
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
8
Polyester (Bisphenol A)
Ammonium Thiocyanate (40-500/0)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature thermoset
thermoset
Ammonium Salts
8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Ammonium Thiocyanate (20-300/0) 6 6-8 8 8
Ammonium Sulfide (20-300k)
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone
Ammonium Sulfate
Fluoroelastomer (FFKM)
elevated temperature
PVC Polyol
6-7
rubber
Ammonium Salicylate Fluoroelastomer (FFKM)
thermoset
Ammonium Sulfate Nitrate
thermoset
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
elevated temperature rubber
thermoset
thermoset
thermoset
Ammonium Thiocyanate (10-20%)
elevated temperature
rubber Fluoroelastomer (FFKM)
8 8 8
Ammonium Sulfate (40-50%)
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
8
Fluoroelastomer (FFKM)
Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate)
thermoset
rubber Fluoroelastomer (FFKM)
rubber
elevated temperature
thermoplastic elastomer
thermoset
2
Polyester (I sophthalate)
elevated temperature
thermoset
Ethylene Propylene Rubber
8 8 8
Furane Resin Polyester (Chlorendic) Vinyl Ester Resin
Ammonium Sulfite
Ammonium Sulfamate
room temperature PVC Polyol Styrenic TPE
8
Fluoroelastomer (FFKM)
thermoset
thermoset
Ammonium Phosphate thermoplastic elastomer
6
Styrene Butadiene Rubber
elevated temperature
rubber
thermoset Polyester (Chlorendic) Polyester (I sophthalate)
8
Styrene Butadiene Rubber
elevated temperature
8
thermoset
8 8 8 8 8 8 8 2
Furane Resin
8
Ammonium Valerate elevated temperature rubber Fluoroelastomer (FFKM)
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
828 Chemical Sort with POL Resistance Rating
room temperature
3
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
8 2 2 2 4-8 1-2 1 1 1-2 1-2 1-2 1-9 2 2 8 1-2 2
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
7 2 9 9 2 2 8
5 2
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FFKM)
1 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 2 2 2 2-9
8
Amyl Butryate elevated temperature rubber Fluoroelastomer (FFKM)
8
7 2
elevated temperature
5 3
PVC Polyol Styrenic TPE
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Silicone Styrene Butadiene Rubber
2 2 2 8 6 2 2 2 2
2 2 1-2 8 8 8 2 2 1-2 4 2 1-2 2
elevated temperature 8
Amyl Nitrate elevated temperature rubber Fluoroelastomer (FFKM)
8
Amyl Nitrite elevated temperature rubber Fluoroelastomer (FFKM)
8
Amyl Phenol room terrlperature thermoset
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2 2
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1
7 1
7
elevated temperature
elevated temperature
rubber
rubber
Fluoroelastomer (FFKM) 8 2 2-6 2 2-8
8
Amyl Propionate elevated temperature rubber Fluoroelastomer (FFKM)
8
Anderol L744 room temperature rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8 8 6 2 2 1-2 4 2 1-2 2
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
rubber
rubber
Fluoroelastomer (FFKM)
8
Amyl Cinnamaldehyde elevated temperature
2 2 2 8 6 2 2 6 6 2 2 2
Anderol L774
elevated temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
8 4-8
5-7
Anderol L826
rubber Fluoroelastomer (FFKM)
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
room temperature
9 9
room temperature
Fluoroelastomer (FFKM)
thermoplastic elastomer
8
rubber
rubber
Amyl Chloronaphthalene
8 8 8 4 8 6-9 6-8 8 6 8-9 6-9 6 2 6-8 1-2 6
Fluoroelastomer (FFKM)
Amyl Naphthalene
Amyl Chloride
4-8 8
thermoset
8
room temperature rubber
8 9 8 8 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Fluoroelastomer (FFKM)
5-7 3
rubber
Chlorosulfonated PE Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE) Neoprene Rubber
elevated temperature rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate)
2 8 1-2 8 8 2 8 8 8 2
thermoset
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
Amyl Alcohol Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
rubber
rubber 1-2 2 2
7
elevated temperature
room temperature
thermoplastic elastomer Olefinic TPE Polyester TPE pvc Polyol Styrenic TPE
Urea Resin
Amyl Borate
Amyl Acetate
8 8 8 8 8
Amyl Laurate elevated temperature rubber Fluoroelastomer (FFKM)
8
Amyl Mercaptan room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
7 1
7
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
2 2 2 8 6 2 2 6 6 2 2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plas tics Design Library
829 Chemical Sort with POL Resistance Rating
Styrene Butadiene Rubber
2
Styrene Butadiene Rubber
elevated temperature
elevated temperature
rubber Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
7-9
Anderol L829 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 6 2 2 6 6 2 2 2
4
8 8 6-8 8 8
Aniline Hydrochlorine
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
elevated temperature thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM)
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8
Aniline Sulfate (20-300/0)
rubber Fluoroelastomer (FFKM)
Aniline Sulfate room temperature
elevated temperature
thermoset Polyester (I sophthalate)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Urea Resin Vinyl Ester Resin
6-9 1-8 2-9 6 2-3 2 6 2 2-6 3 6-8 4-9 4-9 8 4-7 2-9 2-9 1-6 2-6 2 5-7 1-4 2-6 7 2-7 8 2 2 2 2 2 1 2-8
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Furane Resin Phenolic Resin
3-7 8 3-6 8 8-9
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Animal Fats room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
2-6 8 2-6 2-6 8 8 8 2 4-6 8 2 6-8 6 2 7 9 5
elevated temperature thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM) Silicone thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8 3-6 8 8
room temperature 6 2 6 6 6 6 8 8 2 6 8 2 6 6 2
3
Ansul's Ether 4 2 4 2 1 4 2 2 4 8 6 1-2 2
eleYated temperature rubber Fluoroelastomer (FFKM)
8
Anthracene elevated temperature rubber Fluoroelastomer (FFKM)
8
Anthranilic Acid elevated temperature rubber Fluoroelastomer (FFKM)
Animal Oils thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 6 6 6 6 2 6 2 2 1-2
room temperature thermoplastic elastomer Urethane TPE (TPAU)
room temperature 8
8 8 8
Anon
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature 2 6
8 7-8 8 8 8
elevated temperature
Aniline Hydrochloride thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
2
Aniline Sulfite rubber Fluoroelastomer (FFKM)
8
Anodizing Bath
elevated temperature
room temperature
8
elevated temperature 8
elevated temperature
Aniline
8
Anisoyl Chloride
elevated temperature
rubber Fluoroelastomer (FKM)
8
5
Anisole
rubber Fluoroelastomer (FFKM)
thermoset Polyester (Isophthalate)
7 9 5
8
Anthraquinone elevated temperature rubber Fluoroelastomer (FFKM)
8
Anthraquinonedisulfonic Acid «50/0) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 2-8 8 8
Antibiotics room temperature thermoset Urea Resin
5
Antifreeze (40-500/0) elevated temperature rubber Fluoroelastomer (FKM)
7
Antifreeze room temperature thermoplastic elastomer
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
830 Chemical Sort with POL Resistance Rating
Olefinic TPE
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 4 2 8 8
thermoset Polyaminobismaleimide
9
elevated temperature thermoplastic elastomer Olefinic TPE Polyamide TPE
4-8 7-8
rubber Fluoroelastomer (FFKM)
8
Antimony Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin
8
Antimony Oxychloride elevated temperature thermoset Furane Resin
8
Antimony Pentachloride room temperature thermoset Polyester (Isophthalate)
2
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
room temperature
thermoset
rubber
Polyester (Chlorendic)
8
Apple Juice elevated temperature thermoset Polyester (Bisphenol A)
8
Aqua Regia room temperature thermoplastic elastomer Olefinic TPE pvc Polyol Styrenic TPE
2 2-8 8
6
Antimony Salts room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
2 4 4 6 6 4 1-2 2-8 1-6 2 2 1 1-2 2
thermoset Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2-5 2 2
2 2
8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature Fluoroelastomer (FFKM)
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature Fluoroelastomer (FFKM) Silicone
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2-8 8 2 2
elevated temperature rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Argon
elevated temperature
room temperature
rubber
elevated temperature Fluoroelastomer (FFKM)
8
Antimony Trichloride elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
elevated temperature
thermoplastic elastomer
2 2 4 2 8 6 2
Arquad C50 elevated ternperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8 8 8 8
room temperature 8 8
thermoset 2
Polyester (Isophthalate)
elevated temperature thermoset Polyester (Bisphenol A)
2 3
PVC Polyol Styrenic TPE
thermoplastic elastomer
room temperature 8
8
room temperature
Olefinic TPE
Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8 8 8 8 8 8 8 6-8 8
Arsenic Acid
Armeen C
elevated temperature rubber
thermoset
8 8 6
thermoset 6
Antimony Trioxide
Antistat «50/0)
Aromatic Hydrocarbons
Fluoroelastomer (FFKM)
elevated temperature
Fluoroelastomer (FFKM)
2
rubber
Armeen
Fluoroelastomer (FFKM)
6
elevated temperature
Antimony Trifluoride rubber
8
rubber
rubber
rubber
8 8
room temperature 8
elevated temperature 8
2 2 4-6 8 8 6 2 2-9 1-6 2 4-8 2
rubber
Antimony Sulfate Fluoroelastomer (FFKM)
8
Aroclor 1254
Fluoroelastomer (FFKM)
Antimony Tribromide
6 2 4-6 8 8 6 2 2 4 2 6 2
Aroclor 1260
rubber
Arachidic Acid
thermoplastic elastomer
8
rubber
rubber
Fluoroelastomer (FFKM)
rubber
Polyester (Chlorendic)
Aroclor 1248
thermoset
elevated temperature
PVC Polyol Styrenic TPE
8
elevated temperature 8
Antimony Pentafluoride Fluoroelastomer (FFKM)
Vinyl Ester Resin
Apache (40-500/0)
8
6
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber
8 8 8 8 8 8 8 6 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
831 Chemical Sort with POL Resistance Rating
Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 4 8 8
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 7 3
elevated temperature rubber Fluoroelastomer (FFKM)
8
Arsenic Oxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Arsenic Salts
elevated temperature rubber
Urethane TPE (TPAU) Urethane TPE (TPEU)
Fluoroelastomer (FFKM)
rubber
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
elevated temperature
thermoplastic elastomer
rubber
pvc Polyol
8 8
Styrenic TPE
Fluoroelastomer (FFKM)
elevated temperature
room temperature
rubber
thermoplastic elastomer
Fluoroelastomer (FFKM) 6
rubber Ethylene Propylene Rubber Neoprene Rubber Nitrile Rubber
4 8 8
elevated temperature Ffuoroelastomer (FFKM)
8
Arsenic Trioxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Arsenic Trisulfide elevated temperature rubber Fluoroelastomer (FFKM)
8 )
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8
thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
room temperature thermoset
2
elevated temperature 8
elevated temperature rubber 8
Arsine
Olefinic TPE
Polyester (Isophthalate)
8 9 8-9 8
elevated temperature rubber 8
Fluoroelastomer (FKM)
ArylOrthosilicate
ASTM Oil No.1 (75-97%)
elevated temperature
elevated temperature
rubber
Fluoroelastomer (FKM)
8
7
ASTM Oil No.1
ARM 200 elevated temperature
room temperature
thermoplastic elastomer
thermoplastic elastomer 4
Olefinic TPE Polyamide TPE Polyester TPE
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 8 9
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE Urethane TPE Urethane TPE (TPAU)
1-8 2-9 0-9 9 0-9
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone Silicone
1
8 9 9 4-8
ASTM 011 No.2 room temperature thermoplastic elastomer Olefinic TPE Urethane TPE rrPAU) Urethane TPE (TPEU)
7-8 9
9
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 8 2 6 8 4 6
2 2
elevated temperature Olefinic TPE Polyester TPE Urethane TPE (TPAU)
3-9 6-8 3-9
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone Silicone
8 9
9 8-9
room temperature 7 7 7 9
rubber 8
8 8-9 2
ASTM Oil No.3
ASTM Hydrocarbon Test Fluid
rubber
Fluorinated TPE
6
room temperature Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
2 6-8 2-4 8 8 8 2 8 8 8
thermoplastic elastomer
thermoset
elevated temperature
Ascorbic Acid
7 9 7
thermoset
Arsenites
Fluoroelastomer (FFKM)
2 8 2-5 7 1-3 8 8 6 2 4-5 6 8 6 1-2 2
ASTM Fuel A
thermoset
Fluoroelastomer (FFKM)
6 7
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
Arsenious Acid
Fluoroelastomer (FFKM)
room temperature
thermoplastic elastomer
thermoset
Vinyl Ester Resin
8
Asphalt Olefinic TPE Polyester TPE
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature 8
elevated temperature
elevated temperature
Polyester (Isophthalate)
1-2 2
thermoset 8 8
Arsenious Acid (30-400/0) Vinyl Ester Resin
2
rubber
rubber
Arsenious Acid (10-20%
2 2 1-2 8 8 6 2 2 6 2
Aspartic Acid
Arsenic Trichloride Olefinic TPE
8
Askarel
8-9 6-9
8-9 7-9 9
thermoplastic elastomer Olefinic TPE Polyam ide TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
4-6 5-9 8 6-9 6-9
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-3 8
9 9 8-9 8
2 2 8 4 6 4-7
2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
832 Chemical Sort with POL Resistance Rating
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyam inobismaleimide Urea Resin
7 7 8 9 9
elevated temperature thermoplastic elastomer Fluorinated TPE Olefinic TPE Polyamide TPE Polyester TPE Urethane TPE Urethane TPE (TPAU)
6 1-9 1-9 0-8 7 0-9
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (VOF/CTFE) Fluorosilicone Neoprene Rubber Silicone
2-5 1 8 6-9 4-9 5-7 5-8 5 1-6
ASTM Oil No.4 room temperature 2 2 2 8 6 2 2 6 4 2 2 2
elevated temperature 8
ASTM Oil No.5 elevated temperature
8 9 7-9 6-9
rubber 2 6-8 8 2 8 9 9 5-8 2 6-8 8 8 8 2-6 2
elevated temperature thermoplastic elastomer Olefinic TPE Polyester TPE Urethane TPE (TPAU)
9 8 9
rubber Fluoroelastomer (FFKM) Fluorosilicone
8 3
ASTM Reference Fuel B (75-970/0) room temperature thermoplastic elastomer Polyamide TPE
4-5
elevated temperature thermoplastic elastomer Polyam ide TPE
2 2 4 2 8 7-9 6-9 2 4-8 2 2 8 8 6
2 2
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE Urethane TPE (TPAU)
rubber Fluoroelastomer (FFKM) Fluorosilicone Silicone
8 2-5 1
ASTM Reference Fuel C (10-200/0) elevated temperature thermoset 7-8
ASTM Reference Fuel C (50-75°,,'0) room temperature 2
elevated temperature thermoset
4
7-8
ASTM Reference Fuel C (75-970/0) room temperature thermoplastic elastomer Fluorinated TPE Olefinic TPE Polyam ide TPE
3 1-4 3-6
rubber Fluoroelastomer Fluoroelastomer (FKMfTFE)
6 6
elevated temperature 5 4
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
8 4-7 5-7
ASTM Reference Fuel D room temperature thermoplastic elastomer Olefinic TPE
2-5
rubber Fluoroelastomer (FKM)
8-9
ASTM Test Fluid 101 elevated temperature rubber Fluorosilicone Silicone
2-8 6
Atrex room temperature Fluoroelastomer Fluoroelastomer (FKMrrFE)
8 7
Aurex 256 elevated temperature rubber Fluoroelastomer (FFKM)
8
Automatic Transmission Fluids room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2-4 2 8 8 2 6 4-8 8 6 2 2
Automotive Polish room temperature rubber Polyurethane
8
Avtag elevated temperature rubber 8
Avtur elevated temperature Fluoroelastomer (FKM)
thermoplastic elastomer 5 2-7 4-9
6 4-8 4-5
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
2-9 3-8 7-8
rubber
ASTM Reference Fuel C room temperature Fluorinated TPE Olefinic TPE Polyester TPE Urethane TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Polyamide TPE Polyester TPE Urethane TPE (TPAU)
Fluoroelastomer (FKM)
rubber Fluoroelastomer Fluoroelastomer (FKMfTFE)
thermoplastic elastomer
rubber 7 2-8 6-9 7-8
Phenolic Resin
thermoplastic elastomer
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Olefinic TPE 4-9
ASTM Reference Fuel A room temperature Olefinic TPE Urethane TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
thermoplastic elastomer
thermoplastic elastomer Polyester TPE
1-9 2-8 7-9 6 5-8 4-7
Phenolic Resin
rubber Fluoroelastomer (FFKM)
Olefinic TPE Polyam ide TPE Polyester TPE Urethane TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
2 2
elevated temperature
thermoplastic elastomer
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Silicone Styrene Butadiene Rubber
ASTM Reference Fuel B room temperature
2 2 2 2 7-8 5-9 4-9 2 6 2 2 6 6 2
9
Azobenzene elevated temperature rubber Fluoroelastomer (FFKM)
8
bis(2-Ethylhexyl) Sebacate room temperature rubber
5
Silicone
bis(2-Hydroxyethyl) Amine room temperature thermoplastic elastomer
pvc Polyol
8-9
rubber Natural Rubber Neoprene Rubber Nitrile Rubber
8-9 8-9 8-9
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
833 Chemical Sort with POL Resistance Rating
Barium Hydroxide (5-10%)
room temperature
room temperature
thermoset Polyester (Isophthalate)
2
thermoset 8 8 8
Barium Bromide
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Ethylene Propylene Rubber
room temperature
thermoset
thermoplastic elastomer
2 8
elevated temperature 8
thermoset 8 8
6-8 8
Barium Chlorate elevated temperature rubber Fluoroelastomer (FFKM)
8
Barium Chloride (20-300/0) elevated temperature 7
8 8 8 8
8 8 8 8 8 8
8 8 8 8 7 7 7 1
8
thermoset
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8
8 8 8 8 8 8
2 2
8 8
8 8 8 8
Barium Iodide elevated temperature rubber Fluoroelastomer (FFKM)
8
Barium Nitrate room temperature Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (FFKM)
7 7 7 1
elevated temperature rubber
8
Fluoroelastomer (FFKM)
8
8
8
Barium Salts
room temperature
room temperature
thermoset
PVC Polyol Styrenic TPE
1
8
thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Barium Sulfide room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
8 8 8 8
8 8 8 8 8 6 8 8 6
thermoset Polyester (Isophthalate)
2
Fluoroelastomer (FFKM)
8 8 8 8
Barium Sulfite 8
Barley elevated temperature thermoset Vinyl Ester Resin
8
8
Battery Acid (20-30%) room temperature thermoplastic elastomer
thermoplastic elastomer 5 5
elevated temperature
Vinyl Ester Resin
rubber
Barium Fluoride
8 8 8
thermoset 8
Barium Polysulfide Fluoroelastomer (FFKM)
8 8
elevated temperature
elevated temperature 8 8
8
8 8
rubber Fluoroelastomer (FFKM)
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
8
8 8 8
thermoset
rubber
thermoset
8 8 8
rubber 8
Barium Peroxide Fluoroelastomer (FFKM)
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluo rosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated terriperature
Barium Oxide
8
rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
7 8
thermoset
8 8
Barium Cyanide~~ elevated temperature
Polyester (Bisphenol A) Vinyl Ester Resin
8
8 8
rubber
rubber
Fluoroelastomer (FFKM)
6 7
elevated temperature
elevated temperature
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature
thermoset
thermoset
Fluoroelastomer (FFKM)
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
8
rubber
rubber
rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Polyester (Chlorendic) Polyester (Isophthalate)
Fluoroelastomer (FFKM)
Barium Sulfate
elevated temperature
Barium Chloride room temperature Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7-8
thermoset
rubber Ethylene Propylene Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8 8
elevated temperature
rubber
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Olefinic TPE Polyester TPE
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
rubber
Barium Hydroxide
Barium Carbonate
Fluoroelastomer (FFKM)
8 8
elevated temperature
room temperature Polyester (Isophthalate) Polyester Terephthalate
2 2
Barium Hydroxide (10-200/0)
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber
Urea Resin
Barium Acetate
Polyamide TPE
8 8
3-8
elevated terrlperature thermoplastic elastomer
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
834 Chemical Sort with POL Resistance Rating
Polyamide TPE
0-3
Beer room temperature thermoplastic elastomer Olefinic TPE Polyester TPE Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
6 8 9 8 8 7 8 8 8 8 8 8 2 2 8 8
7 9 2
7 2 2
7 7 2
elevated temperature rubber Fluorosilicone Silicone thermoset Vinyl Ester Resin
9 9 8
room temperature 9 9 9 9
room temperature 7 7 7 9
Beet Sugar Liquors room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8
elevated temperature 8
Benzaldehyde room temperature thermoplastic elastomer Olefinic TPE
rubber Fluoroelastomer (FFKM) 'thermoset Phenolic Resin Vinyl Ester Resin
8 9 8
Benzaldehydedisulfonic Acid elevated temperature 8
elevated temperature thermoset Vinyl Ester Resin
2
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Urea Resin Vinyl Ester Resin
8
Benzamide
4-5 1 8 4 8 2 2 2 2-7
room temperature 3
Benzene Hexachloride elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
Benzenedisulfonic Acid
8
7 2 9 9 2 8 2 2 6 9 2-8
Benzene Chloride
rubber Fluoroelastomer (FFKM)
Benzanthrone
9 3-8 5·6 4-6 4-8 1-2 1-4 1-8 4 2 9 1-2 2
elevated temperature thermoplastic elastomer Polyamide TPE Polybutadiene rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
rubber Nitrile Rubber
8
elevated temperature
elevated temperature
thermoset Polyester (Chlorendic)
rubber Fluoroelastomer (FFKM)
Benzenesulfonic Acid (20-30%)
8
8
room temperature thermoset Polyester (Isophthalate)
room temperature 8 2 8 8 8 8 8 8 8 8 2 2 8 8
Bentec (40-50%) thermoset Polyester (Chlorendic)
2 2 6 2 2 2 2 2-7
Benzene (20-300/0)
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 2 2 2 5·8 2 1-3 6 2-4 2-6 1-2 1-2 2 2 8 2-6 2
Benzalkonium Chloride
Beet Pulp thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1-2 3
elevated temperature
rubber Fluoroelastomer (FFKM)
Beet Juice thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2
elevated temperature
rubber Fluoroelastomer (TFP)
6
Benzene (30-40%) room temperature thermoset Vinyl Ester Resin
2-8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Benzene (40-50%)
Benzenesulfonic Acid (40-50%)
room temperature
elevated terrlperature
rubber Fluoroelastomer (TFP)
6
Benzene
thermoset Vinyl Ester Resin
8
Benzenesulfonic Acid
room temperature
room terrlperature
thermoplastic elastomer Olefinic TPE Polyamide TPE Polybutadiene Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer
thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
2-4 2-9 1 6-8 1-5 3 2-5 2 2 2 2 1-2 8
5 8 2 6 2-4 8 8 6 2 8 1-2 2 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
835 Chemical Sort with POL Resistance Rating Silicone Styrene Butadiene Rubber
1-2 2
thermoset Polyester (Isophthalate)
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 2-8 2 8
Benzidine elevated temperature 8
elevated temperature rubber 8
Benzil elevated temperature Fluoroelastomer (FFKM)
8
Benzilic Acid elevated temperature Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Benzyl Alcohol
rubber
rubber
7 9
Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
elevated temperature
thermoset
rubber 8
Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Benzochloride
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
rubber 6 2 8 8 8 2 2 2 2 2
Furane Resin
8 8
3
rubber 2 2 2-4 8 8 6 2 2 2-4 2 4-6 2
thermoset 1
7 7 3
Benzoyl Chloride
8 8
2 8 2 2 2 2-8
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
8 8 8 8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 2 6 8 8 8 2 2 1-2 2 2
rubber
3 1-2 8 6 2 1 2 2 2 2
elevated temperature
8
thermoset Furane Resin
8
Benzyl Bromide elevated temperature rubber Fluoroelastomer (FFKM)
8
Benzyl Butyl Phthalate elevated temperature rubber Fluoroelastomer (FFKM)
8
Benzyl Chloride
rubber
elevated temperature
DiallyJ Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyurethane Vinyl Ester Resin
Fluoroelastomer (FFKM) 2
thermoset
rubber
thermoset
elevated temperature
rubber
Benzoyl Peroxide
thermoset
8 8
room temperature
Fluoroelastomer (FFKM)
Furane Resin
5
thermoset
elevated temperature
6 2 6 6-8 8-9 8 8 6 2 6 1-2 2 2 6 2
room temperature 8
room temperature
rubber
0 0
Benzyl Benzoate
Benzoyl Benzoic Acid
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Furane Resin Phenolic Resin
rubber
Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber
0
5 3
rubber
thermoset
Benzotrifluoride
Polyester (Bisphenol A) Vinyl Ester Resin
Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8
elevated temperature Fluoroelastomer (FFKM)
thermoplastic elastomer
8
elevated temperature
thermoplastic elastomer
Fluoroelastomer (FFKM)
2 2 2
thermoset
Vinyl Ester Resin
room temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8
thermoset
Benzoic Acid
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Benzotrichloride
Benzocatechol
Olefinic TPE PVC Polyol Styrenic TPE
8 6
elevated temperature Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 6 8 8 6 2 2
rubber
thermoset
Fluoroelastomer (FFKM)
8
room temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
8
room temperature
rubber
Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
8
rubber
Benzonitrile
room temperature Alkyd Resin Urea Resin
8
elevated temperature
Benzine thermoset
rubber
elevated temperature
rubber
Benzoquinone
rubber
Benzoylsufonilic Acid
Benzyl Acetate
Fluoroelastomer (FFKM)
8
elevated temperature Fluoroelastomer (FFKM)
elevated temperature
rubber
Fluoroelastomer (FFKM)
elevated temperature
Benzophenone
Benzidine 3-Sulfonic Acid Fluoroelastomer (FFKM)
8 8 8 8 8
Benzoin
Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber
2 2 1-2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
836 Chemical Sort with POL Resistance Rating
Fluoroelastomer Ftuoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 6-8 2 2 1-2 2 2 1-2 2
thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 8 2 2 2 2 2-8
rubber 8
thermoset Furane Resin Phenolic Resin
8 8
Benzyl Phenol elevated temperature rubber Fluoroelastomer (FFKM)
8
Vinyl Ester Resin
Benzylamine
rubber
8
thermoset 8
Beryllium Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
Beryllium Fluoride elevated temperature rubber Fluoroelastomer (FFKM)
8
Bleach (30-400/0)
Bitumen Urethane TPE (TPAU)
8
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin
rubber 8
Biobor JF
9 2 2
3
8-9
2 2 1-2
8 8 6 2 2 1-2
7
7
8
Bismuth Carbonate 8
Bismuth Nitrate elevated temperature rubber 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2
2 8 2-8
elevated temperature 8
thermoset Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate) Vinyl Ester Resin
5 8 8 5-8 4-9 7-9
5
PVC Polyol
elevated temperature Vinyl Ester Resin
8
Blood 8
room temperature thermoset
8 2
8
8 8 8 8
Bleach (10-200/0) room temperature
7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Urea Resin
9
3 5 3
elevated temperature thermoset 8
Vinyl Ester Resin
Blow Down elevated temperature thermoset
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
6
thermoset
thermoset
rubber
4 1-8 2 2-5
thermoplastic elastomer 8 8
elevated temperature
elevated temperature
2
Bleach Liquor
rubber
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
6-8
room temperature
Bleach (5-10%)
6 8
8 8 8 8 8
thermoset
Fluoroelastomer (FFKM)
Bleach «50/0) elevated temperature
9
6-8 2-6
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
2
elevated temperature
Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
8
Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
2
7 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (TFP)
room temperature thermoplastic elastomer
8 2
thermoset
thermoset
8
Bleach
Furane Resin Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
room temperature
8 8
rubber 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
elevated temperature
3 7
elevated temperature
Polyester (Chlorendic) Vinyl Ester Resin
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoset
thermoset
9 9
thermoset
room temperature
Beryllium Sulfate
Bismuth Oxychloride
Bleach (40-500/0) elevated temperature
Black Liquor
elevated temperature
Fluoroelastomer (FFKM)
9
elevated temperature
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
9
Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoplastic elastomer
elevated temperature
Fluoroelastomer (FFKM)
thermoplastic elastomer
thermoplastic elastomer
rubber
Fluoroelastomer (FFKM)
room temperature
room temperature
Beryllium Oxide rubber
8
8
room temperature
Benzyltrimethylammonium Chloride (50-75%) elevated temperature Vinyl Ester Resin
Vinyl Ester Resin
Fluoroelastomer (FFKM)
rubber
rubber Fluoroelastomer (FFKM)
room temperature thermoset
Blast Furnace Gas
elevated temperature
8 8
Bleach (20-300/0)
elevated ternperature
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
Polyester (Bisphenol A) Vinyl Ester Resin
8
Bittern
elevated temperature Fluoroelastomer (FFKM)
thermoset
thermoset
thermoset
8
Vinyl Ester Resin
elevated temperature
elevated ternperature
Benzyl Salicylate rubber
8
Bisulfite
Urethane TPE (TPAU)
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8 2
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
6 2-8
7
2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
837 Chemical Sort with POL Resistance Rating
room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 7 7
Borax room temperature thermoplastic elastomer Olefinic TPE Polyester TPE
6 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 6
6 8
6 2 8 6 6
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7
3 5
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
8 8 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
room temperature 8 8 8 8 8 6
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Boric Oxide elevated temperature rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8
Brake Fluids room temperature Olefinic TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
5-9 2-9 1-7 2-5
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
6-8
6 7 8 2 1 8 1-2 6 4 2 4-8 8
thermoset 8 8 8
thermoset
8
Borneol
Phenolic Resin Urea Resin Vinyl Ester Resin
9
3 2
elevated temperature thermoplastic elastomer Olefinic TPE Polyamide TPE Urethane TPE (TPAU)
1-9 8-9
3
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (VDF/CTFE) Fluorosilicone Polyurethane Silicone
8 8
3 4-5 2 2 4-8
thermoset
elevated temperature
Vinyl Ester Resin 8
8
room temperature
rubber Fluoroelastomer (FFKM)
6 6
8
Bornyl Chloride
elevated temperature rubber 8
elevated temperature Fluoroelastomer (FFKM)
8
elevated temperature rubber 9 6-8 6-8
Fluoroelastomer (FFKM)
elevated temperature
elevated temperature rubber
Ethylene Propylene Rubber
Fluoroelastomer (FFKM)
8
Boric Acid (30-400/0)
Boron Trichloride
elevated temperature
elevated temperature 8 8 8 8 8
Fluoroelastomer (FFKM)
Brines (20-300/0) 8
Brines room temperature
8
6
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Silicone
8 8 8 8 8 8 8 8
thermoset Diallyl Phthalate Resin Phenolic Resin Phenolic Resin
elevated temperature rubber
Boron Trioxide
8 8 8 8
rubber
Boron Trifluoride Fluoroelastomer (FFKM)
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Vinyl Ester Resin 8
rubber
thermoset
thermoset
thermoset
Boron Tribromide
rubber
3
elevated temperature
Boron Phosphate
room temperature
7
elevated temperature
rubber 8
thermoset Alkyd Resin Urea Resin
Boron Hydride 8
7 9 9 7
room temperature 8
Bornyl Formate Fluoroelastomer (FFKM)
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Brine
elevated temperature Fluoroelastomer (FFKM)
Brewery Slop thermoset
elevated temperature
thermoplastic elastomer
room temperature
1 7 7
elevated temperature
rubber
Boric Acid «50/0)
Boric Acid
thermoplastic elastomer
rubber
6 6 2 2
thermoset
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 7 8 8 8 8 8 8 8 2 8 8 8
thermoset
6
rubber
Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
Bornyl Acetate
elevated temperature
Polyester (Chlorendic)
6 8 8 8
rubber
Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FFKM)
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
rubber
Bordeaux Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
thermoplastic elastomer
Blue Vitriol
6
9 5 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
838 Chemical Sort with POL Resistance Rating
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin Vinyl Ester Resin
8
Bromine Trifluoride
8 8 8 8
rubber
Bromic Acid elevated temperature rubber Fluoroelastomer (FFKM)
Bromine «5 %
8
)
elevated ternperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Bromine (5-100/0) elevated temperature
room temperature
elevated temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Olefinic TPE
thermoset Alkyd Resin Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
1 1 2 1-2 2 2 2 2 2-8
3-6
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature Fluoroelastomer (FFKM)
8 8 8
Bromine Pentafluoride
Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 2 2 2 2 2 2 2 2 2
thermoset
Bromobenzylphenyl Ether (p-) rubber
room temperature Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
2 8
elevated temperature 6
6
elevated temperature rubber Fluoroelastomer (FKM)
8
thermoplastic elastomer 4
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
elevated temperature Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Polyester (Bisphenol A) Vipyl Ester Resin
8 8
Bunker Oil room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 7 9
Butadiene Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber Polyester (Isophthalate)
8
Fluoroelastomer (FFKM)
rubber 8
room temperature thermoplastic elastomer
elevated temperature
Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber 8
Bromopropionic Acid
8 5 3 7 7
room temperature
rubber
thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
7-8 7-9 7-8 5-6 1
Bromotoluene rubber
8
Butane
Bromomethane
elevated temperature
2 2 6 4 6 6-8 5 6 2 6 1-2 4 2 1-2 2
elevated temperature rubber
Fluoroelastomer (FFKM)
8
8
thermoset
Bromoform Fluoroelastomer (FFKM)
1 8 8 8 6
rubber
elevated temperature
rubber
elevated temperature
8
Budium
thermoset
rubber
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
rubber Fluoroelastomer (FFKM)
8
rubber
PVC Polyol
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
elevated temperature
Fluoroelastomer (FKMffFE)
room temperature
Fluoroelastomer (FFKM)
rubber
elevated temperature
Bromochloromethane
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber
room terrlperature
rubber
Fluoroelastomer (FFKM)
thermoset
8
Bromobenzene Cyanide
rubber 8 6-8
2 2 2 1-2 8 8 6 6-8 2 2 1-2 4-8 2 1-2 2
rubber
elevated temperature Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Brucine Sulfate elevated temperature
Olefinic TPE
thermoplastic elastomer
2 2-5 1-6 8 8 8 6 2 2 1-2 6 2 1-4 2
8 8
rubber
room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6
Bromobenzene
thermoplastic elastomer
rubber
Polyester (Bisphenol A) Vinyl Ester Resin
Bunker Fuel C
room temperature 2 3 8 8
thermoset
room temperature
Fluoroelastomer (FFKM)
Bromine Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
2 2 2 1-2 2 1 1-2 2 2 1-2 2 2 1-2 2
rubber 9
8
Brown Stock
elevated temperature
thermoset Phenolic Resin
Fluoroelastomer (FFKM)
2 8 6-8 7 1-5 8 8 8 2 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
839
Chemical Sort with POL Resistance Rating
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Diallyl Phthalate Resin Phenolic Resin
8 8 1-2 2 7 7
Silicone
thermoplastic elastomer Olefinic TPE
Butanediol elevated temperature
rubber
elevated temperature Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
8
Butanediol (1,4-) elevated temperature rubber Fluoroelastomer (FKM)
6
Butanone room temperature thermoplastic elastomer Olefinic TPE
6
Butanone (2-) room temperature thermoplastic elastomer PVC Polyol
0 4-8 3-8 4
Butene room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 4 2 2 8 8 2 2 2
Butoxyethanol (2-) room temperature rubber Natural Rubber Neoprene Rubber Nitrile Rubber
4-8 6-8 8-9
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2
Butoxyethoxyethanol (2,2-) room temperature 2 2 2
6 8 6 8 8 8
2 6 8 2 8 6 2
elevated temperature 9
Polyamide TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoset
7 2 7-8 2-6 2 2 7 2-8
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
elevated temperature
elevated terrlperature thermoplastic elastomer
Polyam ide TPE
4-5
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
Polybutadiene
2-7 8
Fluoroelastomer Fluoroelastomer (FFKM) Phenolic Resin Vinyl Ester Resin
room temperature
rubber
thermoset 8 6 8 8 8 6 2 6 4-6 2 2
8
Butyl Acrylate 2 2 1-2 2 1 1-2 2
2 1-2 6 2
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2-7
rubber Fluoroelastomer (FFKM)
8 8 8-9 8-9
Polyester (Isophthalate) Vinyl Ester Resin
2-8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8
Butyl Alcohol (tert-) room temperature rubber
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
7
Butyl Alcohol (sec-)
room temperature
Fluoroelastomer (FFKM)
9 9 7 9 2 2-8 2 9 2-8
thermoset 8 8
Butyl Acetyl Ricinoleate Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber
6 8 6-8 8 8 8 6-9 6-8 7-9 8-9 6 2 5-6 5-6 8
rubber
thermoset Furane Resin Phenolic Resin
2-9 7 7-8 5-9 6 5 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
thermoplastic elastomer
elevated temperature
rubber
room temperature thermoplastic elastomer
6 2 2 3 3-7 2 1 1 2 1-2 1-2 1-5 1-8 2 2 8 1-5 2
rubber
room temperature rubber
Fluorosilicone
2-8 4-6 6-8 1 3 4-7 2
room temperature
Butter Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
8
Butyl Alcohol
elevated temperature
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Polyester (Bisphenol A)
thermoset
rubber Natural Rubber Neoprene Rubber Nitrile Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Fluoroelastomer (FKM)
thermoset
room temperature Polyam ide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
9
Butyl Acetate
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 6
6 8 8 6 6 6 6 6 2 6 6
thermoset Polyester (Isophthalate) Vinyl Ester Resin
2-8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
840 Chemical Sort with POL Resistance Rating
Butyl Benzoate room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 6-8 8 8 8 2 2 1-2 2 2
thermoset Polyester (Isophthalate)
2
elevated temperature rubber Fluoroelastomer {FFKM}
8
thermoset Polyester (Bisphenol A)
8
Butyl Benzyl Phthalate room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Butyl Butyrate room temperature
elevated temperature
8 2 8 8 8 2 2 2 2 2
rubber
thermoplastic elastomer
Fluoroelastomer (FFKM)
2
PVC Polyol
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyu rethane Polyvinyl Alcohol Styrene Butadiene Rubber
8 6 8 4
9 1-2 2 6 1-6 2 1-2 2
thermoset Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
8 7-8
thermoset Phenolic Resin Polyester (Bisphenol A)
8 8
Butyl Carbitol Diethylene Glycol room temperature 8
Butyl Catechol (tert-) room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
2 1 1-2 2-9 4-9 4-9 2 5-6 2
7 1 7 2 7 8
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester {Isophthalate} Urea Resin Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
8
thermoset
8 8 8
Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
6 6 6 8 8 8 2
8
Butyl Laurate elevated temperature rubber Fluoroelastomer (FFKM)
8
Butyl Mercaptan room temperature rubber Fluoroelastomer (FKMrrFE)
9
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Butyl Mercaptan (tert-) room temperature rubber
Butyl Cellosolve Acetate elevated temperature rubber
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2
2 1-2 8 8 2 2 1-2 2 2 1-2 2
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
2 2
elevated temperature
room temperature thermoplastic elastomer
Fluoroelastomer (FFKM)
8
8
Butyl Methacrylate
rubber
6
Olefinic TPE
elevated temperature
Butyl Ether
rubber
room temperature
Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 2 4 2 4 2 2 4 8 6 2 2
thermoset Polyester (Bisphenol A) Polyester {Chlorendic} Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
elevated temperature
thermoset Vinyl Ester Resin
8 6 8
thermoset
Diallyl Phthalate Resin Phenolic Resin
rubber
2
Butyl Lactate elevated temperature
thermoset
room temperature
room temperature
room temperature
Butyl Chloride
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8
Butyl Cellosolve
Fluoroelastomer (FFKM)
Butyl Carbitol
8
Butyl Hypochlorite Vinyl Ester Resin
rubber 8
rubber Fluoroelastomer (FFKM)
thermoset
rubber Fluoroelastomer (FFKM)
elevated temperature Fluoroelastomer (FFKM)
6 1-2 2 2 4
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer {FFKM}
8
8
elevated temperature rubber
Butyl Glycol
Fluoroelastomer {FFKM}
elevated temperature
Butyl Paracresol
thermoset 8 8
Phenolic Resin Polyester {Bisphenol A} Vinyl Ester Resin
6 2 6 8 8 6 2 2 1-2 2
Butyl Oxalate
rubber Fluoroelastomer (FFKM)
8
Butyl Oleate
8
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Butyl Glycolate elevated temperature Note: Numbers refer to POL Resistance Ratings (O-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
841 Chemica.l Sort with POL Resistance Rating
Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Butyl Peroxide (di-tert-) elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Butylene Glycol 8
elevated temperature
9
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Butyl Phthalate elevated temperature thermoset Phenolic Resin
elevated temperature rubber Fluoroelastomer (FFKM)
Butyl Phenol
6 6 1-2 2
8 8 8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
Butyl Stearate «S%) elevated temperature
Butylene Oxide room temperature
elevated temperature
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
rubber Silicone thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Butyl Stearate room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 2 4-6 8 8 8 6 2 2 6 8 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Butylaldehyde room temperature thermoset Polyester (Isophthalate)
2
Butylamine room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2-6 2 0-1 1-2 2 2 4 2 2 1-6 2 2 2 2
9
Butylbenzoic Acid
room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
Butylene 2 2 1-2
8 8 6 2 4
elevated temperature 8
elevated temperature 1-2 6 2-3 2 5-6 2 1 1-2 2 2-4 1-2 4 2 1-2 2 2-6 2 2
rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer Polyester TPE PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
8
4 1 6-9 5-6 1 7-9
Butyryl Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
Cadmium room temperature
Butyric Acid (20-30%)
8
Butyrolactone (gamma-)
thermoplastic elastomer Polyester TPE
0
Cadmium Chloride
room temperature
elevated temperature
thermoset Polyester (Isophthalate)
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
2
elevated temperature 8 8 8 8
8
8 8 8
Cadmium Cyanide elevated temperature rubber Fluoroelastomer (FFKM)
8
Cadmium Nitrate elevated temperature 8 8 8 8
rubber Fluoroelastomer (FFKM)
8
Cadmium Oxide elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
Butyric Anhydride
rubber Fluoroelastomer (FFKM)
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1 3 7 2 3 2-8
Butyrolactone
Butyric Acid (SO-7S%)
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber
Butyraldehyde
elevated temperature 8
elevated temperature rubber Fluoroelastomer (FFKM)
2 2 2 2 2
Butyric Acid (40-S0%)
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
5-7
6 2-3 3 3-6 6 2 2 2 2
8 8 8 8
Butyric Acid
8
Cadmium Sulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Cadmium Sulfide
room temperature
elevated temperature
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE
rubber Fluoroelastomer (FFKM)
6 2
8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
842 Chemical Sort with POL Resistance Rating
thermoplastic elastomer
Calcium Acetate
Olefinic TPE
room temperature 2 2 1-8 2 8 8 1-2 8 6 6-8 2 2 1-2 2
elevated temperature Fluoroelastomer (FFKM)
6
Calcium Arsenate elevated ternperature rubber Fluoroelastomer (FFKM)
8
Calcium Benzoate elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature rubber
8
Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Calcium Carbide elevated temperature rubber Fluoroelastomer (FFKM)
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber 8
Fluoroelastomer (FFKM)
elevated temperature thermoset 8
Calcium Chlorate
room temperature
room temperature
Fluoroelastomer (FFKM)
8
thermoset
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Calcium Bisulfite room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 7 1-7 8 8 8 2 8 1-8 2 8 8 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
3 7 7 1
8 8 8 8
elevated temperature thermoplastic elastomer 5-8
Olefinic TPE
Calcium Chloride (20-300/0)
elevated temperature 8 8
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Calcium Bromide (10-200/0) elevated temperature
8 8 8 8
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
8
Calcium Gluconate rubber Fluoroelastomer (FFKM)
8
elevated temperature 9
Fluoroelastomer (FFKM)
8
Calcium Hydrosulfide elevated temperature
elevated temperature
rubber
thermoset 8 8
Calcium Chloride
8 8 8 8 8 8 8 8 8
rubber
Calcium Chloride (50-750/0) Polyester (Bisphenol A) Polyester (Chlorendic)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Calcium Hydride
rubber Ethylene Propylene Rubber
room temperature rubber
elevated temperature
thermoset
elevated temperature
Calcium Cyanide
rubber
9 7
Polyester (Bisphenol A) Polyester (Chlorendic)
8
elevated temperature
room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
elevated temperature
Calcium Fluoride
Calcium Chloride (30-400/0)
Calcium Chloride (40-500/0)
thermoset
8
rubber 8
Vinyl Ester Resin
elevated temperature 8 8 8
elevated temperature
elevated temperature
elevated temperature thermoset
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
Calcium Chromate
Fluoroelastomer (FFKM)
8
Calcium Chloride (10-20%)
rubber
8 8 8 8 8 8 8
rubber
elevated temperature rubber
Polyester (Isophthalate)
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Calcium Cyanamide
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
2
Phenolic Resin
rubber thermoset
7 1
elevated temperature rubber
thermoset 8 8
9
rubber
Calcium Bisulfide thermoset
1
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
thermoset
8
8 8 8 7 8 8 8 8 8 8 8 8 8 8 8 8
thermoset
4
8 8 8 8
Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
thermoset
Calcium Bisulfate
Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8 8 8 8 8 2
2
Phenolic Resin
elevated temperature
Vinyl Ester Resin
8
Calcium Carbonate
rubber Fluoroelastomer (FFKM)
8
thermoset
Calcium Bicarbonate
6-8 8 7-8
rubber
Fluoroelastomer (FFKM)
thermoset
rubber
rubber
thermoplastic elastomer Olefinic TPE Polyester TPE Urethane TPE (TPAU)
Calcium Bromide
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature 5-8
Fluoroelastomer (FFKM)
8
Calcium Hydroxide (10-200/0) elevated temperature thermoset
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
843 Chemical Sort with POL Resistance Rating
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
rubber
8 8
Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
7-8
Silicone
8 5
Calcium Oxide
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature thermoset 8 8 8 7
8 2
thermoplastic elastomer
8
elevated temperature
8
thermoset
elevated temperature thermoset
room temperature
Calcium Hypochlorite
thermoplastic elastomer
room temperature
rubber
rubber
Fluoroelastomer (FFKM)
rubber B~~Rubber
8 8 8 8 8 8 8 8 8 8 8 2 8 8 8
Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 9 1-2 5
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
8 8 8
Fluoroelastomer (FFKM) Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Fluoroelastomer (FFKM)
2 6 2
2 2
8 8 8 7-8
8
thermoplastic elastomer 8
rubber 8 7 8 5
8
Fluoroelastomer (FFKM)
room temperature
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber 8 )
room temperature
Calcium Oxide (5-10%)
thermoplastic elastomer 6
8
Fluoroelastomer (FFKM)
Calcium Phosphate rubber
8 8 8 8 8 6 8 8 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated ternperature 8
elevated temperature 8
elevated temperature rubber
8
Fluoroelastomer (FFKM)
Calcium Pyridine Sulfonate 8 8
8 8
8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
8
rubber
8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8
8 8
8 8 8 8
8
Calcium Salts
8
elevated temperature thermoset
elevated temperature rubber
Fluoroelastomer (FFKM)
rubber
Calcium Hypochlorite (5-100/0)
Calcium Phenolsulfonate
Calcium Propionate
room temperature
room temperature
8
Fluoroelastomer (FFKM)
rubber
rubber
9
elevated temperature rubber
Calcium Phosphate Acid 8
Calcium Nitrate Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
elevated temperature
rubber
elevated temperature
8 6 8 8 8 8 2 2 2 2 2 2
8
room temperature 8
rubber
Calcium Hypochlorite «50/0)
Olefinic TPE
4 4-6 2
elevated temperature
thermoset
Fluoroelastomer (TFP)
Calcium Peroxide
Calcium Lactate
Calcium Naphthenate
Calcium Hypochlorite (10-20%
8 6 2
thermoset
room temperature
Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
rubber
rubber
rubber
Polyester TPE
Calcium Permanganate
elevated temperature
Fluoroelastomer (FFKM)
Polyester
6
8 8 8
rubber
Calcium Hypochloride
Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
8
thermoset Furane Resin Phenolic Resin
Calcium Oxlate elevated temperature
elevated temperature
8 8 8 8 8 7-8
B~~Rubber
8
Calcium Hypophosphite
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Polyester (Chlorendic)
Polyester (Bisphenol A)
6-8 7
8
Fluoroelastomer (FFKM)
Calcium Hydroxide Olefinic TPE Polyester TPE
8
Styrenic TPE
rubber
rubber Chlorosulfonated PE Rubber
8
room temperature
thermoset
Calcium Hydroxide (20-30%) Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
rubber 7
8 8 8 8 8 8 8 8 8 8 8 8 6 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
844 Chemical Sort with POL Resistance Rating Calcium Silicate (5-10%)
Calcium Thiosulfate
elevated temperature
room temperature rubber
rubber Silicone
9
Calcium Silicate room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
8 8 8 8 8 8 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber 8
elevated temperature
elevated temperature
thermoset
rubber
Furane Resin 8
8
Calgon
Calcium Sulfamate Fluoroelastomer (FFKM)
8 8 8 8 8 6 8 6 6 8 8 6
Calcium Tungstate
Calcium Stearate Fluoroelastomer (FFKM)
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
7 7 9
elevated temperature rubber Fluoroelastomer (FFKM) Polyester (Bisphenol A) Vinyl Ester Resin
room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyu rethane Silicone Styrene Butadiene Rubber
Calgon E
elevated temperature
elevated ternperature
thermoset
elevated temperature
thermoset
rubber
Vinyl Ester Resin
Fluoroelastomer (FFKM)
8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8
8 8
Silicone
room temperature 8 6 8 8 8 8 8
elevated temperature thermoset
8 6 8 6-8 2
8 6 6
elevated temperature rubber 8
9
elevated temperature rubber Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 6 8
elevated temperature
Caproic Acid
elevated temperature rubber 8
8
room temperature . 6
elevated temperature 8
rubber Fluoroelastomer (FFKM)
8
room temperature
Polyester (Chlorendic) Polyester (Isophthalate)
8 2
rubber Fluoroelastomer (FFKM)
8
Camphoric Acid elevated temperature rubber 8
rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 6 2 2
6 6 2
6 6
elevated temperature rubber
Cane Sugar
Fluoroelastomer (FFKM)
8
Caprolactam
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8 8 8 8
8
thermoset Alkyd Resin
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (TFP)
room temperature 8 8
Calcium Thiocyanate Fluoroelastomer (FFKM)
8 6 8
room temperature
Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
rubber
8
8 8
Caproic Aldehyde
thermoset
8
Caproaldehyde
8 8 8
Camphor
8 8 8 8
elevated temperature Fluoroelastomer (FFKM)
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
elevated temperature Fluoroelastomer (FFKM)
rubber
8
8
thermoset
rubber
room tem peratu re
8 6 8 8 6
8 8
Camphene rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
8 8 8
Capric Acid
room temperature
Calcium Sulfite rubber
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Caliche Liquors rubber
8 8
8·9
room temperature 3 7
8
8 2 2
Capric Acid «50/0)
Caliche Liquor Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
rubber
Fluoroelastomer (FFKM)
elevated temperature rubber 8
8
8
Caliche rubber
6 8 8 8 8 8
Capacitor Fluid
elevated temperature
thermoset
Calcium Sulfide Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Vinyl Ester Resin
Fluoroelastomer (FFKM)
8 8
Cane Sugar Liquors
Calcium Sulfate
8
8
thermoset
7
room temperature rubber Fluorosilicone Silicone
8 8
elevated temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
845 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
8 2
Caprylic Acid «50/0) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Caprylic Acid elevated ternperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Caramel 9
6 6 6 8 8 8 2 6 4 6 2 2
elevated temperature 8
Carbamide elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Carbazole elevated temperature rubber Fluoroelastomer (FFKM)
6 6 6 6 6 6 6 6 6 6 2 6 6
elevated temperature 8
Carbolic Acid (5-100/0) room temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
2 2
Carbolic Acid room temperature thermoplastic elastomer PVC Polyol rubber
8
4 4-8
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
6
elevated temperature rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
Carbon Disulfide
2 6-8 6 2 2
3 1-7 8 8 8 2 4-8 4 1
3 7 7 1
thermoplastic elastomer Polybutadiene PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A)
8
room temperature 4 4-8
elevated temperature
1 1-2
3 5 2 8 2 2 8 8-9 8 8 1-2 1-2 2-8 9 2 7 1 7 2 2 2
2 7 2-8
8 8 8
Carbon Fluorides elevated temperature rubber Fluoroelastomer (FFKM)
Carbon Dioxide (50-75%)
8
Carbon Monoxide 5-7
Carbon Dioxide room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin
8 8 8 8 8 8
Carbon Disulfide (20-300k)
elevated temperature
rubber Fluoroelastomer (VDF/CTFE)
8 8 8
room temperature
Carbon Bisulfide
rubber Neoprene Rubber Nitrile Rubber
room temperature
rubber Fluoroelastomer (FFKM)
3
Carbon Dichloride 8
Carbitol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
1 7 1
room temperature rubber Neoprene Rubber Nitrile Rubber
room temperature
rubber Fluoroelastomer (FFKM)
2 1-2 2
Carbon Bichloride
Carbamate rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
2 4 6 8 8 8 2-9 4-9 1-9
elevated ternperature rubber Fluoroelastomer (FFKM)
elevated terTlperature thermoset Vinyl Ester Resin
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
6 8 8 8 2-6
8 6 6-7 6 8 6-8 6 6-8 8 6 8 6 6
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8 2 8 8 7-8 8 8 6 6
8 8 2 8 8 6
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
846 Chemical Sort with POL Resistance Rating
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8-9
rubber 8
rubber 8 6 2 3 1-2 8 9 8-9 2 4-8 1-2 1-6 4-8 4 2 9 1-3 2
thermoset
elevated temperature
9 8 8 8 8
Carbonic Acid room temperature rubber 6 8 8 8 8 8 8
8 6
8 8 8 6
elevated temperature rubber
Carbowax
8
8 8
elevated temperature thermoset Furane Resin
8
room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 1 1
Caustic
Carboxymethyl Cellulose
elevated temperature
elevated temperature
thermoset
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Carpet Cleaners room temperature Polyester (Isophthalate)
2
Caryophyllin (beta-)
8 8
rubber 8
Caustic Lye
rubber 9
Casein
room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
elevated temperature rubber 8
7 7 5
Caustic Potash room temperature
Cashew Nut Oil
thermoset
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 1 5
Castor Oil
elevated temperature
room temperature
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM) 6 6-8
Caustic Soda (5-100/0)
6 8 8 5-6 8 8 8 8 8 8 8 4 8 8 8
thermoplastic elastomer
thermoset 7 9 7 8 9
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyurethane Urea Resin Vinyl Ester Resin
8
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8 8-9
Castral Hy Spin 55 elevated temperature rubber
8 8
8
elevated temperature Fluoroelastomer (FFKM)
elevated temperature Fluoroelastomer (FKMrrFE)
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Caustic Lime
thermoset
thermoset 8
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature thermoset
rubber 8 7 6
thermoset
Fluoroelastomer (FFKM)
Carboxymethyl Cellulose (5-100/0) Vinyl Ester Resin
Catechol
Catsup 8 8
Olefinic TPE Polyester TPE
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Carboxyethyl Cellulose (5-100/0)
thermoplastic elastomer
Polybutadiene
Epoxy Resin Furane Resin Phenolic Resin Polyester (Chlorendic) Vinyl Ester Resin
8 8
Fluoroelastomer (FFKM) 9 3-9 8 6-7 9 2 2 8 9
thermoplastic elastomer
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone
Fluoroelastomer (FKM)
Polyester (Bisphenol A) Vinyl Ester Resin 2 1 2-8 2-5 6 4-5 2-5
room temperature rubber
elevated temperature
thermoset
room temperature thermoplastic elastomer
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyaminobismaleimide Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyurethane Urea Resin
8
3
Catalene
Carbowax Polyethylene Glycols
elevated temperature
Carbon Tetrachloride
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Vinyl Ester Resin
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
Olefinic TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Fluoroelastomer (FKM)
thermoset
Carbon Tetrabromide Fluoroelastomer (FFKM)
elevated temperature thermoset
8
room temperature Polyamide TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
2-8 9 9
Caustic Soda room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Urea Resin
1 7 7 9 5
elevated temperature rubber Fluoroelastomer (FFKM)
8
Cellosolve room temperature thermoplastic elastomer PVC Polyol
2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
6 2 6 2 4 3 1-2 2-8 2-9 1-8 6 2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
,ection 2 - Chemical Sort
© Plastics Design Library
847 Chemical Sort with POL Resistance Rating
Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
5-6 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Olefinic TPE Polyester TPE PVC Polyol
1-2 6-8 1
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 6 2 1 1 1-2 2-8 2-8 1-8 6 2 8-9 1-2 2
elevated temperature
Cellulose Acetate room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Cellulose Acetate Butyrate elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature 8
8
8
room temperature 8
8 4 1
8
8
elevated temperature 8
8 8-9
Cellulube 150 room temperature rubber 8 2
8 8 6 2 2 2
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Chloral elevated temperature
Furane Resin
8 8
Chloramines elevated temperature rubber Fluoroelastomer (FFKM)
8
Chloranthraquinone elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
2 4 2 8 6 2 4 6 2 2
elevated temperature
elevated temperature
Fluoroelastomer (FFKM)
8
8
Chloric Acid room temperature thermoset
elevated temperature
Polyester (Isophthalate)
rubber
8
rubber Fluoroelastomer (FFKM)
room temperature
Chlorinated Solvents 2 6 2
room temperature
elevated temperature rubber
thermoset
2 6
8 8 2 2 2
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 4
2
elevated temperature
Cetane Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7 9 7 7
rubber
rubber
rubber
China Wood Oil
room temperature 6
elevated temperature
Fluoroelastomer (FFKM)
8
Chlordane
Cerous Nitrate
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 2 2 8 6 2 2 6 8 2 2 2
rubber
rubber
elevated temperature
rubber
elevated temperature
Fluoroelastomer (FFKM)
8
rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Cellulube
Fluoroelastomer (FFKM)
Chevron M25
thermoset
Cerous Fluoride
rubber
elevated temperature
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
rubber
rubber
rubber
elevated temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Cellutherm 2505A
Fluoroelastomer (FFKM)
Cellulose Tripropionate
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8
Cerous Chloride
rubber
Fluoroelastomer (FFKM)
elevated temperature
rubber
elevated temperature Fluoroelastomer (FFKM)
9
Cerium Sulfate
Cellulose Nitrate
Fluoroelastomer (FFKM)
Chaulmoogric Acid
room temperature
rubber
Fluoroelastomer (FKMfTFE)
rubber
elevated temperature
thermoset
room temperature
rubber
Cellulose Ether Fluoroelastomer (FFKM)
8
Cellulube 550A
Fluoroelastomer (FKM)
8
8
rubber
Fluoroelastomer (FKM)
rubber
rubber Fluoroelastomer (FFKM)
8 2 8 8 6 2 2 2 2 2 8 2
rubber
Fluoroelastomer (FKM)
Cetyl Alcohol
Cextrose
elevated temperature Fluoroelastomer (FKM)
8
elevated temperature Fluoroelastomer (FFKM)
room temperature rubber
Fluoroelastomer (FFKM)
rubber
Cellulube 220
Cellosolve Acetate thermoplastic elastomer
2 2 8 2
2 2 2 8 8 2 2 2 2 2 2 2
Note: Num bers refer to POL Resistance Ratings (O-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
848 Chemical Sort with POL Resistance Rating
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
rubber
thermoset
Fluoroelastomer (FFKM)
7 1 9 1
8
Chlorination Washer elevated temperature thermoset Vinyl Ester Resin
8
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature Fluoroelastomer (FFKM)
room temperature
thermoset
thermoplastic elastomer
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8-9
Chlorine room temperature 3 5-8 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2-4 6 4-6 1-8
8 6-8
8 6-8 2 2-5 1-2 2 2 1-2 2
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
1-7 1-9 1-7 2 2-6 2 2
3 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
6-8 8 7
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
6
8 8 7-8
Chlorine Dioxide «50/0) room temperature thermoset Furane Resin
Chlorine Dioxide (10-200/0) 2 2 2 2
2-4 2-4 2-4 7-8 8 6 2
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
room temperature
thermoset
Polyester Terephthalate Vinyl Ester Resin
2 2
elevated temperature
Polyester (Chlorendic)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Chlorine Heptoxide room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
2 2 2 2
1 1 1
Chloroacetic Acid
5
thermoplastic elastomer
room temperature 3
Polyester TPE PVC Polyol Styrenic TPE
Chlorine Trifluoride room temperature rubber
2 8
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 1-2 2-9 1-9 4-6 2 2 1-2 2 2 1-2 2
elevated temperature 6
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
6 2-8
3 6-8 2 1 1-2 2 2-8 1-2 2 2 2
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
1 2 8 2 2
2 1
2
elevated temperature
Chlorine Water
rubber
room temperature
Fluoroelastomer (FFKM)
thermoset
8
thermoset
Polyester (Isophthalate)
2
Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 6-8 8
2 2 2 2
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Chloroacetone room temperature
Chloro-o-Tolyl (5-100k)
rubber
elevated ternperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
thermoset Vinyl Ester Resin
6
Chloroacetic Acid (20-30%)
8
thermoset
thermoset
room temperature rubber
Fluoroelastomer (FFKM)
thermoset
elevated temperature
Chlorine Dioxide
elevated temperature rubber
2 2 2
elevated temperature
Fluoroelastomer (FFKM)
thermoset
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
Furane Resin Polyester (Isophthalate) Vinyl Ester Resin
rubber
room temperature
5
Ch loroacetaldehyde
Chloroacetic Acid (75-97%)
thermoset
8 8
thermoset
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
room temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (FKMITFE)
room temperature 8 8 8 8 8
Chlorine Gas Coolers & Strippers
thermoset
room temperature rubber
Chloroacetic Acid (40-50%)
elevated temperature thermoset
2
elevated temperature Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 7-8
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Chloro-p-Toluidine (2-)
room temperature 8
Chlorine Gas
thermoplastic elastomer Polyester TPE PVC Polyol Styrenic TPE
2 5 2 2 2
rubber
Chlorine (10-20%) Polyamide TPE
2 1-2 2 2 2
8
6
2 8 2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plas tics Design Library
849 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
1 1-2 2 6 1-2 2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Chloroacetyl Chloride rubber Fluoroelastomer (FFKM)
8
Chloroaminobenzoic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Chloroaniline elevated temperature rubber Fluoroelastomer (FFKM)
8
Chlorobenzaldehyde elevated temperature rubber Fluoroelastomer (FFKM)
8
Chlorobenzene 2-4 2 3 1-2 3 2 2 2 2 2-3 2 1-3 2-8 9 4-8 2 4-6 1-2 1-3 1-3 2 2 9 1-2 2 1 8 9 2-6 2 2 2 5 7 2-8
elevated temperature thermoplastic elastomer Polybutadiene rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Chlorendic) Vinyl Ester Resin
Chlorobenzochloride
6 2 6 6 1-8 4-6 2 2 1-2 2 2 1-2 2
8 1-2
Chlorobromopropane 8
Chlorobutadiene room temperature 2 2 2 8 6 2 2 2 2 2 2 2
Chlorobutane elevated temperature 8
Chlorobutene elevated temperature rubber Fluoroelastomer (FFKM)
8
Chlorodecane 7
room temperature 8 8 8 2 2
elevated temperature 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
rubber Fluoroelastomer (FFKM)
8
Chloroe'lhylene elevated temperature thermoset Phenolic Resin
8
Chloroform «5%) elevated temperature thermoset Polyester (Chlorendic)
2
Chloroform room temperature thermoplastic elastomer Olefinic TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
2 1 2-6 1-2 3 2 2 2 2 3 1-2 8 5-8 2 1-8 1-2 1-4 1-2 2 2 9 1-2 2 5 6 8 8 9 2 2 2 2 9 2
elevated temperature
room temperature rubber Fluorosilicone
8
elevated temperature 3
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
Chloroethylbenzene
room temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
elevated temperature 8
Chlorobromomethane
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
Chloroethane Sulfonic Acid
elevated terrlperature
rubber Fluoroelastomer (FFKM) Silicone
8
elevated temperature 8
Chlorobenzotrifluoride
thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
Chloroethane
elevated temperature rubber Fluoroelastomer (FFKM)
1-2 2
elevated temperature 8
Chlorododecane
Chlorobenzene Chloride rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
elevated temperature
room temperature thermoplastic elastomer Olefinic TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Urea Resin Vinyl Ester Resin
elevated terrlperature
rubber Fluoroelastomer (FFKM)
elevated temperature
Silicone Styrene Butadiene Rubber
Chlorobenzene Trifluoride
2 2 1-2 8 8 8 2 2 1-2 2 2
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin
8 8 8
Chlorohydrin elevated temperature rubber Fluoroelastomer (FFKM)
8
Chloronaphthalene room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
850 Chemical Sort with POL Resistance Rating
Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
1 2 8
elevated temperature thermoset Furane Resin
8
room temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 6 2 2 2 2 2 2 2
elevated temperature 8
Chloronitroethane room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 4 1 1-2 2 2 1-2 2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Ch lorooxyfluorides elevated temperature rubber Fluoroelastomer (FFKM)
6
Chloropentafluoroethane elevated temperature rubber Fluoroelastomer (FFKM)
6
Chlorophenol elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Chlorophenol (o-) room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Chloroprene rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Nitrile Rubber Silicone
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Chloropropionic Acid room temperature 2
Chloropyridine
2 6 2 8 6 2 6 2 2 2 2 2
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Chlorosilanes
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
rubber Fluoroelastomer (FFKM)
8
Chlorosulfonic Acid (5-100/0)
room temperature
thermoset Polyester (Chlorendic) 2 2 5 8 2 2 3 1-2 4 1 4 8 1-2 2 2 1-2 2 2 1-2 2 1 2 5 2 2 2 2 2
elevated temperature 8
Chlorothene
room temperature thermoset Polyester (Chlorendic)
Chloropicrin
Chlorothene VG
elevated temperature
room terrlperature
8
2
Chlorotoluene (p-) room temperature rubber Nitrile Rubber
4
Chlorotoluene Sulfonic Acid elevated temperature rubber Fluoroelastomer (FFKM)
1-4 1-5
8
Chlorotoluidine elevated temperature rubber Fluoroelastomer (FFKM)
8
Chlo.rotrifluoroethylene elevated temperature rubber Fluoroelastomer (FFKM)
6
Chlorotrifluoromethane elevated temperature rubber Fluoroelastomer (FFKM)
6
Chloroxylenol elevated temperature rubber Fluoroelastomer (FFKM)
8
Chloroxylol elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
Chlorothene NU
8
4
elevated temperature
rubber Neoprene Rubber Nitrile Rubber
2 2 2-8
rubber Nitrile Rubber
Chlorosulfonic Acid
rubber Fluoroelastomer (FFKM)
6 2 2 1-2 2 2 1-2 2
room temperature 2
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 1-2 8 8
Chlorotoluene (o-)
room temperature thermoset Vinyl Ester Resin
elevated temperature 8
2 2 2
1 1 4-5 8
Chlorotoluene
1 1
8
thermoset Polyester (Bisphenol A)
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
6
elevated temperature rubber Fluoroelastomer (FFKM)
Chlorophenol {p-} rubber Fluoroelastomer (FFKM)
1 8 8
room temperature
Chloronitrobenzene rubber Fluoroelastomer (FFKM)
8
room temperature
Chloronaphthalene (o-) B~~Rubber
rubber Fluoroelastomer (FFKM)
8
Cholesterol elevated temperature rubber Fluoroelastomer (FFKM)
8
Choline Chloride (50-75%) 2
elevated temperature thermoset Vinyl Ester Resin
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
851 Chemical Sort with POL Resistance Rating
Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate)
Chrome Alum room temperature rubber 8 2 8 8 8 2 8 2 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
8
Chromic Oxide «5%) room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 6 6 8
room temperature thermoset 2 5 2 2 2
Furane Resin Melamine Resin Polyester (Bisphenol A) Urea Resin Vinyl Ester Resin
elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
Chromic Acid (5-100/0) room temperature thermoset 2 2 2 8
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
Chromic Acid (10-20%
8 8 )
rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
Epoxy Resin Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature 8
thermoplastic elastomer PVC Polyol Styrenic TPE
8 8
Chromium Sulfate (10-20 % elevated temperature
PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8 8 2 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 2 2-4 8 8 4 2 2 1-2 2 2 4 2
thermoset Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
7 2 1 2 2 2 3 2
8 8
Polyester (Chlorendic)
Polyester (Isophthalate)
8
Chromium Sulfate elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Chromous Sulfate elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Chromyl Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
Cigarette room temperature thermoset 2
Cinnamic Acid elevated temperature rubber
8
Fluoroelastomer (FFKM)
8
Cinnamic Alcohol
Chromic Chloride elevated temperature
elevated temperature
rubber
rubber
Furane Resin
Fluoroelastomer (FFKM)
8
Cinnamic Aldehyde elevated temperature rubber
elevated temperature
Fluoroelastomer (FFKM)
rubber
Citric Acid (5-10%
8
Chromic Hydroxide
room temperature
elevated temperature rubber
rubber 8
Chromic Nitrates elevated temperature Fluoroelastomer (FFKM)
8 )
thermoplastic elastomer
pvc Polyol
rubber
8
8
Chromic Fluorides
Fluoroelastomer (FFKM)
)
thermoset
Polyester
thermoset
thermoset 6-8
8 8
room temperature
elevated temperature Epoxy Resin
Chromium Salts
8
thermoplastic elastomer
Fluoroelastomer (FFKM) 5-9 2 2 2 2 2
7-9
Chromic Acid
Fluoroelastomer (FFKM)
room temperature
8
Furane Resin Polyester (Bisphenol A)
thermoset
thermoset
thermoset
elevated temperature rubber
)
thermoset
Polyester (Chlorendic)
8
Chromium Potassium Sulfate Fluoroelastomer (FFKM)
Fluoroelastomer (TFP)
8
Vinyl Ester Resin
thermoset
elevated temperature
)
%
Fluoroelastomer (FFKM)
thermoset
room temperature
thermoset
Chromic Acid (20-30%
8 1 1 3-8 1
elevated temperature rubber
rubber
elevated temperature
8 8 8
8-9
PVC Polyol
rubber
Polyester (Chlorendic) Polyester (Chlorendic) Vinyl Ester Resin
8
Chromic Sulfate
thermoplastic elastomer
room temperature 2 2 2 2 2 2 2 2-8
Fluoroelastomer (FFKM)
room temperature
thermoset Furane Resin Furane Resin Polyester (Bisphenol A) Polyester (Bisphenol A) Polyester (Isophthalate) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber
Chromic Acid (40-500/0)
Polyester
8
elevated temperature
Epoxy Resin
elevated temperature
Chromic Acid «50/0)
rubber
Chromic Phosphate
thermoset
6
6
Chromic Oxide elevated temperature Fluoroelastomer (FFKM)
elevated temperature
2 2 2 2 2 2
6
Chromic Acid (30-40%)
Chromic Acid (50-75
rubber
8 6
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
9 9 9 9 5-6
thermoset 8
Oiallyl Phthalate Resin
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
852
Chemical Sort with POL Resistance Rating
Melamine Resin Phenolic Resin Urea Resin
8 8 2
Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
elevated temperature
Coal (5-10%)
rubber
room temperature
Ethylene Propylene Rubber
7
Polyester Polyester (Isophthalate) Polyester (Orthophthalate)
5 5-9 3-9
8
rubber 8 8 6-8 8 8 8 8 8 8 6-8 8 2 6-8 8 8
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Urea Resin
1 7 7 8 3
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2-8 8 2-8 8 2-8
room temperature
4
Olefinic TPE
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
7 7
thermoset 7 9 9 9
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
elevated temperature 8
room temperature DiaHyl Phthalate Resin
6-8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 2 2 6-8 8
elevated temperature 8 8
elevated temperature thermoset 8
thermoset 8 8
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer 7
Urethane TPE (TPAU)
Coca Cola Syrup room temperature rubber Fluorosilicone Silicone
9 8-9
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
elevated temperature
elevated temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
Cobalt Nitrate
8-9
elevated temperature 8 8 8
Cobalt Octoate elevated temperature thermoset Polyester (Bisphenol A)
8
8 9
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
6 4 4 8 8 8 2 4 8 2 4 8 2
7 9 9
Alkyd Resin DiaHyl Phthalate Resin Urea Resin
rubber
Vinyl Ester Resin
8
Coca Cola
Cobalt Nitrate (10-20%)
room temperature
8
thermoset
elevated temperature
rubber
8
Cobaltous Naphthenate
Coconut 011
thermoset
thermoset
6 2 6 8 8 6-8 2 2 6 2 2 6
Fluoroelastomer (FFKM)
elevated temperature
Clorox Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
elevated temperature
rubber
Polyester (Bisphenol A) Vinyl Ester Resin
thermoset
8
rubber
rubber
thermoset
Cleaning Compound
Fluoroelastomer (FFKM)
Cobaltous Linoleate
room temperature
Cobalt Naphthenate
thermoset
elevated temperature
Cobaltous Sulfate
Cobalt Chloride
Polyester (Bisphenol A) Vinyl Ester Resin
Cleaning Baths Polyester (Chlorendic)
8
8 8 8 8 6
rubber
elevated temperature
elevated temperature 8
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
rubber
Cobalt Citrate
thermoset
room temperature
elevated temperature Fluoroelastomer (FFKM)
8
rubber
rubber
Vinyl Ester Resin
Cleaning Bath Vinyl Ester Resin
1 8 8 8 1
Cobalt Citrate (10-200/0)
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
8
Polyester (Bisphenol A) Vinyl Ester Resin
Citronic Acid
elevated temperature
Cobaltous Chloride
thermoset Polyester (Chlorendic)
8
rubber Fluoroelastomer (FFKM)
elevated temperature
thermoplastic elastomer
thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
room temperature
room temperature
elevated temperature rubber
Cobaltous Brimide
thermoset
Coal Tar
Citric Acid Polyester TPE
8
Coal
thermoset
8
Fluoroelastomer (FFKM)
Polyester (Chlorendic)
elevated temperature
Vinyl Ester Resin
Cobaltous Acetate
rubber
Citric Acid (30-400/0)
Citric Acid (40-500/0)
2
elevated temperature
8 8 8 8
Cod Liver Oil room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM)
8 6 8 8 8-9
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
853 Chemical Sort with POL Resistance Rating
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 6 8 2 8 6 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
Codien elevated temperature rubber Fluoroelastomer (FFKM)
8
Coffee room temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 2 2 8 8
elevated ternperature rubber Silicone thermoset Polyester (Chlorendic)
8-9 8
Coke Oven Gas room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
2 2 1-2 8 8 6 2 2 1-2 2 2 6 2 9
7 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
2 2 2 2
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Coolanol35 elevated temperature rubber Fluorosilicone Silicone
9 1
Coolanol45 room temperature 2 6 2 8 6 2 8 8 2 2 2 2
elevated temperature rubber Fluorosilicone
8
Copper Acetate room temperature 8 2 8 2 1 1-2 8 6 6 2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Copper Ammonium Acetate
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM)
7 1 7 7
elevated temperature 8
8
Copper Carbonate
Cooking Oils
elevated temperature
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 6 2 8 6 2 8 8
8
Copper Chloride 6 8 8 8 8
8 8 8
8
8
Copper Nitrate
thermoset Vinyl Ester Resin
room temperature
2
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM)
8 8 8 8
Copper Naphthenate
room terrlperature
room temperature
8
Copper Gluconate
room temperature
Coolanol
2
room temperature thermoset Polyester (Isophthalate)
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9
8 8 8 8 8 8 8 8 8 8 8 8
Copper Fluoride
elevated temperature
thermoplastic elastomer Polyester TPE
8 8 8 8 8 8
elevated temperature
Congo Red 9
8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (lsophthalate)
Copper Ammonium Chloride
thermoset Polyester
7 7 7 7
Copper Cyanide
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin rubber Fluoroelastomer (FFKM)
8
8 8 8 8 2 8 8 8
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 7 7
8 8 8 8 8
8
Copper Oxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
854
Chemical Sort with POL Resistance Rating
Copper Oxychloride room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Polyester (Chlorendic)
8
Copper Sa Its thermoplastic elastomer 8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8
elevated temperature 8
Copper Sulfate «SOk) elevated temperature thermoset Polyester (Chlorendic)
8
Copper Sulfate (5-10 0k) rubber 8 8 8 8 8 6 8 8 2 6 8 6
elevated temperature thermoset 8 8 8 8
Copper Sulfate (40-S00/0) 8 8 8 8 8 8 8 8 8 4 8 6
elevated temperature rubber Silicone
9
8 8 8 8 8 8
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Copperas thermoset 7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
6 8
rubber 8 8 7 8
Fluoroelastomer (TFP)
8
Cosmoline 2046 room temperature rubber Silicone
2
Cottonseed Oil room temperature thermoplastic elastomer Olefinic TPE Polyester TPE
6 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset
7 9
Corn Oil
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
room temperature
elevated temperature 4 8 6 4 8 8 8 2 4 8 2 8 8 2
7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
9 7 7
elevated temperature
7 9
7 9
Fluoroelastomer (FFKM) Silicone
8 8 8 8
Polyester (Bisphenol A) Vinyl Ester Resin
Corn Starch elevated temperature thermoset 8 8
Polyester (Bisphenol A) Vinyl Ester Resin
Corn Sugar
4-7 8 8-9
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Crankcase Oil elevated temperature rubber 6-7
Silicone
Crayon room temperature rubber Polyurethane
8
Creosols room temperature Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 2 8 6 2 2 2 2 2 2 2
Creosote
elevated temperature
room temperature
thermoset 8 8
Polyester (Bisphenol A) Vinyl Ester Resin
Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
rubber
rubber
thermoplastic elastomer 4-6
Olefinic TPE
rubber
Corn Syrup room temperature 8
thermoset
5
Polyester Polyester (Bisphenol A) Polyester (Isophthalate)
8
5
Corrosion Inhibitor room temperature
4 8 6-8 8 4-8 8 8 8 8 2 4-8 8 2 8 8 2
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
thermoplastic elastomer
rubber
7
Olefinic TPE
room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber
8
thermoplastic elastomer
Copper Sulfate Olefinic TPE Polyester TPE
Fluoroelastomer (FFKM)
thermoset
thermoset
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
thermoset
Copper Sulfate (10-200/0) Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated ternperature
rubber
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7 7 7 7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
room temperature
rubber Fluoroelastomer (FFKM)
8 8 8 6 8 8 2 8 8 6
thermoset
room temperature PVC Polyol Styrenic TPE
Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
2 2 2-4
3 1-2 8 6-9 8 2 2-6 6-8 4 4-6
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
855 Chemical Sort with POL Resistance Rating
Silicone Styrene Butadiene Rubber
1-2 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin
3 7 3
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 6-8
2 2 2 8
8 6 2 2
2 2 2 2 2
Cresol (5-100/0) room ternperature
2 3
rubber 1 8 8 6 1 1
thermoset
9
2 3
8
8
6-8
rubber 6-8 8-9 4-8
Cresol (m-) room temperature 6-8 6-8 8-9 4-8
elevated temperature rubber
2 2
1 2
8 4-7
Fluoroelastomer (FFKM)
8
8
8
thermoplastic elastomer 4 6-7
rubber 2 2
2 8 6-9 2 2
6 2-8 2
elevated temperature
8
8
rubber 8
8 8 5-9 3-6
thermoset
rubber
Fluoroelastomer (FFKM)
Cresol (p-) elevated temperature
Cumene room temperature
thermoset
thermoplastic elastomer
8 8 6 2 1-8 1-8
6 2 1-2 2
elevated temperature rubber 8
Fluoroelastomer (FFKM)
Cumene Hydroperoxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Cupric Chloride (30-400/0) room temperature thermoset
9
Polyimide
Cupric Chloride (40-500/0) elevated temperature rubber Ethylene Propylene Rubber
7-8
thermoset Polyester (Chlorendic)
8
rubber Fluoroelastomer (TFP)
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2
6 2
8 8 2
6 8 8 8 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
CWT 102 elevated temperature thermoset
thermoplastic elastomer
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
1-2
Cutting Fluids room temperature
Crude Oils room temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone Silicone
2
2
Cupric Sulfate room temperature
Crude Oils (10-20%) elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Cupric Sulfate (5-100/0) elevated temperature
rubber
Cumaldehyde elevated temperature
Polyimide
8
Crotonic Acid elevated temperature
Cresol (0-) elevated temperature Fluoroelastomer (FFKM)
2
rubber
rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Polyester TPE
thermoplastic elastomer
Natural Rubber Neoprene Rubber Nitrile Rubber
1 7 7
rubber
Olefinic TPE Urethane TPE (TPAU)
thermoplastic elastomer
PVC Polyol
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Polyester (Bisphenol A)
Cresol (3-) room temperature
Natural Rubber Neoprene Rubber Nitrile Rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
thermoset
thermoset
PVC Polyol
1 8 6 1 1
thermoset
7 8
elevated temperature
Furane Resin
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
3
rubber Fluoroelastomer (FFKM)
8
Crotonaldehyde elevated temperature
thermoplastic elastomer
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Isophthalate) Urea Resin
Vinyl Ester Resin
rubber 2
Cresol room temperature
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosi Iicone Nitrile Rubber Silicone
thermoset
elevated temperature
thermoset
PVC Polyol Styrenic TPE
Cresylic Acid (10-20%) elevated ternperature
rubber
rubber
Polyester (Isophthalate)
2
Cresylic Acid room temperature
Creosylic Acid room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
thermoset Polyester (Isophthalate)
4
Olefinic TPE
Cresol Fumes room temperature
8
8 8
8 8
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
6 8 8
Cyanamide elevated temperature rubber Fluoroelastomer (FFKM)
8
Cyanide room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7
9 9
Cyanides elevated temperature rubber Fluoroelastomer (FFKM)
8
2-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
856 Chemical Sort with POL Resistance Rating
rubber
Cyanoacetic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Cyanogen room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 9 9 7
elevated temperature 8
elevated ternperature rubber 8
Cyanohydrin elevated temperature rubber Fluoroelastomer (FFKM)
8
Cyansize 420 elevated temperature thermoset Polyester (Bisphenol A)
8
Cyanuric Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A)
6
Cyclohexane room temperature thermoplastic elastomer Olefinic TPE Polybutadiene Polyester TPE PVC Polyol Styren ic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
3-5 2 3-8 4 3 9 5-7
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 5 1-2 8 9 8-9 9 6-7 6-8 2 2-8 8-9 8 6 1-2 2
Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
2 7 2 2 8 7 2
2 3 2 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 8 2 2 2 1 2
Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM)
Cyclohexene
Cyclohexanol room terrlperature
8 8 8 8-9
Cyclopolyolefins elevated temperature rubber Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Cyclohexyl Alcohol
room temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
2 2
elevated temperature thermoset Furane Resin Polyester (Bisphenol A)
8 8
Cymene (p-) room terrlperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
2 2 1-2 8 8 6 2 2 1-2 2 2 1-2 2
8
DC 200
room temperature
elevated temperature
thermoplastic elastomer
rubber 6-9
PVC Polyol
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
4 8 8 5-6 7-9 4-9 8 1
thermoset
9
Fluoroelastomer (FKM)
DDT «50/0) elevated temperature thermoset 8
Polyester (Chlorendic)
DDT elevated temperature rubber Fluoroelastomer (FFKM)
8
9
Polyurethane
Decahydronaphthalene room temperature
rubber Fluoroelastomer (FFKM)
8
thermoset
9 8
Decalin
9
Polyurethane
thermoset Phenolic Resin Vinyl Ester Resin
room temperature
Cyclohexylamine
thermoplastic elastomer
8
rubber Fluoroelastomer (FFKM)
Cyclohexylamine Laurate elevated temperature
4 5 5
Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
Cyclohexylamine Carbonate
rubber
8
Cygon 400
elevated temperature
elevated temperature
thermoset
8
Fluoroelastomer (FKMfTFE)
rubber
Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
elevated temperature
rubber
Polybutadiene
8
elevated temperature
rubber
elevated temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
6 2 6 2 1 1 6 1-2 2 2 1-2 6 2 1-2 2
thermoset
elevated temperature
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Cyclopentane
room temperature
thermoplastic elastomer rubber
elevated temperature rubber
rubber
thermoplastic elastomer
elevated temperature
thermoset
8
Cyclopentadiene
Cyclopentanone
Cyclohexanone PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Cyanogen Chloride Fluoroelastomer (FFKM)
2 6 2 8 8 2 6 6 6 2 2
room temperature
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 2 1 8 8 8 2 2 1-2
Note: Numbers refer to POL Resistance Ratings (O-9 scale with 9 as highest resistance)
Section 2 • Chemical Sort
© Plastics Design Library
857
Chemical Sort with POL Resistance Rating
Polysulfide Rubber Silicone Styrene Butadiene Rubber
6 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
8 9
thermoset Vinyl Ester Resin
8
Decane
Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Oiallyl Phthalate Resin Phenolic Resin Polyarn inobism aleim ide Polyester (Isophthalate) Urea Resin
room temperature
elevated temperature
rubber
thermoplastic elastomer
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8 8 8 2 2 6-8 8 6 6 2
Olefinic TPE Polyam ide TPE
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Furane Resin
elevated temperature
7 5-8 8 8 8 8 8 7-8
Polyester (Chlorendic)
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber
PVC Polyol
Developing Fluids
room temperature thermoplastic elastomer
elevated temperature
rubber
thermoset
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Deicing Fluid room temperature thermoplastic elastomer Olefinic TPE
8
elevated temperature rubber Silicone
8
rubber
elevated temperature rubber 8
Delco No.9 elevated temperature 6-7
Delco Supreme II 2
8 2 2 8 2 1 1-2 2-6 2-9 1-8 6 2 5-6 2-8 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 7 7 9
elevated temperature
Fluoroelastomer (FFKM)
8
Dialkyl Sulfates
rubber 8
elevated temperature
8
Diallyl Ether
rubber Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
elevated temperature 8
elevated temperature rubber
Detergents «5%)
Dextron
elevated temperature
Fluoroelastomer (FFKM)
room temperature
rubber 6-7 8
thermoset 8 8
Detergents room temperature thermoplastic elastomer 8 6-8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
Dextro Lactic Acid
thermoset
Urethane TPE (TPAU) Urethane TPE (TPEU)
8
1 8
rubber
Desmut (5-10°..10)
Polyester (Chlorendic) Vinyl Ester Resin
Fluoroelastomer (FFKM)
Dextrin
room temperature
Ethylene Propylene Rubber Fluoroelastomer (FKM)
rubber
elevated temperature
rubber
Vinyl Ester Resin
6 8 8 8 8
PVC Polyol Styrenic TPE
rubber
elevated temperature Fluoroelastomer (FKM)
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
elevated temperature
rubber Silicone
Developing Solutions room temperature
Delco No. 11 Silicone
6 8 6 8 8 8 8 8 8 8 6
8
Diacetone Alcohol
room temperature 8 8 8
8 2 8 2 1 1-2 2 2 1-2 6 2 1-2 2
Fluoroelastomer (FFKM) 1-2
Decyl Alcohol Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
Diacetone
room temperature thermoplastic elastomer
2
Di-Syston (5-100/0)
Dethylamine
elevated temperature 8
7 2-7 8 2 7
rubber Fluoroelastomer (FFKM)
thermoset
thermoset
thermoset
rubber Fluoroelastomer (FFKM)
6 8 2 8 6
8 8 6 8 8 8 8 6
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 6 2 6 8 6 2 2
Dextrose
DFR 121 room temperature
room temperature thermoset Vinyl Ester Resin
2
Diallyl Phthalate elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
Diamine
room temperature
room temperature
thermoplastic elastomer Olefinic TPE
8
Diallyl Phthalate (50-75%)
8
thermoplastic elastomer PVC Polyol
8-9
rubber Natural Rubber
6-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
858 Chemical Sort with POL Resistance Rating
Neoprene Rubber Nitrile Rubber
8-9 8-9
Diaminoethane (1,2-) room temperature
Fluoroelastomer (FFKM)
room temperature
room temperature thermoset 2
elevated temperature thermoset 8 2-6 2-8
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
room temperature 8
elevated temperature
room temperature 2
4 2 6 6 2
4 4 2 2
elevated temperature rubber 8
Dibenzyl 8
rubber 6 2 2 6 2 1 2 2 1-2 6 6 2
elevated temperature rubber 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Dibenzyl Sebecate room temperature rubber
6 2 6 6
4 2 2 2 6 6
4 2
room temperature 6
Dibutyl Phthalate
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8 6 6 2 2 1-2 2 2 1-2 2
elevated temperature 8
room temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2-6 2 2 2-8
elevated temperature thermoset 8
Phenolic Resin
room temperature thermoplastic elastomer 1-2 7-9 1-6 6-8
Olefinic TPE Polyester TPE PVC Polyol Urethane TPE (TPAU)
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
Dibromopropanol (2,3-) elevated temperature
Dibutyl Cellosolve Adipate elevated temperature rubber 8
Dibutyl Ether room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
8 7
thermoset 8 8 8 8
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Dibutyl Sebacate 2 2
Fluoroelastomer (FFKM)
2-7 2-8 1-8 8 2 9 6 2
elevated temperature
room temperature 2 2 2
4 5 4
7 1 7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
thermoset
8 6 2 2 6-8 6
thermoset
Dibromopropanol Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
rubber Fluoroelastomer (TFP)
Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
Fluoroelastomer (FFKM)
room temperature
thermoset
Dibenzyl Sebacate
8 8
Phenolic Resin Vinyl Ester Resin
Dibromoethylbenzene
thermoset
Dibenzyl Ether
Fluoroelastomer (FFKM)
8
Dibromophenol
room temperature Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
rubber
8
Dibutyl Phthalate (40-S00k)
rubber
elevated temperature
Fluoroelastomer (FFKM)
rubber 2
rubber
rubber
elevated temperature
elevated temperature
rubber 8
Diazinon
Fluoroelastomer (FFKM)
8
elevated temperature
rubber
2-8 8 2-8 2 2-8
thermoset
thermoplastic elastomer Olefinic TPE
Diamylamine
Fluoroelastomer (FFKM)
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 1-2 8 6 1-2 2
Dibutyl Methylenedithio Glycolate
Dibromoethane
thermoset
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
7 1 7 7
rubber Fluoroelastomer (FFKM)
Diammonium Phosphate
Fluoroelastomer (FFKM)
thermoset
elevated temperature
elevated temperature Phenolic Resin
8
Diborane
thermoset
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
4 1
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber 8
Diammonium Phosphate (SO-75%) Phenolic Resin
6 6
elevated temperature
thermoplastic elastomer Olefinic TPE
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber
4 2
4 4 4 4 2
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 6 6 7 6 2 2 1-2 6 2 6 2
elevated temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
859 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 7 8 8
8
8
Dibutylamine room temperature 2 2 2-4 2 1 1-2 2 2 1-2 2 2 4 2 6
elevated temperature 8
Dicarboxylic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Dichloro-4-Aniline (2,6-) elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (lsophtha,late) Vinyl Ester Resin
8 6 2-6 2-6 6
Dichloroacetic Acid room temperature thermoset Polyester Vinyl Ester Resin
7 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Isophthalate) Vinyl Ester Resin
8 2 2 2
elevated temperature 8
Dichloroaniline (3,4-) room temperature rubber Fluoroelastomer (FKMrrFE)
rubber Nitrile Rubber
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
5
Dichlorobenzene
4 2 2 1-2 8 7-8 6 2 2 1-4 8 2 1-2 2
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature
room temperature
5-8 6
2 2 2 2 8 6 2 2 2 2-8 2 2 2
rubber Fluoroelastomer (FKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
2 2 2 2 2
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
8 8
Dichlorofluoromethane elevated temperature rubber Fluoroelastomer (FFKM)
8
Dichlorohyrin rubber Fluoroelastomer (FFKM)
8
Dichloroisopropyl Ether
room temperature
room temperature 2 2 2 8 8 6 2 2 6 4 2 2 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
elevated temperature rubber Fluoroelastomer (FFKM)
Dichlorobutene
2 2 4 4 4 4 2 2 1-2
8 6 1-9 2
8
Dlchloromethane
elevated temperature
elevated temperature
5
elevated temperature
elevated temperature
8 8 8
2 2 2 2
elevated temperature
Dichlorobutane
Dichlorodlfluoromethal1e
0
'-8 1-3
Dichloroethylene
rubber Fluoroelastomer (FFKM)
elevated temperature
8
Dichloroethane (1,2-)
room temperature
thermoset Furane Resin Phenolic Resin Vinyl Ester Resin
8
room temperature
8
elevated temperature
rubber Fluoroelastomer (FFKM)
2 2 2 2 2-7
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2 2
8
room temperature
2 2 2 2
room temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Polyester TPE rubber Neoprene Rubber Nitrile Rubber thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Dichlorobenzene (p-) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosil icone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6
Dichloroethane 1-6
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Polyester (Chlorendic)
rubber Fluoroelastomer (FFKM)
Dichloroaniline rubber Fluoroelastomer (FFKM)
4
room temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Nitrile Rubber
Dichlorobenzene (o-)
Dibutyl Th iourea
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyurethane
Dichlorodiphenyldichloroethane
room temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
room temperature
Dichlorobenzene (1,3-)
Dibutyl Thioglycolate rubber Fluoroelastomer (FFKM)
Dichlorobenzene (1,2-)
room temperature 8
thermoplastic elastomer Olefinic TPE rubber Neoprene Rubber thermoset
2 3-6
rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
860 Chemical Sort with POL Resistance Rating
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Vinyl Ester Resin
2 2 2 2 9 2
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
Dichlorotoluene room temperature thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
2-8
8
elevated temperature
8
thermoset Phenolic Resin
Dichlorophenol
8
room ternperature
room temperature 2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Dichlorophenoxyacetic Acid «50/0) elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
8 8
rubber Fluoroelastomer (FFKM)
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
Dichlorophenoxyacetic Acid (2,4-) 7
rubber Fluoroelastomer (FFKM)
room temperature
room temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 2 2-8
elevated temperature 8 8
Dichloropropane (1,2-) room temperature 4
Dichloropropene room temperature 2 2 2 2 2-7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
8 8
Dichloropropionic Acid room temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2
thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
elevated temperature
8
thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8-9 8-9 8-9 8
8 8-9
Diethyl Benzene room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE) thermoset Phenolic Resin Polyester (Chlorendic) Vinyl Ester Resin
2 2 1-2 8 8 4 2 2 1-2 6 2 1-2 2 2 2 2-8
8 8 8 8 8
Diethyl Carbonate thermoset Phenolic Resin Vinyl Ester Resin
2 2-8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
8
rubber Fluoroelastomer (FFKM)
6·7 8 6 6-7 1-2 8 8 8 8 8
8
room temperature
8
6-7 8-9
8
Diethyl Ether thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature
Dichlorosilane
8 8-9
room temperature 2 8 6 1-2 8 8 6 8 2 6 8 8 4 1-2 2
Diethanolamine (20-30%)
elevated temperature
Dichlorotetrafluoroethane
3-8 9 7
elevated temperature thermoplastic elastomer Polyester TPE Urethane TPE (TPAU) rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Silicone thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber thermoset Vinyl Ester Resin
elevated temperature 8
Diesel Fuels
Dichloropropane
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Dieldrin elevated temperature
elevated temperature
thermoplastic elastomer Olefinic TPE
8
Dicyclohexylammonium Nitrate
Dichlorophenoxyacetic Acid
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
2 2 1-2 2 1 1-2 2 2 4 2 2 2
elevated temperature
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
room temperature
elevated temperature
Dicyclohexylamine
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset Vinyl Ester Resin
Diethanolamine 6
6-9 2 2 1-2 2 1 2 3-4 2 4-8 1-8 8 8 1-2 2 2 7 2 2 2 2 2
elevated temperature 8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
861 Chemical Sort with POL Resistance Rating thermoset Phenolic Resin
8
Diethyl Glycol elevated temperature thermoset Vinyl Ester Resin
8
room temperature 2 2 2 2-8
elevated temperature thermoset Phenolic Resin
8
Diethyl Maleate (75-97%) 2 2 2 2
Diethyl Maleate room temperature thermoset Polyester (Bisphenol A) Polyester (Isophthalate)
2 2
Diethyl Phthalate elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
Diethyl Sebacate room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 8 6 2-5
3 5-6 6 6 6 2 2 2-6 6 2 6 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Diethyl Sulfate room temperature thermoset Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
Polyester Terephthalate Urea Resin Vinyl Ester Resin
2 2 2
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8
Diethylamine
8
Diethylformamide room temperature 8 8
Diethylaniline
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2
elevated temperature
Diethylhexyl Phosphoric Acid (10-200/0)
rubber Fluoroelastomer (FFKM)
elevated temperature 8
Diethylene Dioxide (1,4-) thermoplastic elastomer PVC Polyol rubber Neoprene Rubber
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
4
thermoset Polyester (Bisphenol A)
room temperature
room temperature
thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8 8 8 8 8 8 2 2 6 2
elevated temperature 8 8 8 8
8 8
Diethylene Glycol Butyl Ether
8 8
Diethylene Glycol Ethyl Ether Carbitol room temperature
room temperature
elevated temperature
thermoplastic elastomer pvc Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
thermoset Furane Resin
elevated temperature rubber Fluoroelastomer (FFKM)
8
Difluorodibromomethane room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 2
2 2 2 2 2 2
8
Difluorodichloromethane elevated temperature rubber Fluoroelastomer (FFKM)
6
Difluoroethane elevated temperature rubber Fluoroelastomer (FFKM)
8
Difluoroethylene 8 8
room temperature rubber Fluoroelastomer (FKM)
6
Diglycol Amine elevated temperature
8
Diethylenetriamine room temperature thermoplastic elastomer Olefinic TPE thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic)
6
Difluorochloroethane
8
room temperature
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature thermoset Polyester (Bisphenol A)
rubber Fluoroelastomer (FFKM)
Diethylene Glycol Butyl Ether Butyl Carbitol thermoset Polyester (Bisphenol A) Vinyl Ester Resin
2 2 2 2
elevated temperature
elevated temperature thermoset Phenolic Resin
6
Diethylmaleate
Diethylene Glycol
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8
Diethylmaleate «50/0) 3
Diethylene Glycol Methyl Ether
6 4 6 2 1 1-2 1-6 2-4 4-6 6 4
2 7 2
elevated temperature
room temperature
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1 6 2
elevated temperature
Diethyl Ketone thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
7 1 7 2 2
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
6 6 2 2 2
Diglycol Chloroformate elevated temperature rubber Fluoroelastomer (FFKM)
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
862 Chemical Sort with POL Resistance Rating
Diglycolic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Dihydroxydiphenylsulfone elevated temperature rubber Fluoroelastomer (FFKM)
8
Dihydroxypropane (1,2-)
room temperature
thermoplastic elastomer 8
2 1 2 2 5-6 8
thermoset 2 2 2-8
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Phenolic Resin
8
Diisobutyl Phthalate Polyester (Bisphenol A) Vinyl Ester Resin
Diisobutylcarbinol elevated temperature rubber Fluoroelastomer (FFKM)
8
Diisobutylene room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8 8-9 4 2 2 6 8 2 1-2 2
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2-8
elevated temperature Fluoroelastomer (FFKM)
room temperature
Diisopropylidene Acetone room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
4 1 1 1 1
elevated temperature 8
elevated temperature 8
Polyester (Chlorendic)
room temperature
thermoplastic elastomer
Diisooctyl Sebacate
2 2
Polyester (Bisphenol A) Polyester (Chlorendic)
Dimethyl Acetamide (N,N-)
room temperature
elevated temperature
rubber 2
rubber
2 2
Dimethyl Morpholine room temperature thermoset Vinyl Ester Resin
2-8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2-6 2 2-8
Dimethyl Phenyl Carbinol elevated temperature rubber Fluoroelastomer (FFKM)
8
Dimethyl Phenyl Methanol elevated temperature rubber Fluoroelastomer (FFKM)
8
Dimethyl Phthalate room temperature 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 2 6 6 6 8 6 2 2 1-2 6 2
thermoset 2
Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
8 6
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Dimethyl Sulfate
thermoset 8
Polyester (Isophthalate) Vinyl Ester Resin
Polyester (Isophthalate)
Dimethyl Acetamide
room temperature
room temperature thermoset
rubber
thermoset
Diisocyanate Toluene (2,4-)
8
elevated temperature 2 2
Polyester (Bisphenol A) Polyester (Chlorendic)
elevated temperature
Butyl Rubber
8
room temperature
8
8
Dimethyl Formamide (20-30%)
Olefinic TPE
Fluoroelastomer (FFKM)
thermoset 2
elevated temperature
thermoplastic elastomer
elevated temperature rubber
thermoset
Polyester TPE
8 2 8 2 1 1-2 2 2 1-2 6 2 1-2 2
Dimethyl Acetamide (50-750/0)
room temperature
Polyester (Isophthalate)
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
1 8 8 8 8
elevated temperature
Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A)
elevated temperature
8
Diisocyanate
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
Fluoroelastomer (FFKM)
2 2 1-2 8 8 6 2 2 1-2 6 2
rubber
rubber
room temperature rubber
rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8
elevated temperature
room temperature
Diisopropyl Ketone 8 8
Fluoroelastomer (FFKM)
Dimethyl Ether
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
thermoset
rubber
Dimethyl Formaldehyde
rubber
elevated temperature
Dimethyl Disulfide elevated temperature
8
Vinyl Ester Resin
Diisopropyl Benzene
rubber
Fluoroelastomer (FKMrrFE)
rubber
thermoset
thermoplastic elastomer
Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
elevated temperature
room temperature
Fluoroelastomer (FKMrrFE) Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
thermoset Vinyl Ester Resin
Diisobutyl Ketone PVC Polyol
2 4 6 4 2 2 4 4 2 4 2
Diisopropanolamine
room temperature Olefinic TPE
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature thermoset 2
Vinyl Ester Resin
elevated temperature thermoset
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
863 Chemical Sort with POL Resistance Rating
Furane Resin
8
Dimethyl Sulfide room temperature thermoset Vinyl Ester Resin Vinyl Ester Resin
2 2-8
Dimethylformamide room temperature
1 8-9 5-9 1-9 1
thermoplastic elastomer
thermoset 2 2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Dimethyl Terephthalate room temperature rubber Fluoroelastomer
7
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FFKM)
4 8
Dimethyl Thiazolidine (2,2-) «50/0) elevated temperature thermoset Vinyl Ester Resin
8
Dimethyl Tin Dichloride (40-500/0) room temperature thermoset Polyester (Chlorendic)
8
4-8 1-8 1-6 1
thermoset 2
elevated temperature Fluoroelastomer (FFKM)
8
Dimethylamine «5%) elevated temperature 8
Dimethylamine (50-75%) room temperature thermoset Polyester (Chlorendic)
thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Vinyl Ester Resin
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (FKM)
thermoset Phenolic Resin
9
Dimethylhydrazine room temperature Fluorosi Iicone Silicone
2-6
Fluoroelastomer (FFKM)
2 6 2 1 1-2
Fluoroelastomer (FFKM)
Dinitrotoluene (50-75%) elevated temperature rubber
8
Dioctyl Cebacate room temperature rubber Fluoroelastomer (TFP)
8
Dioctyl Phthalate room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
2-9 7-8 1-8 6-9 4-8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Urethane TPE (TPAU)
2 2
Fluoroelastomer (FFKM) Fluorosilicone Silicone
6 6 2
3 5-6 6 6 6 6 2 2-9 2-9 6 2 4-6 4 2 2 8 2 9
8
8
8 7 7-8
thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Dioctyl Sebacate room ternperature
8
rubber
8
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi licone Natural Rubber Neoprene Rubber Nitrile Rubber
rubber
rubber
Vinyl Ester Resin
rubber
Dinitrogen Tetroxide elevated temperature
Dimethylaniline room temperature
thermoset
elevated temperature
elevated temperature 8
8
Dinonyl Phthalate elevated temperature
thermoplastic elastomer
rubber
rubber
elevated temperature
8
Di nitrochlorobenzene room temperature
rubber
2 2 1-2 2 1 1-2 2 2 1-2 2 2 1-2 2
rubber
Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Polyurethane
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 5
rubber Fluoroelastomer (FFKM)
3
Dinitrotoluene room temperature
thermoset
rubber
Fluoroelastomer (TFP)
Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroela~tomer (FKM) Fluorosiltcone
8
elevated temperature
Dimethylamine elevated temperature Fluoroelastomer (FFKM)
2 8 7 2 2 2 1 2
Dinitrobutyl Phenol (10-20 0k) elevated temperature
thermoset Polyester (Chlorendic)
2 2 6 2 1 8 1-2 2-8 2-8 1-6 6 1 6-9 2
elevated temperature
rubber
Fluoroelastomer (FKM)
Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
rubber 0-6 0 0
rubber
Polyester (Bisphenol A)
7-9 6-7 1-2 8 0-2 0-2
Dimethylformamide (N,N-) room temperature
thermoplastic elastomer
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8
rubber
Dimethylacetamide room temperature PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
8
Furane Resin 1-8
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane
elevated temperature rubber thermoset
thermoplastic elastomer
Fluoroelastomer (FKMrrFE) Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
2 2 4 1 2
Fluoroelastomer (FFKM)
Dimethyl Sulfoxide room temperature PVC Polyol
Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6 4 2 6 6 6 4 2 2 1-2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
864 Chemical Sort with POL Resistance Rating
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 6 4 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 1-9
Dioctyl Sulfosuccinate (50-75%) elevated temperature thermoset Polyester (Bisphenol A)
8
Dioctylamine 8
Dioxane room temperature thermoplastic elastomer PVC Polyol
rubber 6 2 6 2-4 1-2 2 2-4 2-5 1-2 1-2 2 2 2 1-2 2
Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 8 9 2 2 2
elevated temperature
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
8
Fluoroelastomer (FKM) Neoprene Rubber
thermoset Phenolic Resin
9
Dioxolane room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 2 6 2 1 1-2 2 2 1-2 2 2 1-2 2
elevated temperature
Dipropylene Glycol Dibenzoate thermoset
Dishwashing Detergents room temperature rubber
8
Dishwashing Liquid 8
Disinfectants room temperature thermoplastic elastomer Polyester TPE
Dispersant
8 8
Diphenyl Methane Diisocyanate 2
elevated temperature
5
elevated temperature thermoset 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Distilled Water elevated temperature
thermoset 8
Diphenyl Oxide
thermoset 8
Vinyl Ester Resin
Distiller's Slop room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8 8 6 6 2 2 1-8 2 2 4 2
thermoset 7 9 9 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Diversey 514 room temperature thermoset 8
Polyester (Chlorendic)
Diversey 808 elevated temperature thermoset 8
Polyester (Chlorendic)
thermoset 2 2 2-9
Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature thermoset
elevated temperature rubber 8 8
Vinyl Ester Resin
Divinylbenzene Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoset
elevated temperature
Vinyl Ester Resin
rubber
rubber Fluoroelastomer (FFKM)
2 2 2 2
elevated temperature
Diphenylamine
room temperature 2
8
Polyurethane
elevated temperature
Dipentene Butyl Rubber
8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
thermoset 8
8 8 8 8 8
elevated temperature
thermoset
Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
2 2 2 8
rubber
elevated temperature
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset 8
room temperature
Dioxane (p-)
Dipropylene Glycol
Polyester (Chlorendic)
Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Polyester (Isophthalate)
1 4
8
elevated temperature
thermoset
Polyester (Bisphenol A)
rubber
Fluoroelastomer (FFKM)
room temperature
thermoset 3-9 3
elevated temperature rubber
elevated temperature
room temperature
8
Diphenylpropane
Diphenyl Ether
room temperature
thermoplastic elastomer
rubber Fluoroelastomer (FFKM)
Vinyl Ester Resin
Fluoroelastomer (FFKM)
Dioxane (1,4-) Olefinic TPE pvc Polyol
2 2 1-2 8 8 6 6 2 2 1-2 6 2 1-2 2
rubber
Polyester (Bisphenol A) Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
8
thermoset
thermoset
Diphenylene Oxide elevated temperature
thermoset
rubber
Diphenyl
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
2 1-2 8 8 4 2 2 6 8 2 1-2 2
elevated temperature Fluoroelastomer (FFKM)
elevated temperature Fluoroelastomer (FFKM)
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
865
Chemical Sort with POL Resistance Rating
rubber
DMA4
Fluorosilicone Silicone
elevated temperature thermoset Vinyl Ester Resin
8
Dow Corning 210 elevated temperature
DMA6
rubber
elevated temperature
Fluorosilicone
thermoset Vinyl Ester Resin
9
elevated temperature rubber
room temperature
Fluorosilicone
Vinyl Ester Resin
8
elevated temperature Vinyl Ester Resin
8
2 2
elevated temperature thermoset 8 8
Dodecyl Alcohol elevated temperature thermoset 8 8 8
elevated temperature rubber 8
Dodecylbenzenesulfonic Acid (75-97%) elevated temperature 8
Dodecylbenzenesulfonic Acid elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Dow Corning 11 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 4 8
elevated temperature rubber Silicone
6-9
Dow Corning 200 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
8 8 8 8 5-9 8 8 8 8 8 1-9 8
temperatur~
8 8 8 8 8 8 8 8 8 8 4 8
rubber
room temperature
9
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature Fluorosilicone Silicone
Dow Corning 55 rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 4 8
elevated temperature 7
Dow Corning 4 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 4-8 8
elevated temperature 3-7
Dow Corning 44L
Fluorosilicone Silicone
7 2-4
Dow Corning 550 room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 4-8 8
elevated temperature rubber Fluorosilicone Silicone
9 7-8
Dow Corning 702 rubber Silicone
2
Dow Corning 703
elevated temperature
elevated temperature
rubber Silicone
elevated temperature rubber
elevated temperature
rubber Silicone
8 8 8 8 8 8 8 8 8 8 4 8
rubber
rubber Fluorosilicone
8 2-4
room temperature
Dow Corning 304 rubber
8 8 8 8 8 8 8 8 8 8 4-5 8
rubber
elevated temperature Silicone
5-6
rubber
Dow Corning 33
thermoset Vinyl Ester Resin
6
elevated temperature Fluorosilicone
Dodecylbenzene Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 4 8
Dow Corning 510
rubber
thermoset
elevated Silicone
room temperature
room temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Dow Corning 211 elevated temperature Fluorosilicone
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyu rethane Silicone Styrene Butadiene Rubber
rubber
Dow Corning 220
Dodecene
Polyester (Chlorendic) Vinyl Ester Resin
9
rubber
thermoset
Polyester (Chlorendic) Polyester (Isophthalate)
9
Dow Corning 210H
Dodecane thermoset
4-9 1-8
7
rubber Silicone
3
Dow Corning 5 room temperature rubber
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
866
Chemical Sort with POL Resistance Rating Dowtherm room temperature
Dow Corning 710 room ternperature 8 8 8 8 8 8 8 8 8 8 4 8
elevated temperature 9 7-8
7 7
elevated temperature 8
8-9
rubber 5 7-8
Dow Corning FS1265 elevated temperature rubber 2 8-9
Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Dowtherm 209 (40-50% room temperature
)
rubber Ethylene Propylene Rubber Fluoroelastomer Neoprene Rubber Nitrile Rubber Silicone
8 2 6 4 4
elevated temperature rubber
Dow Corning FS1281 elevated temperature
Fluoroelastomer (FKM) Silicone
4-6 8
rubber Fluorosilicone Silicone
7 8
Dowtherm 209 (50-750/0) elevated temperature rubber
Dow Corning FS1292
Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
elevated temperature
2-6 3
rubber Fluorosilicone
6-7
Dowanol DB room temperature
8
8
Dowanol PM room temperature thermoset Vinyl Ester Resin
2-8
Dowclene EC room temperature Polyester (Chlorendic)
8
Vinyl Ester Resin
8
2 2-5 2 8 9 6 2 2-5 2 2 2 2-7 2
3-8 3
Fluoroelastomer (FKM) Silicone
8
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8 8 2-6
Dry Cleaning Fluids room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
8
DV 4709 elevated temperature rubber Fluoroelastomer (FKM)
Echant room temperature thermoset 4-6
Polyimide
ECR34 elevated temperature thermoset Vinyl Ester Resin
8
EDTA room temperature thermoset Vinyl Ester Resin
8
Fluoroelastomer (FKM)
5
Drain Cleaners
Elco M2C 105A elevated temperature rubber
thermoset 2
6-8
Fluoroelastomer (FKM)
Elco M2C 108A elevated temperature rubber
thermoset Polyester (Chlorendic)
2 2 1-2 8 8 6 2 2 4 2 2 1-2 2
elevated temperature
room temperature
Drewfax 260 elevated temperature
thermoset
thermoset
rubber 9
Polyester (Chlorendic)
Dowicide elevated temperature
Drewsperse 741
Elco L 14374 elevated temperature
rubber Fluoroelastomer (FKM)
thermoset
Vinyl Ester Resin
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
DP47
Dowfax 2A1 (40-500/0) elevated temperature Vinyl Ester Resin
6
elevated temperature
thermoset
8 8 2-6
Polyester TPE
rubber
Dowfax 2AO (30-40 0k) elevated temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
thermoplastic elastomer
elevated temperature
thermoset
thermoset
Dowtherm A
rubber
Fluoroelastomer (FFKM)
Drewsperse 738
room temperature Olefinic TPE
rubber
8 8 2-6
elevated temperature
Dual room temperature
thermoset 2
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Fluoroelastomer (FFKM)
thermoplastic elastomer
Dowanol P elevated temperature
thermoset
rubber
Dowanol EB room temperature Vinyl Ester Resin
Drewsperse 735
rubber
Fluoroelastomer (TFP) 2-8
8 8 8
elevated temperature
Dowtherm 209 room temperature
thermoset Vinyl Ester Resin
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature
thermoset
elevated temperature
Fluorosilicone Silicone
Phenolic Resin Urea Resin
Fluoroelastomer (FFKM)
rubber
Fluorosilicone Silicone
2 2 2 1-2 8 8 6-8 2 2 1 6 4-6 2
rubber
Dow Corning 710R room temperature Silicone
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset
rubber Fluorosilicone Silicone
thermoset
rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Drewsperse 732 elevated temperature
8
Fluoroelastomer (FKM)
6-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 • Chemical Sort
© Plastics Design Library
867 Chemical Sort with POL Resistance Rating
Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Elco M2C 111A elevated temperature rubber Fluoroelastomer (FKM)
4-5
Elco M2C 119A elevated temperature 4-6
Electisol «50/0) elevated temperature 8
Electroless Copper room temperature thermoplastic elastomer 9
PVC Polyol
Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2-8
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
9 9 9 1
Electroless Nickel (75-97°k)
elevated temperature Fluoroelastomer (FFKM)
Neoprene Rubber
9
thermoset
8 2 8
Ethanolamine
room temperature
rubber 9
Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP)
9 9 9 1
elevated temperature
thermoplastic elastomer PVC Polyol
rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol )
8 8
room temperature thermoset 2
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Enamel room temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 9
7 1 7 9
room temperature rubber Fluoroelastomer (FKM)
room temperature
elevated temperature
thermoset 8 7-9
6 2-7 5-6
2 1 1-2
2-6 2-5 1-2 2
2
Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Ether room temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
Ethers room temperature thermoplastic elastomer Olefinic TPE Polybutadiene PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoset
8 8
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
7 7 2 2 2
thermoset
room temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber
Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Ethane
room temperature 3 1
2
Etchant thermoset
6 6 2·4 6 2·6 2 6·9 2·9 2·9 2·6 2·4 5·7 6 6
4 2 2
3 5 5
rubber
elevated temperature
Epichlorohydrin thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Vinyl Ester Resin
rubber
9
Etch
Engine Oils
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
9 9 9
ESEL Fuel No. 20
thermoset
Polyester TPE PVC Polyol
7
thermoset 8 8
9
elevated temperature 5
room temperature
thermoset
Fluoroelastomer Fluoroelastomer (FKM)
8
thermoplastic elastomer PVC Polyol
2
thermoset
rubber
Esters
Emulsifiers elevated temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
3-4 3-7 7-8
thermoset
Embalming Fluid
Polyester (Bisphenol A) Polyester (Chlorendic)
8
room temperature
thermoset
Polyester Terephthalate
8 8
Essential Oils
elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
PVC Polyol
Erucic Acid Fluoroelastomer (FFKM)
Polyester (Chlorendic)
rubber
rubber Fluoroelastomer (TFP)
8
room temperature
elevated temperature
elevated temperature
1 7 7
thermoplastic elastomer
thermoset
Electroless Nickel
2 7
elevated temperature 8
room temperature
rubber
1-2
Ethanol Chloride
EP Gear Lubricants
room temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
rubber
Furane Resin Polyester (Chlorendic)
8 4
thermoset
1
room temperature Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Neoprene Rubber
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Eptam
rubber
Electrosol «5%
2 2
Epoxy
thermoset Polyester (Bisphenol A)
thermoset
elevated temperature
rubber Fluoroelastomer (FKM)
9 1-2 2
2
6 1-2
8 8 6 2 6
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
2 2 4 4 4
2 2 2 8
6·8 2 2 7 1
7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
4-8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
868 Chemical Sort with POL Resistance Rating
Polyurethane Silicone Styrene Butadiene Rubber
Ethoxyethanol (2-) room ternperature 5-8 7-8 6-8
thermoset 2 2 2 2
Ethyl Acetate room temperature thermoplastic elastomer 2-6 9 3-8 1 8 2-6 2
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 2 2 5-8 2 9 1-6 2 1-2 2-5 2-8 1-2 6 2-5 5-7
6 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Urea Resin Vinyl Ester Resin
7 1 2-8 9 2 2 2 2 5 7 2-7
elevated temperature rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
3 5 8
thermoset Epoxy Resin Furane Resin Phenolic Resin Polyester (Chlorendic)
4-8 8 8-9 2
8
Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPEU)
rubber
Olefinic TPE
6
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 2 6 2 1 1-2 2 2 1-2 6 2 6 2
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Ethyl Acrylic Acid room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Ethyl Alcohol (5-10%
6 2
6 2 2 6 2 2 2 2
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Isophthalate) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Vinyl Ester Resin
Polyester (Bisphenol A) Vinyl Ester Resin
9 2
6 8 2 2-7
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Fluorosilicone Neoprene Rubber Silicone
8 8 2 8 5
thermoset Phenolic Resin Polyester (Chlorendic)
8 8
rubber 8 8
Ethyl Alcohol (10-200/0) 8 8
thermoset
Ethyl Alcohol (20-300/0)
Vinyl Ester Resin
thermoset
Ethyl Benzene room temperature
5 5-6 3-9
Ethyl Alcohol (40-50%) room tern peratu re thermoplastic elastomer 6
Polyester TPE
2
thermoset 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
Ethyl Benzene (50-75%) room ternperature
elevated temperature Polyester Polyester (Isophthalate) Polyester (Orthophthalate)
8
Ethyl Amine elevated temperature Furane Resin
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Fluoroelastomer (FFKM)
thermoset
elevated temperature
Ethyl Alcohol (75-970/0) room temperature
2-8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 1-2 8 8 6 8 2 2 1-2 2 2 1-2 2
thermoset
thermoplastic elastomer
thermoset
2 8
elevated temperature
thermoset
Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8 8 8 5 6-8 4-8 9 1-9 8-9 1-8 6-9 7-9 1-9 8 2 1 6-9 8
Ethyl Aluminum Dichloride )
elevated temperature
elevated temperature 6 2 6 2 1 1 1-2 4 2 1-2 6
8 2-9 6-8 5-8 6 5
elevated temperature
rubber
Vinyl Ester Resin
rubber
2-8
Ethyl Alcohol room temperature
rubber
thermoplastic elastomer
thermoset
Ethyl Acetoacetate room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber
thermoplastic elastomer
Ethyl Acrylate 5-8 5-8 1-8
Ethyl Acetate (10-200/0) room temperature
Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8
room temperature
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Polyester (Chlorendic)
elevated temperature Fluoroelastomer (FFKM)
Ethoxyethyl Acetate (2-) room temperature Natural Rubber Neoprene Rubber Nitrile Rubber
Vinyl Ester Resin
thermoset
rubber Natural Rubber Neoprene Rubber Nitrile Rubber
2 6 4
7-8 5-7 5
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (tsophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2 2-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
869 Chemical Sort with POL Resistance Rating
elevated temperature
rubber
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
8
thermoset Phenolic Resin Vinyl Ester Resin
8 8
Ethyl Benzoate room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2-8 8 8 4 8 2 2 1-2 6 2 1-2 2
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer
Ethyl Bromide (5-10%)
Polyester TPE PVC Polyol Styrenic TPE
room temperature
rubber
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
elevated temperature thermoset Furane Resin
8
Ethyl Bromide room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
2 8 2 2 2 8 8 2 2 6
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
2 2 2
rubber
elevated temperature 8
elevated temperature Fluoroelastomer (FFKM)
8
Ethyl Cellosolve room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 1-6 2 1 1-2 2 2 1-2 6 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
Ethyl Cellulose room temperature
2-6 2 8 8 6 2 2 4-8 8 8 8 6 2-6 8 2 6 1-2 6
7 1 7 2 2 2 9 2-8
8 8
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
2 2 2-6 8 8 6 2 2 1-2 2 2 1-2 2
elevated temperature
room temperature thermoset Polyester (Isophthalate) Vinyl Ester Resin
2 2
elevated temperature Polyester (Bisphenol A)
Olefinic TPE PVC Polyol Urethane TPE (TPAU)
8
3-5 1-2 4-5
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
4 6 2 5 2-4 2 1-5 4 1-2 1-8 4-9 8 6 8 1-2 2
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
7 1 7
9 2 2 2 2
7 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
8
Ethyl Formate rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
elevated temperature Fluoroelastomer (FFKM)
Ethyl Glycol Ether 2 2 2-6 8 1 1-6
6 2 6 6 8 8 8 2 6 1-2 2 2
rubber
Ethyl Chloroformate rubber
8
room temperature
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone
8
Ethyl Chlorohydrin
Phenolic Resin
rubber Fluoroelastomer (FFKM)
8
thermoset
Ethyl Chlorocarbonate rubber
rubber
Polyester (Chlorendic)
elevated temperature
room temperature
room temperature
Ethyl Butyrate
thermoset
thermoplastic elastomer
thermoset Furane Resin
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
2 2 1-2 2 2 1-2 2
Ethyl Ether
elevated temperature
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset
Ethyl Chloride
rubber 8
7 1 7 9
rubber
elevated temperature Fluoroelastomer (FFKM)
6 6 6 2 1 1-2 6 6 6 2 6 4 6
8
room temperature thermoplastic elastomer PVC Polyol
2
rubber Natural Rubber Neoprene Rubber
6 8-9
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
870 Chemical Sort with POL Resistance Rating
Nitrile Rubber Polyvinyl Alcohol
6-8 5-6
Ethyl Hexanol Formaldehyde (2-) (30-40%) room temperature rubber Fluoroelastomer (FKM)
9
8
Ethyl Hexyl Acrylate (2-) elevated temperature thermoset 8
Ethyl Hexyl Alcohol room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 6 2 6 8
elevated temperature Fluoroelastomer (FFKM)
8
thermoset
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 4 2-4 6 6 2 4 1-2 2 4 2
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8
Ethyl Silicate
Fluoroelastomer (FFKM)
thermoset 7 1 7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature rubber
Ethyl Stearate 8
Ethyl Sulfate room temperature
8
2-8
thermoset 8
Furane Resin
Ethyl Valerate rubber Fluoroelastomer (FFKM)
8
Ethylamine (50-75%) room temperature
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber
6 8 7-8 8 8 7 7 7
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
Ethylene Chloride (75-97%) elevated temperature thermoset 2 2
Furane Resin Polyester (Chlorendic)
Ethylene Chloride room temperature thermoplastic elastomer 3-7 7
Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Polyurethane Silicone Styrene Butadiene Rubber Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2-4 6 6 4 2 2 1-2 6 2 1-2 2
8
Olefinic TPE
Ethylamine room temperature
2 2 2 2 2
elevated temperature rubber 8
Ethylene Ch loroformate room temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer
2 2 2
Ethylene Chlorohydrin room temperature thermoplastic elastomer
thermoplastic elastomer PVC Polyol
rubber
Fluoroelastomer (FFKM)
elevated temperature 2 2 2 2-8 8 8 6 2 2 1-2 8 8 1-2
8
thermoset
elevated temperature
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
8
elevated temperature
Vinyl Ester Resin
Ethyl Oxalate room temperature
Fluoroelastomer (FFKM)
Ethylene room temperature
Fluoroelastomer (FFKM)
8 8 6 8 8 8 8 6 8 8 6 6
thermoset
rubber
elevated temperature rubber
elevated temperature
Fluoroelastomer (FFKM)
Ethyl Nitrite elevated temperature
2 2 2 8 8 2 4 8 6 8 2 2
rubber
rubber
6
8
room temperature
Ethyl Methacrylate Olefinic TPE
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset
rubber
room temperature thermoplastic elastomer
8
Ethyl Pyridine elevated temperature
Fluoroelastomer (FFKM)
elevated temperature rubber
2 4 2 1-2 8 8 6 2 2 1-2 2 2 1-2 2
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8
8
rubber 2
rubber
Ethyl Mercaptan room temperature
Fluoroelastomer (FFKM)
Ethylcyclopentane room temperature
Ethyl Lactate Fluoroelastomer (FFKM)
8
Ethyl' Parathion room temperature
elevated temperature rubber
8
rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
rubber
Styrenic TPE
elevated temperature
Ethyl Pentachlorobenzene room temperature
thermoset
Polyester (Bisphenol A)
2
rubber
Vinyl Ester Resin
Ethyl Hexyl Acetate (5-100/0) room temperature Polyester (Chlorendic)
Styrene Butadiene Rubber
elevated temperature
2
Olefinic TPE PVC Polyol Styrenic TPE
6 2 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
871 Chemical Sort with POL Resistance Rating
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 6 6 8 8 8 6 6 6 1-2 6 2 4 6
thermoset Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2
elevated temperature
thermoset Diallyl Phthalate Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
7 2 2 2 2 2-8
elevated temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Neoprene Rubber Phenolic Resin
Fluoroelastomer (FFKM)
8
thermoset Polyester (Chlorendic)
8
Ethylene Cyanohydrin
8
Fluoroelastomer (FFKM)
8
room temperature Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Urea Resin
7 7 2 7
Ethylene Dibromide (50-750/0)
8
2
Ethylene Dibromide
elevated temperature
thermoplastic elastomer 2 4 2 4 8 4 2 2 2 2 2 2 2
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Ethylene Glycol (40-50%)
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU)
2 2-6 1-2 8 3
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber FJuoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber
4 2 2 3 4 8 7-8 6 4-5 2 1-8
8 8 8 8 8 8 8
Polyam ide TPE Urethane TPE (TPAU) Urethane TPE (TPEU) Fluoroelastomer (FKM) Fluorosi Iicone Silicone
thermoplastic elastomer
9 4-8 6-8
elevated temperature
6-9 9 8-9
Ethylene Glycol (75-97%) thermoplastic elastomer 6
Ethylene Glycol room temperature thermoplastic elastomer 8-9 8 7-9 5-9 6 6-8 6 8 8 8 8-9 8 8 8 8-9 8-9 8-9 8-9 4 6 5-7 8 8
thermoset Oiallyl Phthalate Resin Phenolic Resin
8
rubber Fluoroelastomer (FFKM)
8
Ethylene Oxide room temperature thermoplastic elastomer 8 8
rubber 4
elevated temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Olefinic TPE
Polyester TPE Styrenic TPE
rubber
Olefinic TPE Polyam ide TPE Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8 8 8
Ethylene Hydrochloride
Ethylene Glycol (50-750/0)
Urethane TPE
Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
6-8 6-8
elevated temperature Silicone
2 2
room temperature
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoset
Ethylene Glycol Methyl Ether
room temperature
rubber
Ethylene Dichloride
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosil icone Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 6-8 8 9 8
thermoset 7-8 9
rubber
room temperature
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Neoprene Rubber
Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer
thermoset
7-9 4-8 4-8
Ethylene Glycol Butyl Ether
elevated temperature
room temperature
Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
room temperature
Ethylene Propylene Rubber Silicone
thermoset
elevated temperature thermoplastic elastomer
elevated temperature
rubber
Ethylene Diamine
2 7
thermoset
Ethylene Glycol (30-40 0k)
rubber
Polyurethane Urea Resin
thermoset 2 5 8 2
Ethylene Disulfonic Acid Furane Resin
elevated temperature
Olefinic TPE
1-3 2 2 9 1-4 2
thermoset
rubber
Polyester (Chlorendic)
Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
7-9 7
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 2 2-3 3 3-4 2 1 1-2 2 2-8 1-5 2 1-6 2
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Silicone
8 1 1-7
thermoset Furane Resin
8
Ethylene Tetrachloride elevated temperature thermoset Furane Resin
8
Ethylene Trichloride room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
4 2 4 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
872 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 4 2 2 1-2 2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
8 8 6 8 2 8 1-3 8 1-2 6 8 8 2 2 8 6 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Ethylenediaminetetraacetic Acid room temperature thermoset Polyester Terephthalate Vinyl Ester Resin
2 8
elevated temperature 8
Ethyleneimine elevated temperature rubber Fluoroelastomer (FFKM)
8
Ethylhexyl Alcohol (2-) elevated temperature 8
Ethylhexyl Orthophosphoric Acid (Di-2-) (10-20 %) elevated temperature 8 8
Ethylhexyl Phosphate (Di-2-) elevated temperature 8 8 8
Ethylmorpholine room temperature 1-2
elevated temperature 8
Ethylmorpholine Stannous Octoate (40-50%) room ternperature
9
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
ET387
8 8 8 8 8 8
Ferric Acetate elevated temperature 8 8 8
Ferric Ammonium Sulfate
Eucalyptus Oil
elevated temperature
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
rubber Fluoroelastomer (FFKM)
room temperature
room temperature
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
elevated temperature
elevated temperature
thermoset Polyester (Chlorendic)
8
room temperature
elevated temperature
thermoset Polyimide
9
F 61
room temperature thermoset Diallyl Phthalate Resin 9
9
Ferric Chloride (40-500/0)
elevated temperature rubber Fluoroelastomer (FKM)
8
Ferric Chloride (30-40%)
F60 rubber Fluoroelastomer (FKM)
8-9
Ferric Chloride (50-75%)
Fats
elevated temperature
room temperature
rubber Silicone
6
4-8
Ferric Ch loride
Fatty Acid Esters
room temperature
elevated temperature
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
elevated temperature thermoset Furane Resin Polyester (Chlorendic)
2 2
room temperature thermoplastic elastomer Olefinic TPE pvc Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
6 8 6 2 2 2-4 8 8 4 6 6 2 4 2
7 9 9 3
rubber Fluoroelastomer (FFKM)
7 7
Ferric Chloride (20-300/0)
Exhaust Gases thermoset Polyester (Isophthalate)
8
Ferric Chloride (5-100/0)
Exalt
elevated temperature 6 6
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Fatty Acids
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
rubber Butyl Rubber Ethylene Propylene Rubber
8
Fatty Acids (20-30%)
rubber Fluoroelastomer (FKMffFE)
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
thermoplastic elastomer Olefinic TPE
thermoset Vinyl Ester Resin
thermoplastic elastomer Urethane TPE (TPAU)
Ethylsulfuric Acid elevated temperature
rubber Fluoroelastomer (FKMffFE)
room temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
2 2 2
elevated temperature
Ethylenediamine rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Fluoroelastomer Nitrile Rubber Styrene Butadiene Rubber
6 7 8 8 8 8 6 7 8 8 8 8 8 6-8 8 8 8 6 8
7 7 7 7
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (I sophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 4 8 8 8 8 8 8
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
873 Chemical Sort with POL Resistance Rating
Ferric Ferrocyanide
Fluoroelastomer (FFKM)
elevated temperature
Ferrous Ammonium Sulfate
rubber Fluoroelastomer (FFKM)
8
Ferric Hydroxide elevated temperature
Ferrous Carbonate 8
Ferric Nitrate room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8 8 4
8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature thermoplastic elastomer PVC Polyol Styrenic TPE thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Ferric Salts thermoplastic elastomer PVC Polyol
8
Ferric Sulfate (10-200/0) elevated temperature rubber Ethylene Propylene Rubber thermoset Polyester (Chlorendic)
7-8 8
thermoplastic elastomer PVC Polyol
8 8 8 8 8 8 8 8 8 8 8 6 8 7 7 7 7
rubber Fluoroelastomer (FFKM)
elevated temperature rubber
8 8 8 8
elevated temperature
8
room temperature thermoset Polyester (Isophthalate)
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2
8
2 8 2·8 2·8 2·9
Fluoborate Salts room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
8 8
Fluoboric Acid (5-100/0) room temperature thermoset Polyester (Chlorendic)
8
elevated temperature 8 8 7 7 7 7
8 8 8 8 8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
7-8 8 7·8
Fluoboric Acid (10-20%) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
7 7
Fluoboric Acid (20-300/0) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
7 7
Fluoboric Acid room terrlperature 8
room temperature
thermoset
Floor Polish
elevated temperature 8
Fertilizers thermoplastic elastomer Olefinic TPE thermoset Polyester (Isophthalate) Vinyl Ester Resin
4
Flue Gases
Ferrous Tartrate
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Ferrous Ammonium Citrate
Fluconic Acid
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
8 8 8 8 8 8
8 8 8 8
room temperature thermoplastic elastomer PVC Polyol Styrenic TPE thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8 8 8
room temperature
Ferrous Sulfate
elevated temperature 8
thermoset Polyester (Chlorendic)
Ferrous Salts
room temperature 8 8
8
elevated temperature
room temperature
8
Floor Cleaners rubber Polyurethane
Ferrous Nitrate thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1
8 8 8 8 8
room temperature
7 7 7 7
elevated temperature
Ferric Sulfate thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8
Ferrous Iodide rubber Fluoroelastomer (FFKM)
room temperature
8
Ferrous Chloride
elevated temperature
8 8 8 8 8 8
8
rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
8
Ferrous Chloride (20-300/0) thermoset Polyester (Bisphenol A)
8 8
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
Polyester (Chlorendic) Vinyl Ester Resin
Fish Oils
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
8 8 5
thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
8 8 8 8 8 6 8 8 8 8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
874
Chemical Sort with POL Resistance Rating
thermoset Polyester (Isophthalate)
2
elevated temperature 8 8 7-8 7-8
Fluoride Salt (20-30%) elevated temperature thermoset Polyester (Chlorendic)
Fluoride Salt elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
7 7
Fluorinated Cyclic Ethers
Fluoroelastomer (FFKM)
8
elevated temperature
8
Fluoroelastomer
room temperature
Fluosilicic Acid (5-100/0) 4 1-4 6 6 1 2 1-2
thermoset 1 1 1 2 2 1 7
elevated temperature rubber Fluoroelastomer (FFKM)
6
thermoset Furane Resin
6
rubber 2 2 1-2 8 8 6
2 2 1-2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Fluorocarbon Oils room temperature Butyl Rubber Ethylene Propylene Rubber
8 8
elevated temperature Fluoroelastomer (FFKM)
6
Fluorochemical Fluid rubber Fluorosilicone Silicone
9 9
room temperature rubber Fluoroelastomer (FKM)
2
Fly Ash thermoset Polyester (Bisphenol A) Vinyl Ester Resin
7 7-8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 7-8 7-8 7-8
Fluosilicic Acid (20-300/0) elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoset 8 8 8 8
Formaldehyde (30-40%) thermoplastic elastomer
8 8 8 8
Olefinic TPE Polyester TPE PVC Polyol
2 6 6-9
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber
room temperature thermoset
elevated temperature
Fluosilicic Acid (30-40%) 2 2
Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature
8 6-8 8 8-9 8-9 8-9
thermoset Oiallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyester Polyurethane
8 9 8 9
8
rubber Chlorosulfonated PE Rubber Neoprene Rubber
2 2
thermoset 8 8
Fluosilicic Acid room temperature thermoplastic elastomer Polyester TPE PVC Polyol Styrenic TPE
7 8 8
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone
8 7 6-7 8 1 8 8 8 1 8 2
Phenolic Resin Polyester (Isophthalate)
elevated temperature Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Fluosulfonic Acid
rubber
room temperature
1-7 8 8
8
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 0 2
8 8
Formaldehyde (50-750/0) elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
Formaldehyde room temperature thermoplastic elastomer
8 8 8 8 7 7
elevated temperature
Epoxy Resin Furane Resin Polyester (Chlorendic) Vinyl Ester Resin
Formaldehyde (40-500/0)
thermoset
room temperature
Fluothane
room temperature
elevated temperature
rubber
rubber
8 8
8
Furane Resin Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Formaldehyde (20-300/0) 8
9
Furane Resin Polyester (Chlorendic)
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6
thermoset
Fluorobenzene
8
thermoset
elevated temperature
rubber
Fluorine rubber
2 2
elevated temperature
Fluoroelastomer (FFKM)
rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
2
elevated temperature
Fluorosilicone
Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Nitrile Rubber Polysulfide Rubber Silicone
8 6 6 6 8 8 8 8
rubber
elevated temperature Fluoroelastomer (FFKM)
8
8
rubber
rubber Ethylene Propylene Rubber
Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Fluorophosphoric Acid
room temperature
Polyester (Chlorendic) Polyester (Isophthalate)
rubber
elevated temperature
thermoset
thermoset
elevated temperature
room temperature rubber
thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
9 8-9
Fluorolube
rubber Fluoroelastomer (FFKM)
Fluorosilicone Silicone
Olefinic TPE PVC Polyol Styrenic TPE
8 5-9 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP)
8 6 4
8 2 1
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
875 Chemical Sort with POL Resistance Rating
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester Terephthalate Urea Resin
1-2 5-6 4-9 4-9 6 2 2 6 4 3 3 7 9 2 9
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 2-8 8-9
Formalin room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber
6-9 8-9 9 8-9
Formamide room temperature thermoset Polyester (Isophthalate)
6
elevated temperature rubber Fluoroelastomer (FFKM)
8
Formic Acid (5-100/0) room temperature thermoplastic elastomer Polyester TPE Urethane TPE (TPAU) thermoset Polyurethane
7-8 7 6
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Formic Acid (20-300/0) room temperature thermoplastic elastomer Polyester TPE
7-8
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Formic Acid (40-500/0) room temperature thermoplastic elastomer Polyester TPE thermoset Polyester (Isophthalate) Polyester Terephthalate
5-6 2 8
elevated temperature thermoset Furane Resin Vinyl Ester Resin
8 8
Formic Acid (75-970/0) room temperature thermoplastic elastomer Polyam ide TPE PVC Polyol rubber Natural Rubber Neoprene Rubber
0-4 5-9 7-9 9
Nitrile Rubber Polyvinyl Alcohol thermoset Polyester
5-7 1 7-9
thermoset Oiallyl Phthalate Resin Phenolic Resin Vinyl Ester Resin
elevated temperature
elevated temperature
thermoplastic elastomer Polyamide TPE thermoset Phenolic Resin Vinyl Ester Resin
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
0 1 8
Formic Acid room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin
6 3-6 5 8 5 2 4 6 8 7 8 4 4 6 4 8 8 6 2 6 8
2 6 8 3 5
Freon 114 room temperature
6-7
Freon 11 room temperature thermoplastic elastomer Polyamide TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Freon 113 room temperature 4-8 7-9 7 2 8 8 5 2-4 6 5-6 1-2 2 8 8 8 6 1-4 6
elevated temperature
Freon 11 (40-500/0) elevated temperature rubber Fluoroelastomer (FKM)
2 6 1-2 8 8 2 6 6 8 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Polyester TPE rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
Freon room temperature thermoplastic elastomer PVC Polyol Styrenic TPE Urethane TPE (TPAU) thermoset Alkyd Resin Urea Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
3-4 8 2 2
elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
7 6 5
Freon 112 room temperature
thermoplastic elastomer Olefinic TPE Polyester TPE Urethane TPE (TPAU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
1 7 7 2 2 2 1
8-9 8 8
2-8 8 4-8 2-6 2 8 5 1-2 8 4-6 5 6 2 2-6 6 8 2 1-2 2
thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 6 8
8 8 8 8 2-8 6 6 6 8 8 8 8 8 1-2 8
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
7 6 7
Freon 11482 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber
2 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
876 Chemical Sort with POL Resistance Rating
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
1-2 6 4-6 5 2 8 6 6 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
6
Freon 115 room temperature
rubber
8 8 8 6-7 6 8 8 8 8 2 8
elevated temperature rubber Fluoroelastomer (FFKM)
6
Freon 116 elevated temperature 6
thermoplastic elastomer 8 5 5
rubber 6 8 8 6 5-6 6 5-6 2-4 6 8-9 8-9 8 8 1-2 8
thermoset Diallyl Phthalate Resin Phenolic Resin
8 8
elevated temperature 9 8 6 4-6 8 3
thermoset Polyam inobismaleim ide
8
Freon 1282 room temperature thermoset Diallyl Phthalate Resin
Freon 13 room terrlperature rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6
8 8 8 8 9 8 8 8 8 8 2 8
elevated temperature rubber Fluoroelastomer (FFKM)
6
8-9
Ethylene Propylene Rubber Fluoroelastomer (FKM) Nitrile Rubber
8 1 8
elevated temperature rubber Fluoroelastomer (FFKM)
6
Freon 21 room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 6 2 1-2 2 1 2 6 1-2 2 1-3 2
thermoset Diallyl Phthalate Resin Phenolic Resin
8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Freon 218 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Freon 22 (40-500/0) elevated temperature rubber Fluoroelastomer (FKM)
5
Freon 22 room temperature thermoplastic elastomer 5 5
rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8 8 6-8 2 1 8 8 8 8 8
rubber 6
Freon 152A room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 2 2-8 2 1-2 2 1-2 8 8 1-2 2 2 1-5 8
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
Freon 1528 room temperature
rubber
Urethane TPE (TPAU) Urethane TPE (TPEU)
Freon 1428 room temperature
Fluoroelastomer (FFKM)
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Neoprene Rubber Nitrile Rubber
Fluoroelastomer (FFKM)
elevated temperature
thermoplastic elastomer Polyamide TPE
8 8 8 8 5-6 6 8 8 8 8 8 1-2 8
rubber 4 6
Freon 12 room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Freon 14 room temperature
rubber
Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Freon 1381 room temperature
elevated temperature
Freon 12 (40-500/0) elevated temperature Fluoroelastomer Fluoroelastomer (FKM)
6
rubber
rubber Fluoroelastomer (FFKM)
8 8 8 8 8 6 1-2 8 8 8 8 1-2 8
elevated temperature Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 4 8 2 8 8 8 8 8
Diallyl Phthalate Resin Phenolic Resin
8 8
elevated temperature thermoplastic elastomer Polyam ide TPE
2-5
rubber Chlorosulfonated PE Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Neoprene Rubber
8 3 6-8 5 4 8
thermoset Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
877 Chemical Sort with POL Resistance Rating
Polyam inobismaleim ide
8
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) 8
Freon 31 8 6 8 2 1 6 6 8 1-2 4 6
elevated ternperature rubber Fluoroelastomer (FFKM)
8
8 8 8 2 1 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Freon 502 8 8 2-6 6 4 8 8 6 8
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKMffFE)
6 6
rubber Fluoroelastomer (FFKM)
6
Freon MF room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 1-2 6 6 2 2 6-8 8 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
6
Freon TA room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 6-8 4 4 8 8 8 8 8 4-8 8
6
8 8 6 8 8 2 8 8 8 8 1-2 6
elevated temperature 8
rubber Fluoroelastomer (FFKM)
8
Freon TF room tem peratu re
rubber 8 8 8 8 8 8 8
thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
Fluoroelastomer (FKM) Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 1-2 7-9 8-9 8 8 8 1-2 6
elevated temperature rubber Fluoroelastomer (FFKM)
6
Freon TMC room temperature thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 6 4-6 8 8 1-6 1-6 1-6 8 6 8 4 4
elevated temperature rubber Fluoroelastomer (FFKM)
8
Freon TP35 room temperature
rubber 2 6 1-2 8 8 2 6 6 8 1-2 2
Freon C316 room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber
elevated temperature
Freon TC room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8 8 8 7-8 6 8 8 8 8 8
elevated temperature 5
Freon BF room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
rubber
room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
8
Freon C318 room temperature
rubber
Freon 32 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8
rubber
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
Styrene Butadiene Rubber
elevated temperature
Freon 23 elevated temperature
1-6 2 8 8 1-2 6
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Freon TWD602 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 6 6 8 8 4 6 6 8 8 1-2 6
elevated temperature rubber Fluoroelastomer (FFKM)
8
Fruit Acids room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1 9 9 3
Fruit Juices room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
3 7 7
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
878 Chemical Sort with POL Resistance Rating
FR Fluid
Fungus
elevated temperature
room temperature thermoplastic elastomer
rubber Fluoroelastomer (FKM)
8
Alkyd Resin Diallyl Phthalate Resin Urea Resin
room temperature thermoplastic elastomer Olefinic TPE
4
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 8 2-4 1-2 8 8 8 2 2-6 6-8 8 2-6 1-8 2 5 9 7 9
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room terrlperature
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8
3
Fumaric Acid room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
2 6 6 8 8 8 8 6
8 6
8
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated ternperature rubber 8 8 8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
elevated temperature
Furyl Carbinol 6 1
8
Fungicide elevated temperature
3 3 5 9 2 2 2
3 2
rubber
8 1-4
8 9
Furfural Alcohol thermoset 2 2-7
Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 2 2 2 2 2 2 2 2
Fyrquel room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8 8 4 1 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Fyrquel150 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2
8 8 6 2 2 2 2 2 8 2
elevated temperature rubber
Furfuraldehyde
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
6 2 2-5 2 5-6 2 1 6 2-6 2-8 1-2 2 5-7 1-2 2
thermoset
Furane Resin Phenolic Resin
8
room temperature
thermoplastic elastomer
room temperature
thermoset
elevated temperature rubber Fluoroelastomer (FFKM)
thermoset 2 2
8 8
room temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
8
3
thermoset
Furfural
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 6 9 9 2 2 2 2 2 2 2 2
Furoic Acid 8 8
Furane Resin Vinyl Ester Resin
Fluoroelastomer (FFKM) Fluoroelastomer (FKMITFE) Furane Resin Phenolic Resin
Furfural (5-100/0)
room temperature thermoset
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKMITFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
Fumigants
Furane Resin
8
6
rubber
thermoset
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Polyester (Chlorendic) Polyester (Isophthalate)
2 2 4 2 2 1-2 6 2
elevated temperature
rubber Fluoroelastomer (FFKM)
Olefinic TPE
rubber
rubber 5 7 7 9
Furfuryl Alcohol thermoplastic elastomer
room temperature
Olefinic TPE PVC Polyol
thermoset
2 2 2 2 2 2 2
room temperature
Furan
thermoset 8 8 8 8 8 8
Fuels Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
9 7 1
Furfural «5%)
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
4-8
Olefinic TPE
thermoset
Fuel Oils
Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Silicone Styrene Butadiene Rubber
Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber
8 8 8
6 2 6
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
879 Chemical Sort with POL Resistance Rating
8 2 8 8 6 2 2 2 2 2 8 2
elevated temperature rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
7-8 8
Fyrquel GT elevated temperature rubber Fluoroelastomer (FKM)
6-9
Galecron room temperature thermoset Vinyl Ester Resin
8
Gallic Acid room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 6 6 6 8 8 8 8 6 6 2 6 8 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Vinyl Ester Resin
8 8 8
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluoroelastomer (VOF/CTFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Furane Resin Melamine Resin Phenolic Resin Polyester Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate) Polyimide Urea Resin Vinyl Ester Resin
4-5 2-8 4-8 2-5 3 4-8 4-6 2 8 2-6 4 1-4 7-8 9 6-9 5-6 5-6 4-8 1-2 1-8 6-9 6-8 2-6 8 1-7 2 5 5 8 8 7 5-9 8 2-9 7-9 9 8 2
elevated temperature thermoplastic elastomer Polyamide TPE Polyester TPE rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Polyurethane thermoset Polyester (Isophthalate) Vinyl Ester Resin
2-5 7-8 4-5 8 8 4 8 8
thermoplastic elastomer Olefinic TPE Urethane TPE (TPAU) rubber Fluoroelastomer (FKM)
elevated temperature
thermoplastic elastomer Olefinic TPE
6
elevated temperature rubber Fluorosi Iicone
elevated temperature rubber Fluoroelastomer (FKM)
Gear Lubricants
Gasohol
rubber Fluoroelastomer Fluoroelastomer (FKM)
room temperature
Gear Oils
thermoplastic elastomer Olefinic TPE rubber Fluorosilicone thermoset Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
2 3·4 2 2
elevated temperature thermoset Vinyl Ester Resin
8
Gasoline (7S-97%) room temperature thermoplastic elastomer Olefinic TPE
2-6
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
2
Glass Cleaners room temperature rubber Polyurethane
8
Glauber1s Salt 1 9 1 9
Glaubers Salt 7
elevated temperature 8
8
Girling Crimson
rubber Fluoroelastomer (FKM)
thermoset Polyam inobismaleim ide
8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
room temperature
8
room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
room temperature
Gear Box Oil
7 7 2-7
Gelatins
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
8 8 8 8 8 8 8 8 8 2 2 8 8
elevated temperature thermoset Polyester (Bisphenol A)
room temperature
Gases
6-9
room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate)
Gallotannin
9
8-9 7-9
Gelatin
Gasoline Additive
thermoset Polyester (Chlorendic)
2
elevated temperature
room temperature
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Styrene Butadiene Rubber
Gasoline
Fyrquel220
5 7-9
9 9
2 2 2 8 8 2 2 8 8 8 2
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
6 6 6 6 8 8
6 6 1-2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Gluconic Acid (40-S0%) elevated temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
880 Chemical Sort with POL Resistance Rating
Vinyl Ester Resin
Gluconic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8 8 8 8 8
room temperature 8 8 8
rubber
8 8 8 8 8
'thermoplastic elastomer
8 8 6 8-9 9
room temperature thermoplastic elastomer Polyester TPE Styrenic TPE
8 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8
8 8
7 8 8-9 8 8 8 8 8 8
6 2 8 8
8 9
8
elevated temperature 8
Glycerine 8 8
8 8
8
8 8 8
Glycolic Acid (SO-75%) elevated temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8 8
Glycolic Acid elevated temperature rubber
8 8
room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
9 9
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
8 8 8 8 8 8
8 8 8 2 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset
Glycerol Chlorohydrin elevated temperature rubber
8
Fluoroelastomer (FFKM)
8
thermoset
8
Furane Resin
Glycerol Dichlorohydrin
elevated temperature
elevated temperature
8
8
8
Glyconic Acid (40-S00/0) elevated temperature thermoset
8
Vinyl Ester Resin
Glyoxal (30-400/0)
thermoset 8
Furane Resin
8
Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8
Glutamic Acid 8
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Vinyl Ester Resin
thermoset
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
Glycols
Glycerine (50-750/0)
thermoset
Glycolic Acid (30-40%)
9
8
8 8 8
8
elevated temperature
8
8
Polyester (Chlorendic)
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature
rubber
8
thermoset
thermoset
rubber
Fluoroelastomer (FFKM)
elevated temperature rubber
elevated temperature
elevated temperature Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
Fluoroelastomer (FFKM)
8 8
7 7 7 9 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyurethane Urea Resin
8
8 2 8 8 8
elevated temperature rubber
8
thermoset
Chlorosulfonated PE Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE) Neoprene Rubber
Glues
8
Glycidol
Glycol Ether
room temperature 7 7 7 9
8
Glyceryl Phosphate Fluoroelastomer (FFKM)
6-9
rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (FFKM)
rubber
Glue thermoset
8
elevated temperature
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7 7 7 9
8
rubber
8 8
8 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
rubber
elevated temperature Fluoroelastomer (FFKM)
Glycerophosphoric Acid elevated temperature
8
8 8 8 2 2 8 8
Fluoroelastomer (FFKM)
elevated temperature
8 8 8 8
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
Glutaric Acid (40-S00/0)
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber
Glycerin
thermoplastic elastomer Olefinic TPE PVC Pblyol Styrenic TPE
elevated temperature thermoset
Polyester (Bisphenol A) Vinyl Ester Resin
Glucose
Fluoroelastomer (FFKM)
Glycerol Triacetate
Polyester (Bisphenol A)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
9
Glutaraldehyde
room temperature thermoset
Glutaraldehyde (40-500/0)
Glycerol Dichlorohydrin"
Vinyl Ester Resin
elevated temperature
elevated temperature
elevated temperature
thermoset
rubber
thermoset
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plas tics Design Library
881 Chemical Sort with POL Resistance Rating
Polyester (Bisphenol A)
8
Glyoxylic Acic elevated temperature rubber Fluoroelastomer (FFKM)
8
Glyoxylic Acid (20-300/0) elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 6 2 2 6
Glysantin (40-500/0) room temperature 9
elevated temperature thermoplastic elastomer Urethane TPE (TPAU)
3
8
8
Gravy elevated temperature thermoset 8
thermoset
5 5 9
Greases room temperature thermoplastic elastomer 6
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2-6 2 8 8 2 2-6 8 8 8 2-9 2
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FKMffFE) Silicone
9 4-7 1-8
Green Liquor room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate)
3 7 9 2 2
elevated temperature 8 8
rubber 8 8 6
Heat Transfer Fluids rubber Fluoroelastomer (FKMffFE)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Heptachlor rubber
1 9
Fluoroelastomer (FFKM)
5 3
Heptachlorobutene elevated temperature Fluoroelastomer (FFKM)
6-8
Halothane room temperature
rubber
rubber
Heptane room temperature
Fluoroelastomer (FFKM) 2 2 2 8 6 2 2 2 2 2 2 2
elevated temperature rubber 8
Halowax Oil room temperature rubber 2 2 1-2 8 8 8 2 2 1-2 8 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature
Heptaldehyde elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8 8
rubber Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FFKM)
9
Helium room temperature
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7
elevated temperature
Hair Dyes room temperature
8
8
8
8
thermoplastic elastomer Olefinic TPE Polybutadiene Polyester TPE
4
3 6
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 6 2 8 4 8 2 6-8 6-8 8 6 2 2
thermoset Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7-9 5-7 9
elevated temperature rubber Fluoroelastomer (FFKM) Fluorosilicone
8 5
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 9 8 8 8 8
Heptane (n-)
room temperature
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Green Sulfate Liquor room temperature Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber
Hafnium Hydroxide room temperature Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber Fluoroelastomer (FKM)
elevated temperature 8
Halso 99
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Gypsum
Polyurethane
Grease room temperature
Olefinic TPE
7 7 9 7
thermoset
thermoset
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
rubber 8
Green Vitriol room temperature
Polyester (Chlorendic)
Grass Killer room temperature
Vinyl Ester Resin
Fluoroelastomer (FFKM)
thermoset
thermoplastic elastomer
Vinyl Ester Resin
elevated temperature rubber
elevated temperature
Grape Juice room temperature Polyester TPE
8 8 8 6 6 6 6 2 8 8 6
thermoset
thermoplastic elastomer Urethane TPE (TPAU)
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset 2 2 2 2
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8
8
Hanover MIL-H-83282
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
882
Chemical Sort with POL Resistance Rating
room temperature
Heptanoic Acid
rubber
elevated temperature rubber Fluoroelastomer (FFKM)
8
Herbicides (5-100/0) room temperature thermoset Polyester (Isophthalate)
2-8
elevated temperature thermoset Furane Resin Polyester (Chlorendic)
8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Herbicides
elevated temperature
room temperature
rubber
Polyester TPE
8
thermoset Polyester (Isophthalate) Vinyl Ester Resin
2 5
elevated temperature Furane Resin Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Hercoflex 600 Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
6 4
8
Hexachlorobutadiene
Hexachlorobutene
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
2 8 2
elevated temperature
Hexamethylenetetramine elevated temperature 8 8 8
Hexachloroethane
room temperature thermoplastic elastomer
thermoset Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
7
Hexaethyl Tetraphosphate elevated temperature rubber Fluoroelastomer (FFKM)
8
Hexafluoroethane elevated temperature rubber Fluoroelastomer (FFKM)
6
Hexafluoroxylene elevated temperature rubber Fluoroelastomer (FFKM)
Hexaldehyde
4-9 6-9 8 1 8
Olefinic TPE Polyam ide TPE Polyester TPE PVC Polyol Urethane TPE (TPAU)
rubber
thermoset Vinyl Ester Resin
8
Hexane
room temperature
8
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
thermoset
1 8 8 6 1
rubber Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
8
Hexyl Acetate rubber Fluoroelastomer (FKMrrFE)
Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
rubber
8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
4
rubber
elevated temperature
thermoset
thermoset Furane Resin Polyester (Chlorendic) Vinyl Ester Resin
8
room temperature
thermoset
thermoplastic elastomer
room temperature
Hexamethylenetetramine (20-300/0)
room temperature
8
elevated temperature 8
elevated temperature
Hexach lorocyclopentadiene
thermoset
Hexone
rubber
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8
Hexamethylenediamine
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
elevated temperature 8
8 8 8 8 8
elevated temperature
rubber
rubber
rubber
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Olefinic TPE
4-5 6-9 9 8
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
Hexamethylene Diammonium Adipate
elevated temperature Fluoroelastomer (FFKM)
2
rubber
rubber Fluoroelastomer (FFKM)
pvc Polyol
elevated temperature
elevated temperature
8
thermoset
room temperature
thermoplastic elastomer
Hexamethylene
Hexachloroacetone
4-6
Fluoroelastomer (FFKM)
Hexene
room temperature
elevated temperature
rubber
Polyam ide TPE
rubber
Vinyl Ester Resin
Hexamethyldisilazane
Hexamethyldisilizane
elevated temperature
elevated temperature 'thermoplastic elastomer
Hexanediol 8
rubber
thermoset
8 5-8 8
elevated temperature
Fluoroelastomer (FFKM)
thermoplastic elastomer
6 4 6-8 2 1 1-2 2 8 1-2 6 6 6 2
Oiallyl Phthalate Resin Phenolic Resin Polyester Terephthalate
2 8 6-8 1-2 8 9 8-9 6 8 1-2 5-9 6-9 8 6 8 1-2 2
8
Hexyl Alcohol room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4
6 4 8 8 6 8 6 8 8 2 6 8
thermoset 7 7 9 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
8 8
Hexylene Glycol elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset 8
Vinyl Ester Resin
Hexylene Glycol Ammonium Chloride elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8 8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
883
Chemical Sort with POL Resistance Rating
Vinyl Ester Resin
8
Hexylresorcinol elevated temperature rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FKM)
Fluoroelastomer (FKM)
HTF elevated temperature
rubber
rubber 2 2 2 8 6 2 2 6 6 2 2 2
elevated temperature 4
rubber
thermoset 8-9
Houghto Safe 271 room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8 6 6 6 8 2 6 8
elevated temperature rubber Fluoroelastomer (FKM)
6
rubber 6 8 6 6 6 8 2 6 8
Household Cleaners room temperature 9
HS 1010 elevated temperature 6
rubber 6
HS 1120 elevated temperature rubber Fluoroelastomer (FKM)
HS 5040 elevated temperature rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8-9 6 2
4 1-8 4-6 3-9 5-9 1-9 1-9 1-8 1-8
6-7
2 8-9 6-8 6 6-8 2 1 7 1-3 2-8 6-9 2-9 2 2 4 6-8
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester Terephthalate Urea Resin Vinyl Ester Resin
1 7
5 2 2 7 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Hydrazine Dihydrochloride elevated temperature Fluoroelastomer (FFKM)
8
Hydrazine Hydrate elevated temperature rubber
Hydraulic Oils (20-300/0)
Fluoroelastomer (FFKM)
9 7
8
Hydrazine Propellants room ternperature thermoset 2
Polyester (Bisphenol A)
Hydraulic Oils room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Polyester TPE PVC Polyol
rubber 8 8 8 8
elevated temperature
Polyamide TPE Urethane TPE (TPAU)
2 2 2 2
rubber
Hydrazine Sulfate elevated temperature 9 9
rubber
HS 1055 elevated temperature Fluoroelastomer (FKM)
2 6 2 8 1-9 2 6 8 8 2-8 2-9 2
thermoplastic elastomer
rubber Fluoroelastomer (FKM)
thermoplastic elastomer
thermoset
Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
4-8 6-8 3-4
thermoplastic elastomer
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
7-9 9 9 1
Hydrazine
elevated temperature
Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluorosilicone Silicone
6-9
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
room temperature
rubber
thermoplastic elastomer Urethane TPE (TPAU)
9
thermoset
Fluorinated TPE Olefinic TPE Polyamide TPE Polyester TPE
thermoplastic elastomer
thermoset
rubber
Houghto Safe 620 room temperature Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
thermoplastic elastomer
Oiallyl Phthalate Resin Polyester (Bisphenol A) Polyester (Isophthalate)
)
PVC Polyol
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
rubber
rubber 2-3
Hot Stack Gas elevated temperature Vinyl Ester Resin
3-6
Hydraulic Fluids (50-750/0) elevated temperature Fluoroelastomer (FKM)
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Hydrazine (50-75 % room temperature
rubber Fluoroelastomer (FKMITFE)
3-9 9
rubber 7
Hy Tran 17 elevated temperature
Polyam ide TPE Polyester TPE Urethane TPE (TPAU)
HMS 20-1083 room temperature Silicone
Polyester TPE Urethane TPE (TPAU)
Hydraulic Fluids room temperature
rubber Fluoroelastomer (FKM)
Fluoroelastomer (FKM)
elevated temperature thermoplastic elastomer
rubber 8
HEF2 room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
9
HS620 elevated temperature
2 8 2-6 1-2 8 8 8 2 6 6-8 6-8 6-8 4-6 2
thermoset 8
Furane Resin
Hydriodic Acid (30-400/0) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Hydriodic Acid (50-750/0) room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Furane Resin
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
884
Chemical Sort with POL Resistance Rating
Hydriodic Acid
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Styrenic TPE
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
2 2 2 8 8 2 6 8 8 6 6 2
elevated temperature rubber Fluoroelastomer (FKM)
9
Hydro-Drive MIH 50 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 8 2 6 8 8 6 6 2
elevated temperature rubber Fluoroelastomer (FKM)
9
Hydroabietyl Alcohol elevated temperature rubber Fluoroelastomer (FFKM)
8
Hydrobromic Acid (5-10%) 8
Hydrobromic Acid (10-20%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Hydrobromic Acid (20-30%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Hydrobromic Acid (30-400/0) room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Hydrobromic Acid (40-500/0) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Hydrobromic Acid (50-75%) room temperature thermoset Polyester (Bisphenol A)
2
Hydrobromic Acid room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8 8 8 8 8 8 4 8 2 1-2 2 1-2 2 1 7 9 3
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic)
8 2-8
Hydrocarbons room temperature
elevated temperature thermoset Vinyl Ester Resin
6
elevated temperature
Hydro-Drive MIH 10 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Vinyl Ester Resin
8 8 8 8 8 4 8 6 1·2 2 1-2 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 4 2 8 8 2 6 8 8 6 2 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic)
8 8
8
Hydrochloric Acid (5-10%) room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Urethane TPE (TPAU) rubber Ethylene Propylene Rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone thermoset Diallyl Phthalate Resin Polyam inobismaleim ide Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyimide Polyurethane Vinyl Ester Resin
7-9 4-6 8 8 8 8 7-8
Hydrochloric Acid (10-20 %) room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Fluorosilicone Neoprene Rubber thermoset Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
8 6 8 8 7 8 8 8 9 2 2 2
elevated temperature thermoplastic elastomer Olefinic TPE rubber Chlorosulfonated PE Rubber Fluorosilicone thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (I sophthalate) Polyester Terephthalate Vinyl Ester Resin
Hydrochloric elevated temperature
elevated temperature 8
Hydrochloric Acid «50/0) elevated temperature rubber Fluorosilicone Silicone thermoset Polyester (Bisphenol A) Polyester (Isophthalate)
8 9 2 2 2 8 8 2
elevated temperature thermoplastic elastomer Olefinic TPE thermoset Epoxy Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer Polyester TPE rubber Ethylene Propylene Rubber thermoset Epoxy Resin
8 2-8 8
thermoset Polyester (Chlorendic)
8-9 7 9 9 9 1 9
3-5 8 7 8 8 8 6·8 8 8 7-8
Hydrochloric Acid (20-300/0) room temperature
Hydrochloric «5%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8-9 5-9 0
thermoset Epoxy Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
5-9 8-9 6-9
4-8 8 8 7-8
Hydrochloric Acid (30-400/0)
6 1
room temperature
8 8
thermoplastic elastomer Olefinic TPE Polyester TPE
8 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
885 Chemical Sort with POL Resistance Rating
PVC Polyol
8-9
Silicone Styrene Butadiene Rubber
4-8 2 4-8 4-8 8 6-9 8 2-6 2-8 2-9 1-9 2 2 1-8 2-6
thermoset
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Diallyl Phthalate Resin Furane Resin Furane Resin Phenolic Resin Polyester Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate) Polyester Terephthalate Polyimide Vinyl Ester Resin
5-9 2 2 5 7-9 8 2-8 2 8 9 2
elevated temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (VDF/CTFE) Neoprene Rubber
2-8 6 8 8 4-5 2
thermoset Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate) Vinyl Ester Resin
8 6 1 8 8 8 2 1-8 2-8 7-8
Hydrochloric Acid (40-50%)
Alkyd Resin Phenolic Resin Polyimide Polyurethane Urea Resin Vinyl Ester Resin
room temperature
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
8 7-9 4-9
8 9
thermoset 2-8 7-8
Polyester (Chlorendic) Vinyl Ester Resin
Polyester (Bisphenol A) Polyester (Isoph'thalate) Vinyl Ester Resin
Hydrofluoric Acid (40-50%) thermoplastic elastomer Polyester TPE PVC Polyol
elevated temperature
rubber
thermoset Polyester (Bisphenol A)
8
Hydrocyanic Acid room temperature thermoplastic elastomer 7 8 8
Polyester TPE pvc Polyol Styrenic TPE
rubber 8 8 8 8 8 6 6 6-8 6 2 4 6
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
thermoset 1 7 7 2 3
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
Fluoroelastomer (FFKM)
8
thermoset 8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature rubber
Hydrofluoric Acid (50-750/0) room temperature thermoplastic elastomer Polyester TPE Butyl Rubber Chlorosulfonated PE Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
thermoset
Hydrochloric Acid room temperature Polyamide TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
7-9 8-9 8 9 9
room temperature
8 2-6 4-8 8 9 8-9
7 9 4-6 2-9 2-9 2-9 2 1
2-8 8 2-8 2 2-8 4-8 2 2-6 5 2-8 2-6 2 2 2 2-6
3-5
Hydrofluoric Acid room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
6 3 5 8
rubber
thermoset 2
Polyester (Isophthalate)
elevated temperature thermoset 7-8
Vinyl Ester Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol
Fluoroelastomer (FKM)
Hydrofluoric Acid (5-100/0)
thermoplastic elastomer
3
rubber
elevated temperature
7-8 7
8
Chlorosulfonated PE Rubber
rubber
Fluoroelastomer Fluoroelastomer (FKM)
2-6 7
Diallyl Phthalate Resin Polyester
Hydrofluoric Acid «50/0) 2-8 2-8 8 2 2-7
5 9 7-9 9 8-9 7-9 6-9 6-8 1 2
thermoset
elevated temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isoph'thalate) Vinyl Ester Resin
3 3-8
Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
Hydrochloric Acid (50-750/0) rubber
2 2 2
room temperature
Hydrocyanic Acid (5-10%)
elevated temperature
elevated temperature
3-5
Polyam ide TPE
rubber
2 6 2 2 2 2-6
Hydrofluoric Acid (30-400/0) thermoset
rubber
rubber
Polyester (Bisphenol A) Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (I sophthalate) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer
rubber 9 9
1 5-9 9 1 3 2
thermoset
elevated temperature
room temperature Fluoroelastomer Fluoroelastomer (FKM)
2 2-4
Hydrofluoric Acid (10-20 /0) 0
room terri perature 2-6 2 2
elevated temperature
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
1 7 2 2 3
elevated temperature
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8 1-4 1-8 1 5 1 1
thermoset
thermoset Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Silicone
2 2
rubber Fluoroelastomer (FFKM)
8
Hydrofluoric Acid (20-30%) room temperature
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
886 Chemical Sort with POL Resistance Rating
1 7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
Polyester (Isophthalate)
2
elevated temperature
Hydrofluosilicic Acid (20-30%) 8
8 8
Polyester (Chlorendic)
7-8
elevated temperature
rubber
Hydrogen Chloride (30-400/0) room temperature
Olefinic TPE
8 8 8 6-8 8 8 1-2 8 6 6-8 2 1-2 6
thermoset Polyester (Isophthalate)
2
rubber 8
2
B 8 7 8 8 8 4 6 8 B 2-4 8 4 6
thermoset 7 7 9
8 2-8 2-8 2-8 8
thermoplastic elastomer 9
rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
8 9 3-6 9 1 9
elevated temperature
Hydrogen Cyanide elevated temperature
thermoset
rubber
Hydrogen Peroxide (30-400/0) room temperature
Fluoroelastomer (FFKM)
Vinyl Ester Resin
8
Hydrogen Fluoride (5-100/0) elevated temperature
Furane Resin Polyester (Chlorendic)
7 7
Polyester (Bisphenol A) Vinyl Ester Resin
Polyester (Chlorendic) Vinyl Ester Resin
8
thermoset 2 2
elevated temperature thermoset 8
Polyester (Isophthalate)
Hydrogen Peroxide (40-50%) room temperature 8 8
Hydrogen Fluoride (30-400/0) room temperature
thermoset 2
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
2 2 2
elevated temperature
rubber Fluoroelastomer (FKM)
9
rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosi Iicone Natural Rubber Nitrile Rubber Styrene Butadiene Rubber
8 8 2 5 9 2 2 2 2
thermoset 2
8
rubber
thermoset
Fluoroelastomer (FFKM)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
thermoset
8 7 7 7
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Hydrogen Bromide (5-100/0) elevated temperature
Hydrogen Iodide elevated temperature
thermoset
rubber
thermoset Furane Resin Polyester (Chlorendic)
Hydrogen Fluoride room temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
8
thermoset
Polyester (Isophthalate)
elevated temperature
2
Hydrogen Peroxide (20-30 0k) room temperature PVC Polyol
rubber
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
thermoset Polyester (Isophthalate)
thermoset 6 8
rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
rubber
elevated temperature
thermoplastic elastomer
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Ethylene Propylene Rubber
Hydrogen Fluoride (10-20 %)
Hydrogen room temperature Olefinic TPE Polyester TPE
8
Hydrogen Chloride room temperature
Fluoroelastomer (FFKM)
8 8 8 8
Hydrogen Peroxide (5-100/0) room temperature
thermoset
elevated temperature Fluoroelastomer (FFKM)
Polyester (Chlorendic)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2
thermoset
Polyester (Bisphenol A)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Polyester (Isophthalate)
elevated temperature
thermoplastic elastomer
2 2
thermoset 8
thermoset
Hydrofluosilicic Acid room temperature
9
Hydrogen Chloride «5%)
elevated temperature
thermoset
Silicone
thermoset
elevated temperature
thermoset
elevated temperature
5-9 9
Polyester (Chlorendic) Polyester (Isophthalate)
thermoset 2 2
Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
Polyester (Isophthalate) Vinyl Ester Resin
Hydrofluosilicic Acid (30-400/0) room temperature Polyester (Chlorendic) Polyester (Isophthalate)
8
Polyurethane
thermoset
8
Hydrogen Peroxide «50/0) room temperature thermoplastic elastomer
thermoset
7-8 7-8 7-8
elevated temperature Polyester (Bisphenol A)
thermoset
Fluoroelastomer (FFKM)
thermoset
8
Polyester (Chlorendic)
rubber
Hydrofluosilicic Acid (5-10%) elevated temperature
Fluoroelastomer (FFKM)
thermoset
Hydrogen Bromide room temperature
thermoset
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
Vinyl Ester Resin
Hydrofluosilic Acid room temperature
8 8
Hydrogen Peroxide (75-970/0) room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
4 4-8 4-7 6 6-9 6 2 2-5 1-2 2 6 2
thermoset 2
Phenolic Resin
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone
8 2 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plas tics Design Library
887 Chemical Sort with POL Resistance Rating pvc Polyol
Hydrogen Peroxide
Polyester (Isophthalate)
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE
4 5-8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 6 8 8 9 8 6 8 6 4 8 6 1 7 9 6 1
Polyester (Bisphenol A)
Hydroxypropyl Carbamate
rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE)
elevated temperature rubber 8
Hydrogen Sulfide «S%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Hydrogen Sulfide (30-400/0) 5-7
Hydrogen Sulfide room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
6-8 8 8 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 6 4-8 8 2 1 4 2-8 6-8 1-8 6-8 4 2-8
Fluoroelastomer (FFKM)
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Hydroquinone (5-100/0) thermoset
room temperature PVC Polyol
room temperature thermoplastic elastomer
2 2 2 2 8 2-6 6-8 2-9 4-9 4 1 6 2
elevated temperature
rubber Fluoroelastomer (FFKM)
room temperature thermoset Furane Resin Polyester (Isophthalate)
elevated temperature Vinyl Ester Resin
room temperature thermoset
elevated temperature Vinyl Ester Resin
room temperature 1 9 1 8 1 8
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Urea Resin Vinyl Ester Resin
Hydroxyacetic Acid (30-40O/o) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 }
elevated temperature
room terrlperature thermoplastic elastomer PVC Polyol Styrenic TPE
8 8
Hydroxyacetic Acid
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature 8
6 6 2 6 8 8 6 2 1-2 2 2
Fluoroelastomer (FFKM)
2 2 8 2 8
8
thermoset
Hydroxyethyl Carbamate
Vinyl Ester Resin
elevated temperature
8
Hypoid Oil
thermoset 8
Hydroxylamine Acid Sulfate {75-97%} elevated temperature
elevated temperature rubber Fluoroelastomer (FKM)
9
Hypoid SAE 90
thermoset 8
Hydroxylammonium Acid Sulfate (75-97O/o) elevated temperature thermoset Polyester (Chlorendic) Polyester (Chlorendic)
8 8
thermoset
thermoset
Polyester (Chlorendic)
8
Hypochlorous Acid
rubber
8 8 6-8 8 8 8
2 2
thermoset
thermoset
Polyester (Bisphenol A)
8
Hypochlorous Acid (10-20 0/0)
rubber
8 8 6
2 2
thermoset
Furane Resin Polyester (Isophthalate) 4
8
Hypochlorous Acid (S-10%)
7 9 1
thermoset
Hydroiodic Acid
9
rubber
Fluoroelastomer (FFKM)
6 8 2 6 6 6 2 2 6
elevated temperature
thermoplastic elastomer
elevated temperature
elevated temperature
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
7
Hydroquinone
Polyester (Chlorendic) Polyester (Isophthalate)
8
Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
3
rubber Ethylene Acrylate Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
8
room temperature
Hydroxyacetic Acid {50-7S%
Polyester (Bisphenol A)
room temperature
HydrosuIfite
rubber Fluoroelastomer (VDF/CTFE)
elevated temperature thermoset
rubber
rubber
Fluoroelastomer (FFKM)
elevated temperature
8
Hydyne
Hydrooxycitronellal
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
7-9 6-7 6-7
elevated ternperature
thermoset 0-9
thermoset
elevated temperature
rubber
Hydrogen Selenide
Hydroxylammonium Sulfate elevated temperature
Hydrolubric 1208
elevated temperature Epoxy Resin
2
Polyurethane
thermoset Alkyd Resin Diallyl Phthalate Resin Polyester Polyurethane Urea Resin
8
thermoset
room temperature
8 8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber
2 2 2 8 8 2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
888 Chemical Sort with POL Resistance Rating
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8 8 8 2 2
Nitrile Rubber Polyurethane Styrene Butadiene Rubber
thermoset Polyester
5
elevated temperature
elevated temperature
rubber
rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FKM)
7-8
Hypophosphorous Acid (40-50%) elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
HyposuIfite room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 9 1 1
Incinerator Gases elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
7 7
elevated temperature rubber 8
5 6-8
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 9 9
Insecticides
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
rubber Fluoroelastomer (FKMrrFE)
9
Insulin elevated temperature Fluoroelastomer (FFKM)
8
8
Iodine room temperature 5 8 6
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Neoprene Rubber
Butyl Rubber Ethylene Propylene Rubber
8 1-8
elevated temperature
6 6 6 8 8 2
8
Isoamyl Valerate elevated temperature rubber Fluoroelastomer (FFKM)
8
Isoboreol elevated temperature 8
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Vinyl Ester Resin
6
8
thermoplastic elastomer PVC Polyol
5-8
rubber
8
2
elevated temperature 8 8 8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Fluoroelastomer (FFKM)
Isobutyl Alcohol room temperature
rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
8 8 8 8 8
6 6-8 6-9 6-9 6 2 2 8 6
thermoset
Iris 902
Vinyl Ester Resin
elevated temperature
elevated temperature
2
rubber
Fluoroelastomer (FKM)
8
Polyester (Chlorendic)
Fluoroelastomer (FFKM) Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8
8 8 8
Isobutyl Chloride
Iron Perchlorlde
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM) 8
Polyester (Isophthalate)
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer 2
rubber Fluoroelastomer (TFP) Neoprene Rubber
2 4-8
elevated temperature
8
Isobutyl Methyl Ketone
Isoamyl Acetate PVC Polyol
8
thermoset
thermoset
thermoplastic elastomer
rubber Fluoroelastomer (FFKM)
rubber
thermoset
rubber
Isoamyl Butyrate elevated temperature
elevated temperature
room temperature rubber
elevated temperature
elevated temperature
Polyester TPE PVC Polyol Styrenic TPE
Iodoform
Iron Perchloride (10-20%)
lodic Acid Fluoroelastomer (FFKM)
6
rubber
rubber
8 7-8 7-8
rubber
thermoset
elevated temperature
6-7
Isobutyl Acetate
Polyester (Isophthalate)
Insulating Oils
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
elevated temperature
thermoset 2-5
0-4
Fluoroelastomer (FFKM)
room temperature
rubber
Polyamide TPE
rubber
Isobutane
losprep 44
elevated temperature
thermoplastic elastomer
rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
Instrument Oils Silicone
2 2 2 1-2 2 1 1-2 2 2 1-2 2 2 1-2 2
thermoset 8 8
8
elevated temperature
thermoset
Ion Exchange Resin
thermoset
4-5
rubber
Fluoroelastomer (FKMrrFE)
room temperature
Fluoroelastomer (FFKM)
Polyurethane
7 8 8 7-8
Iodine Pentafluoride
room temperature rubber
room temperature
Fluoroelastomer (TFP)
rubber
Polyester TPE
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Isoamyl Alcohol Polyamide TPE
Inks thermoplastic elastomer
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer
thermoset
Indole Fluoroelastomer (FFKM)
6 6-8 6
8
Isobutyl n-Butyrate room temperature rubber Butyl Rubber
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
889 Chemical Sort with POL Resistance Rating
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
2 8 8 8 2 2 2 2 2
Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoplastic elastomer Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Isooctane room temperature
rubber
thermoplastic elastomer 8
Isobutylene elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber 8
Isocrotyl Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
Isocyanate room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Polyester (Isophthalate)
8
8
thermoset 8 8 8 8 8-9
Isododecane room temperature 2 6 2 8 8 2 6 8 8 2 2
8
Isoeugenol elevated temperature rubber Fluoroelastomer (FFKM)
8
Isononyl Alcohol elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Isooctane (20-300/0) room temperature
rubber 8
Isooctyl Adipate elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
8 8
8
Isophorone room temperature
Fluoroelastomer (FFKM) 5 5
8 8 2 4-8 2 1 6 1-2 2 2 1-2 6 2 1-2 2
8
2-6
Isoprep 33
8
thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8
elevated temperature thermoset Furane Resin Polyester (Chlorendic) Polyester (Isophthalate)
8 8 8
Isopropyl Alcohol (20-300/0) elevated temperature thermoset Polyester (Bisphenol A)
8
thermoplastic elastomer Urethane TPE (TPAU)
4
Olefinic TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
7-8 8 8 5-7 5-7
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
8 8 8 7 7-8 8 8 6 6-8 6-9 6-9 8 2 1 6-8 6
thermoset Phenolic Resin Polyester (Isophthalate) Polyimide Vinyl Ester Resin
8 2-8 9 2-8
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8 8
thermoset
rubber
thermoplastic elastomer
Fluoroelastomer (FFKM)
Isopropyl Alcohol (5-10%) room temperature
elevated temperature
Isophthalic Acid elevated temperature Fluoroelastomer (FKMrrFE)
elevated temperature rubber
rubber
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 2 1 1 1-2 2 2 1-2 6 2 1-2 2
thermoplastic elastomer 8 8
Isopentane elevated temperature Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Isopropyl Alcohol room temperature
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Isopropyl Acetate room temperature
Isopropyl Alcohol (40-500/0) room temperature
thermoset
elevated temperature
Isooctane (40-500/0) room temperature Olefinic TPE
8 8
rubber
thermoset Polyester Polyester (Isophthalate)
1-3 8 8-9 9 6 8 1-2 6-9 8-9 8 6 9 1-2 2
rubber
elevated temperature rubber Fluoroelastomer (FFKM)
2 6-8 7
Isooctyl Alcohol elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
4-7 8 8-9 2 9 9
'thermoset
Fluoroelastomer (FFKM)
8 8 8 8
rubber
elevated temperature
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber Oiallyl Phthalate Resin Phenolic Resin
Isodecyl Alcohol elevated temperature Fluoroelastomer (FFKM)
2-6 5-7 5-7
rubber
Isobutyric Acid elevated temperature Fluoroelastomer (FFKM)
Olefinic TPE Polyamide TPE Polyester TPE pvc Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Isooctane (50-75%) room temperature
Isobutyl Phosphate elevated temperature Fluoroelastomer (FFKM)
5 5
7
Furane Resin Phenolic Resin Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
890
Chemical Sort with POL Resistance Rating
Isopropyl Amine
Isopropylamine
elevated temperature
room temperature
room temperature
thermoset
thermoplastic elastomer
thermoset Vinyl Ester Resin
2
Olefinic TPE
6
elevated temperature
elevated temperature
thermoset
rubber
Vinyl Ester Resin
8-9
Fluoroelastomer (FFKM)
Isovaleric Acid
room temperature
elevated temperature 1-8 7-8
Isopropyl Chloride room temperature 2 2 1-2 8 8 6 2 2 1-2 2 2 1-2 2
room temperature 3
rubber 2 4-5 3 1-2 2 1 2 4 2 2-4 6 8 6 1-2 2
elevated temperature rubber
Isopropyl Myristate
8 8
Vinyl Ester Resin
8
8 8
rubber
thermoset
Fluoroelastomer (FKM)
Polyester (Chlorendic) Polyester (Isophthalate)
Jet Aircraft Fuels room temperature
Kerosine
thermoplastic elastomer
room temperature 4-8 8-9 7-8 6
Olefinic TPE Polyester TPE Urethane TPE Urethane TPE (TPAU)
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Silicone
elevated temperature 8 8 8
Isopropyl Sulfate
9
8 8
8
room temperature rubber Fluorosilicone Silicone
9 9
elevated temperature
room temperature 2
Isopropylacetone elevated temperature rubber
8
Urethane TPE
6
rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosilicone Silicone
Jojoba Oil
8 8
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
4-8 2-8 7 2-9
3 6-9 4-9
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
2 8 2-5 5 1-2 8 9 8-9 7-9 8 1-2 2-9 8-9 6
6 8 1-2 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Epoxy Resin Phenolic Resin Urea Resin
7 7 9 7 9
elevated temperature rubber
thermoplastic elastomer
thermoset
Fluoroelastomer (FFKM)
3-9 8 3-9 3-7 5 3-4
Jet Aircraft Oils
thermoset
Polyester (Isophthalate)
2 2 9 5-8 2 1-6 8-9 9
Oiallyl Phthalate Resin Polyaminobismaleim ide
7 7 7 9
Kaolin Slurry room temperature
Epoxy Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Isopropyl Palmitate
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
thermoset
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
thermoset
room temperature Fluoroelastomer (FKM) Fluorosil icone
Kaolin Slip room temperature
rubber
Isopropyl Nitrate
8 8
thermoset
rubber 8 8
elevated temperature Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Fluorosilicone
Polyester (Bisphenol A) Vinyl Ester Resin
8
JP4 thermoset
Itaconic Acid (30-40%)
elevated temperature
elevated temperature thermoset
JP9 Polyester (Isophthalate)
thermoset
thermoset 8
7 9 7 9
thermoset
elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
room temperature thermoset
room temperature
Itaconic Acid (20-300/0)
Jet Aircraft Engine Oils
thermoplastic elastomer
Fluoroelastomer (FFKM)
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
Isopropyl Ether
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Itaconic Acid (5-100/0) Polyester (Bisphenol A) Vinyl Ester Resin
8
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature 8
room temperature thermoset
JP4 8
Itaconic Acid
elevated temperature
Polybutadiene
Fluoroelastomer (FFKM)
thermoset
rubber Fluoroelastomer (FFKM)
8
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
JP10
rubber
rubber
8 8
Polyester (Isophthalate)
Isopropyl Benzene Neoprene Rubber Nitrile Rubber
Polyester (Bisphenol A) Vinyl Ester Resin
3-7 4-9 4-7 6-7
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 7-9
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
891 Chemical Sort with POL Resistance Rating
Polyvinyl Alcohol
Ketones room temperature
rubber
thermoplastic elastomer PVC Polyol Styrenic TPE
2 8
KOH Baume elevated temperature thermoplastic elastomer Polyam ide TPE
2-8
Lacquer Solvent room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 7
Lacquer Thinners room temperature thermoplastic elastomer PVC Polyol
2
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 2 2 2 2 2 2 2 8 2 2 2
Lacquers room temperature thermoplastic elastomer Olefinic TPE Polyester TPE Styrenic TPE
2 6-8
3
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2
3 1-2 2 1 1-2 2 2 1-2 8 2 1-2 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
3
elevated temperature 8
7
Lactic Acid (5-100/0) elevated temperature 8
La undry Detergents elevated temperature
Olefinic TPE Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
6 7 8 8 5 5
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2-8 6-8 1-8 8 8 6-8 2-8 2-8 1-8 2 6-8 2-8
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1 9 7
3
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
8-9 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8
Lamp Oils room temperature 5-8
Lard room temperature 9 7 7 9
8
8
Lasso elevated temperature
9
rubber
5
rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
9 9 9 1
Lauric Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
thermoset Vinyl Ester Resin
8
Lauroyl Chloride elevated temperature thermoset Vinyl Ester Resin
8
Lauryl Alcohol elevated temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
8 8
Polyester (Chlorendic)
8
Lavender Oil room temperature rubber 8 8 8
8
2 2 2
thermoplastic elastomer 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2
8 8 6 2 2
6 6 2 1-2 2
elevated temperature rubber
elevated temperature
Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A)
PVC Palyol
thermoset 8
Lasso EC room temperature
Olefinic TPE 9 9 9
thermoplastic elastomer
Lauryl Pyridinium Chloride (5-10%) elevated temperature
thermoset
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
Lauric Acid (30-400/0) room terTlperature
thermoset
thermoset
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Vinyl Ester Resin
Lauryl Mercaptan elevated temperature
Lasso (5-100/0) elevated temperature Furane Resin Polyester (Chlorendic)
thermoset
Lauryl Chloride elevated temperature
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7
thermoset
thermoplastic elastomer Polyamide TPE
9
Lauroyl Alcohol elevated temperature
elevated temperature
Latex room temperature
thermoplastic elastomer
Natural Rubber Neoprene Rubber Nitrile Rubber
thermoplastic elastomer
thermoset
Lactic Acid (75-97%) room temperature PVC Polyol
Olefinic TPE Urethane TPE (TPAU)
elevated temperature
thermoset
8
Laundry Detergents «5%) room temperature thermoplastic elastomer
thermoset
thermoplastic elastomer
Vinyl Ester Resin
7
Vinyl Ester Resin
Lactic Acid room temperature
Vinyl Ester Resin
Lactic Acid «50/0) room temperature Styrenic TPE
Fluoroelastomer (FKMfTFE)
7 7 9
rubber Fluoroelastomer (FFKM)
5-7
elevated temperature
8
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
892 Chemical Sort with POL Resistance Rating
Lead
Lead Naphthenate
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
Polyester (Bisphenol A)
rubber 8
Fluoroelastomer (FFKM)
8
Lignin Sulfate (40-50%) elevated temperature thermoset
Lead Acetate (5-100/0)
Lead Nitrate
Polyester (Bisphenol A)
room temperature
room temperature
Ligroin
thermoset Oiallyl Phthalate Resin
rubber 8
Lead Acetate room temperature thermoplastic elastomer Styrenic TPE
8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 6 2
8 2 1 1-2
8 6 6 2 2 1-2 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 7
elevated temperature
8 8 8 8 8
Lead Arsenate elevated temperature rubber Fluoroelastomer (FFKM)
8
Lead Azide elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber
8
thermoset
8 8 8
Lead Chromate elevated temperature rubber
8
Lead Dioxide elevated temperature rubber 8
Lead Linoleate elevated temperature rubber
8
Lead Oxide
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2
4 1-2
8 8 8 2
6 8 8 6 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
room temperature
elevated temperature
thermoset
rubber Fluoroelastomer (FFKM)
8
Polyester (Isophthalate)
thermoset
room temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Lead Sulfamate
8
elevated temperature
Lead Salts
8 8 8 8
Lime Bleach
room temperature
room temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 6
8 6 2 6 6
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 6
8 8 8 8 6
8 2 6
8
Lime Chlorate 8
room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
1 9 1
5
8
Lime Chloride room temperature
elevated temperature
thermoset
8 8 8 8
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1 9 1
5
Lime Milk
Light Oil
room temperature
room temperature
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Lignin (40-500/0) elevated temperature thermoset
8
Lime
thermoset
elevated temperature
Fluoroelastomer (FFKM)
8 8 8 8
Levulinic Acid 8
Lead Chloride
Fluoroelastomer (FFKM)
Furane Resin Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Polyester (Bisphenol A)
rubber
Fluoroelastomer (FFKM)
8
thermoset
Lead Carbonate
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Fluoroelastomer (FFKM)
thermoset
Lead Sulfate 8
elevated temperature
Fluoroelastomer (FFKM)
6 8
rubber
Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FFKM)
2
rubber
Lead Bromide elevated temperature Fluoroelastomer (FFKM)
8 8 8 8 8
elevated temperature
PVC Polyol
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 2
thermoplastic elastomer
rubber Fluoroelastomer (FFKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8
2 2 2
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8
room temperature
2 6
8 6 2 2
1
5 1
3
Lime Sulfur rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber
8 8 8 8 8 8 2
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
893 Chemical Sort with POL Resistance Rating
Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
1-2 2 8 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Lipstick
Lime Water
room temperature
room temperature
thermoplastic elastomer Polyester TPE
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 1 1
Polyurethane
Polyester (Isophthalate)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 8 6 6 4 2 2 1-2 2 2 4 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Linoleic Acid rubber 2 2 1-2 6 6 2 2 6 2 6 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate)
8 8
Linseed Oil room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
3 4 4-8 4-8 8 8 8 8 2 4-8 8 6 6 8 2
thermoset Diallyl Phthalate Resin Phenolic Resin
8 8
elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKMfTFE)
2
room temperature
4-7 9 8 9
thermoset Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
3 7 7
elevated temperature 2 8 2 2 8 4 2 6 8 8 8 4 2
rubber Fluoroelastomer (FFKM)
8
thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Lithium Chromate room temperature rubber Fluoroelastomer (TFP)
8
Lithium Citrate
room temperature
elevated temperature rubber 2 2 2 8 8 2 6 8 6 2 2
Fluoroelastomer (FFKM)
8
Lithium Grease room temperature thermoplastic elastomer Olefinic TPE
6-8
elevated temperature thermoplastic elastomer 1-8
Olefinic TPE
Lithium Hydroxide «50/0)
Liquors
elevated temperature
room temperature
rubber 5-8
Silicone
rubber Fluorosilicone Silicone
8 8 8
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8
Lithium Chloride
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
room temperature
Liquid Petroleum Gas
7-9 9
Lithium Hydroxide (5-100/0) elevated temperature
Lithium Bromide (50-750/0)
rubber
room temperature
Silicone
rubber
Lithium Hydroxide (10-200/0)
Fluoroelastomer (TFP) 6 7 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6-8
Liquimoly
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8
Liquid Chlorine thermoset
thermoset
Lithium Chloride (50-75%)
room temperature
room temperature
Lithium Chloride (40-50%) elevated temperature
elevated temperature
rubber
Lindol rubber
8 8 8 8 8
8
elevated temperature
Lithium Bromide
thermoset
elevated temperature
Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
2
8
Lithium Hydroxide room temperature thermoplastic elastomer Styrenic TPE
8
thermoset
Lithium Carbonate
Polyester (Chlorendic)
room terrlperature
elevated temperature
thermoset Polyester (Chlorendic)
rubber 2
elevated temperature 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Fluoroelastomer (FFKM)
8 8 7-8
Polyester (Bisphenol A) Vinyl Ester Resin
Lithium Hypochlorite rubber Fluoroelastomer (FFKM)
thermoset
elevated temperature
Vinyl Ester Resin
thermoset 8 8
8 7-8
elevated temperature
Lithium Chloride (30-400/0) Polyester (Chlorendic) Vinyl Ester Resin
8
thermoset
rubber Fluoroelastomer (FFKM)
2
8 7-8
Lithium Nitrate elevated temperature rubber
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
894
Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM)
8
Lithium Nitrite elevated temperature
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 6 1-6 2
Ethylene Propylene Rubber
7
thermoplastic elastomer
9 8 9
elevated temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
elevated temperature
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
rubber
rubber
Fluoroelastomer (FFKM)
8
Lithium Perchlorate Fluoroelastomer (FFKM)
8
Lithium Sulfate (10-200/0)
Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Neoprene Rubber Silicone
elevated ternperature
thermoset
Lithium Salicylate elevated temperature rubber Fluoroelastomer (FFKM)
8
Polyester (Bisphenol A)
8
Lithium Sulfate
room temperature thermoplastic elastomer
Vinyl Ester Resin
Olefinic TPE 8
Lithopone elevated temperature rubber Fluoroelastomer (FFKM)
8
Lockheed H55 elevated temperature thermoplastic elastomer Polyamide TPE
2-8
Lubricants room temperature 8
rubber
PVC Polyol
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
4 6-9 8 5-8 5-9 2-8 2-6
room temperature
8 8 8
Magnesium Bisulfite elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Magnesium Carbonate (10-20%) thermoset
thermoplastic elastomer 9 9
elevated temperature
Polyester (Bisphenol A) Vinyl Ester Resin
5-9
Magnesium Carbonate
Lubricating Oils room temperature
rubber 2 8 2 1-2 8 8 6-8 2 4-6 6-8
8 8 8 8
Magnesium Chloride (10-20%) room temperature rubber Fluoroelastomer (TFP)
8
Magnesium Chloride (20-30%) room temperature thermoplastic elastomer 7-9
Urethane TPE (TPEU)
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
8 8 8 8 8 8 6 6 6 4 6
Alkyd Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
7
2-7 2 1
elevated temperature
thermoplastic elastomer 6-8 8
6
7
rubber
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Olefinic TPE Polyester TPE
thermoset 8 8
elevated temperature
thermoplastic elastomer
7-8
Magnesium Hydroxide thermoplastic elastomer
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
Magnesium Fluosilicate
Magnesium Bicarbonate thermoset
8-9
8 8 8
thermoset
elevated temperature
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
Vinyl Ester Resin 8
elevated temperature
Olefinic TPE Polyester TPE
7
elevated temperature
thermoset
Lubricating Greases
Urethane TPE (TPAU)
8
room temperature thermoplastic elastomer
7 8 8 8 8 8 8 8 4 8 8
7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
elevated temperature
8
8 8 8
thermoset
Magannese Salts
rubber
Urethane TPE (TPAU) Urethane TPE (TPEU)
8 8 8 6 6 6-8 6 6 6 6 2 6 6
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
elevated temperature
Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluorosilicone Silicone
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
7
thermoplastic elastomer Olefinic TPE
8
rubber
6
7
3-8 8 6 6 8 2 8 8
thermoset Diallyl Phthalate Resin
5 1-8
elevated temperature
rubber Butyl Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
7 7
Lye
elevated temperature thermoset
5 8 8
7
Polyaminobismaleimide
thermoset
9
Magnesium Chloride room temperature
thermoset
rubber
rubber
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber
8 8 8
thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Magnesium Nitrate elevated temperature thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
Magnesium Chloride (50-750/0) elevated temperature Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
895
Chemical Sort with POL Resistance Rating
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Magnesium Oxide elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
Magnesium Phosphate
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
Magnesium Trisillcate
thermoset Vinyl Ester Resin
elevated temperature 8
Magnesium Salts
rubber Fluoroelastomer (FFKM)
room temperature
Magnifloc 500
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature 8 8 8 8 8 8 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Magnesium Silica Fluoride (30-40%) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
7 7
elevated temperature thermoset Polyester (Bisphenol A)
8
8 8 8 8 8 8 8 8 6 8 8 6 8 8 6
8 8 8 8 8 8 8
Magnesium Sulfide room temperature 7 7
Magnesium Sulfite room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
8
8
Malathion room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
2 2 8 6 2 6 2 2
elevated temperature 8
8
8 8 8 8 8 6 8 8
8
Maleic Acid 8-9 2 2 2-6 8 8 2-9 2-9 1-9 6 1 2
elevated temperature 8
2 6 2-6 8 8 8 8 6 8 6 6
elevated temperature 8
Mandelic Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Manganese Acetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Manganese Carbonate elevated temperature 8
Manganese Chloride room temperature 7 7
elevated temperature 8 8
Manganese Dioxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Manganese Gluconate elevated temperature rubber Fluoroelastomer (FFKM)
8
Manganese Hypophosphite elevated temperature rubber Fluoroelastomer (FFKM)
8
Manganese Linoleate elevated temperature
8 8 8 8 8
rubber Fluoroelastomer (FFKM)
room temperature
8
Manganese Naphthenate elevated temperature rubber Fluoroelastomer (FFKM)
Maleic Anhydride rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
8 8
thermoset Furane Resin Vinyl Ester Resin
room temperature
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature thermoplastic elastomer pvc Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
thermoset Alkyd Resin Phenolic Resin
elevated temperature
thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Styrene Butadiene Rubber
6
rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset Polyester (Bisphenol A)
8
rubber Fluoroelastomer (FFKM)
Maleic Acid (30-40%)
elevated temperature
thermoset Alkyd Resin Phenolic Resin
8
elevated temperature
thermoset Vinyl Ester Resin
room temperature
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Magnifloc 837A thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A)
Malic Acid
Maleic Acid «S%)
Magnesium Sulfate thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
Magnesium Sulfate (20-30%)
6 6 8 6
8
Manganese Oxide 2 2 2-6 8 1 2 2 1-2 2
elevated temperature thermoset Furane Resin
8
Manganese Salts room temperature thermoplastic elastomer Styrenic TPE
8
elevated temperature
Note: Num bers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
896 Chemical Sort with POL Resistance Rating
Manganese Sulfate
Fluoroelastomer Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin
room temperature
elevated temperature
thermoset Oiallyl Phthalate Resin Phenolic Resin
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Manganese Sulfate (75-97%) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
8 8
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8
Manganous Chloride rubber Fluoroelastomer (FFKM)
8
Manganous Phosphate rubber Fluoroelastomer (FFKM)
8
Manganous Sulfate rubber Fluoroelastomer (FFKM)
8
Mannitol elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 2
8
Mercaptoacetic Acid room temperature 2-8
Mercaptobenzothiazole elevated temperature rubber Fluoroelastomer (FFKM)
8
Mercuric Acetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Mercuric Chloride room temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber
8
7
8 8 8 7
8
8
Mercury Salts thermoplastic elastomer PVC Polyol Styrenic TPE
8 8
8
Mesityl Oxide
8 8 8
8
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature 8
rubber Fluoroelastomer (FFKM)
Mercury
Metaphosphoric Acid elevated temperature 8 8 8 8 7
8 8 8 8
8 8
8 8 8 5 7 7 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A)
8
Metaldehyde
room temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
6 2 6 2 1 2 1-2 2 2 1-2 6 2 1-6 2
Metanitroaniline
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber rubber Fluoroelastomer (FFKM)
Mercurous Nitrate
elevated temperature
thermoset Vinyl Ester Resin
8
Mercurous Chloride
Melamine Resins
rubber Fluoroelastomer (FFKM)
8
Mercuric Sulfite
room temperature
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8
Mercury Fulminate
rubber Fluoroelastomer (FFKM)
7 9 7 9
rubber Fluoroelastomer (FFKM)
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
elevated temperature
Mercaptan
8
Mercuric Sulfate
elevated temperature
8
8 8 8
room temperature
room temperature
MOl
thermoset Polyester (Chlorendic)
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Nitrile Rubber
elevated temperature
elevated temperature
8
Mercury Chloride
rubber Fluoroelastomer (FFKM)
8
Mercuric Nitrate
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8 8 8 8
elevated temperature
elevated temperature
room temperature 8
8 8 8 8 8
Mercuric Iodide
Margarine thermoplastic elastomer Polyester TPE
room temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
elevated temperature
8 8
Mercuric Cyanide
rubber Fluoroelastomer (FFKM)
elevated temperature
Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
8 8 8 8 8
thermoset Furane Resin
8
8
Metatoluidine elevated temperature rubber Fluoroelastomer (FFKM)
8
Metex S483 elevated temperature thermoset Polyester (Bisphenol A)
6
Methacrylic Acid room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
6 1 1 1 1
elevated temperature 8 8
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 6
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
897 Chemical Sort with POL Resistance Rating
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
Methallyl Chloride elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8 2-6 2
3 7 7 2 8 6 1-2 8 6-9 6 2 6 8 8 4 1-8 2
8
3-6
Methanesulfonic Acid elevated temperature thermoset Furane Resin
8
Methanol room temperature thermoset Polyester
9
Methoxychlor elevated temperature rubber Fluoroelastomer (FFKM)
8
Methoxyethyl Acetate 2
8
Methyl Acetate room temperature thermoplastic elastomer pvc Polyol Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
8
6 2 6 2 2 2 2 6 2 6
elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Acetophonone elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Acrylate room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Vinyl Ester Resin
6 6 2 6 2 1 1-2 2 6 1-2 6 2 1-2 2 2
rubber Fluoroelastomer (FFKM)
8
Methyl Acrylic Acid room temperature
Methyl Abietate elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Epoxy Resin Phenolic Resin
elevated temperature
room temperature thermoset Vinyl Ester Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
1-2 2 2 6 2 2 6-8 2 1 1 1-2 2 6 1-2 6 2 1-2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 4 1 1-2 2 6 1-2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 6
Methyl Alcohol (30-40%) elevated temperature thermoset Phenolic Resin
elevated temperature
2-5 7-8
Methyl Alcohol room temperature thermoplastic elastomer Fluorinated TPE Olefinic TPE Polyamide TPE Polybutadiene Polyester TPE PVC Polyol Urethane TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Polyimide Urea Resin Vinyl Ester Resin
2 5-9 4-5 7 6-8 4-8 6 2-7 4-5 8 6 8 8 8-9 2-8 9 1-9 2-4 8-9 6-8 6-8 6-9 4-8 6 2 1 8-9 8 9 9 9 9 9 8 2
8 7 9 2-8
elevated temperature thermoplastic elastomer Polyamide TPE Polybutadiene rubber Fluoroelastomer (FFKM) Neoprene Rubber thermoset Phenolic Resin Polyester (Chlorendic)
4 7
8 8 8 8
Methyl Amyl Acetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Amyl Ketone elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Anthranilate elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Benzoate room temperature 7-8
Methyl Alcohol (40-500/0) room temperature thermoplastic elastomer Polyam ide TPE
4
Methyl Alcohol (75-970/0) elevated temperature
Methyl Acetoacetate
Methane Dichloride room temperature rubber Neoprene Rubber
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
rubber Fluoroelastomer (FKMffFE)
9 1 9
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
2
elevated temperature
Methane room temperature thermoplastic elastomer Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
9
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber
2 2 2
8 8 2 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
898
Chemical Sort with POL Resistance Rating
2 6 2 2 2
Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Bromide (5-100/0) room temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
2 2 2·8
Methyl Bromide (20-30%) room temperature thermoset Polyester (Chlorendic)
2
room temperature thermoplastic elastomer Polyester TPE PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A)
Methyl Bromide
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 2 2 8 8 2 2 6
Methyl Butyl Ketone room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 8 2 1 1·2 2 2 1·2
8 2 2-4 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Butyrate Cellosolve elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Butyrate Chloride elevated temperature rubber Fluoroelastomer (FFKM)
Methyl Carbamate (75-97%
8 )
elevated temperature thermoset Polyester (Bisphenol A)
8
elevated temperature rubber Fluoroelastomer (FFKM)
Methyl Chlorosilanes rubber Fluoroelastomer (FFKM)
rubber Neoprene Rubber
6·8
Methyl Cyclohexanol
6 2 2 6
thermoset Furane Resin
6
Methyl Cyclohexanone
6 2 6 6 6
8 6
rubber Fluoroelastomer (FFKM)
elevated temperature 8
elevated terrlperature rubber Fluoroelastomer (FFKM)
8
8 4 2 4
8 6 6 2 2 1-2 4 2 1-3 2
7 7 2 5 7
8
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Urea Resin
Methyl Dichloride elevated temperature
Methyl Chloroformate rubber
8
2 2 1-2
6 2 1-2 2 7 7 3
8
room temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
elevated temperature
8 6 6
Methyl D-Bromide
Methyl Chloroform 1-4 1-5
2 2 1-2
elevated temperature rubber Fluoroelastomer (FFKM)
2 2 2 2
rubber Fluoroelastomer (FFKM)
8
Methyl Cyclopentane
2
rubber Neoprene Rubber Nitrile Rubber thermoset Polyester (Chlorendic)
8
room temperature
Methyl Chloroacetate
room temperature
8
Methyl Cyanide
6
room temperature thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Furane Resin Phenolic Resin Urea Resin
elevated temperature
8
8
elevated temperature
rubber Fluoroelastomer (FFKM) 6
Methyl Chloride
2
2
6 2 2 2 2 2 2 2
room temperature 8
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
Methyl Cellosolve
2
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
2
2 6 2 1 8 1-2 2-7 5-9 4-5 2 5 1-2 2
2 2 2 8
elevated temperature
elevated temperature 2 2
6
Methyl Cellulose
Methyl Carbonate rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
2
8 6 2 2 2 2 2 2
2
8
Methyl Ether room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber
8 2 1·8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
899 Chemical Sort with POL Resistance Rating
Fluoroelastomer Fluoroelastomer (FKM) Fluorosi licone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 6-8 4-8 8 6-8 8 6-8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Ethyl Ketone room temperature thermoplastic elastomer Olefinic TPE Polyam ide TPE Polybutadiene Polyester TPE pvc Polyol Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Polyurethane Vinyl Ester Resin
1-9 2-9 6 3-9 0-1 2-5 2-5 8 2 2 2 6-8 2 9 1-7 1 2 1-2 2-8 2-8 1-4 6 2 5-7 1-2 2 2 8 9 2-6 2 2 2 8-9 1 2-7
elevated temperature thermoplastic elastomer Polyam ide TPE Polybutadiene rubber Fluoroelastomer (FFKM) thermoset Epoxy Resin Furane Resin Phenolic Resin Phenolic Resin
4-5 3 8 2-6 8 8 9
6
2 6 6 2 6 1-2 2 6 2
8
Methyl Ethyl Oleate elevated temperature 8
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (I sophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Methyl Glycol room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
2 2
Methyl Glycol Acetate room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
2 2
rubber Fluoroelastomer (FFKM) 2 6-7 5-9
5 5
8
Methyl Iodide room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol rubber Fluoroelastomer (FFKM)
0-1
1 1-3
1 5-7
8
Methyl Isobutyl Carbinol room temperature thermoplastic elastomer Polyester TPE
6
elevated temperature rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset
1 2 1-2 2 2 1-2 6 2 1-2 2
8
Methyl Lactate elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Methacrylate room temperature
Methyl Hexyl Ketone elevated temperature rubber Fluoroelastomer (FFKM)
6 2 6 2
elevated temperature
Methyl Glycol Ether room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
8
Methyl Isopropyl Ketone
elevated temperature 8
8 2 2 2 2 2
rubber Fluoroelastomer (FKMrrFE) thermoset Phenolic Resin
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Olefinic TPE PVC Polyol rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
6
1 2 2 2 2-4 2 1 1-2 2 1-2 1-2 6 8 1-4 2 2 2 2 2
elevated temperature 8
rubber Fluoroelastomer (FFKM)
8
Methyl Oleate
room temperature 2 2 2 2 2 2 2 2 2 2 6 2
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Methyl Isobutyl Ketone
room temperature
rubber Fluoroelastomer (FFKM)
room temperature
elevated temperature
Methyl Ethyl Ketone Peroxide rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Methyl Formate
room temperature 1-2 3-7
1 4 2 2 4 2 2
2 1-2 2
6 2 5-7
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
6 6 2 6 8 6 6 2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
2 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
900 Chemical Sort with POL Resistance Rating
thermoset
Methyl Parathion room temperature
Polyester (Bisphenol A)
thermoset Vinyl Ester Resin
2
Methyl Pentadiene elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl Phenol room temperature thermoset Polyester (Chlorendic)
8
2
thermoset
thermoplastic elastomer
Polyester (Bisphenol A)
pvc Polyol
elevated temperature
rubber
rubber 7-9 1 1 1
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
FluoroeJastomer (FFKM)
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Neoprene Rubber Nitrile Rubber
6 2 6 4 2 1-2
elevated ternperature rubber Fluoroelastomer (FFKM)
8
2 2 2 2 2
elevated temperature thermoset Phenolic Resin
8
Methyl Sulfate elevated temperature 8
Methyl Sulfonic Acid elevated temperature 8
Methyl Sulfuric Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Methyl t-Butyl Ether room temperature
elevated temperature
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
rubber
7-8
Fluoroelastomer (FKM)
1
2 9 8
8
Methylene Blue room temperature
Methyl Valerate elevated temperature rubber
Methyl-2-Pyrrolidone room temperature
2
8
Fluoroelastomer (FFKM)
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 6 6 2 2
2 2 2
2 2
rubber Fluoroelastomer (FFKM)
Methylene Bromide room temperature thermoplastic elastomer
Methylformamide elevated temperature
PVC Polyol
rubber Fluoroelastomer (FKMrrFE)
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone
8
Methylene Iodide elevated temperature 8
Polyester (Bisphenol A)
9 9 2 2 2 2 9 1 2
rubber
8 2-6 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
2
rubber
Phenolic Resin
thermoset 8
Epoxy Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Polyurethane Vinyl Ester Resin
Methylene Dichloride room temperature
Polyester (Bisphenol A)
2 2 2-7 4-6 4-6 5 6 2-6 1-2 1-6 1-2 2 2 8 1-2 2
thermoset
thermoset
Methylene Blue Salts elevated temperature
rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
thermoset
Fluoroelastomer (FKM)
elevated temperature
1-2 2-5 0-9 1 2-5 2
Methyldiethanolamine elevated temperature
thermoset 8 8
Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
elevated temperature
rubber
rubber
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Methyl Tertiary Butyl Ether room temperature
Fluoroelastomer (FFKM)
2 6 6 2 2 1-2 2 2 2
thermoset
PVC Polyol
rubber
Polyester (Isophthalate) Vinyl Ester Resin
8
Methylaniline room temperature
Methylene Bisthiocyanate elevated temperature
thermoplastic elastomer
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
7-9 7-9 9 1
Methylchlorophenyl Silicone elevated temperature
thermoset Furane Resin
5-9
rubber
elevated temperature
thermoset Furane Resin
thermoplastic elastomer
Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Methylamine room temperature
rubber
Methyl Styrene room temperature
2
thermoplastic elastomer 2
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
2 2
Methylene Chloride room temperature
Methylamine (30-40%) room temperature
PVC Polyol
Methylene Chloride (7S-97%) room temperature
8
Polyester (Bisphenol A)
rubber
8
Fluoroelastomer (FFKM)
Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
Methyl Salicylate room temperature
8 2
thermoset
Methylal elevated temperature Fluoroelastomer (FFKM)
rubber
1 1 1-6
Methyl-2-Pyrrolidone (N-) room temperature
rubber
Methyl Phenylacetate elevated temperature
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
8
3
1 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
901
Chemical Sort with POL Resistance Rating
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8
Methylhydrazine 8 6 8 4 6 6 2 2 6
Methylisocyanate 8
MiI-H-5606 Oil room temperature rubber Silicone rubber Fluorosilicone Silicone
8
rubber Fluoroelastomer (TFP)
6-8 6-8 8-9 4-8
rubber Fluoroelastomer (TFP)
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosilicone
rubber Fluoroelastomer (FFKM)
6-8 8-9 4-8
MiI-L-7808D Oil
elevated temperature 7
Methylpyrrolidine
8
8
room temperature
rubber Fluorosilicone Silicone
3-8
2-9 2-8
4-6 3-5
MiI-L-7808F Oil 0 0
elevated temperature
elevated temperature rubber Fluorosilicone Silicone
4-7 3-5
MiI-L-7808G 011 8
Methylstyrene (alpha-) room temperature 2 2 2-8
Metolachlor
elevated temperature rubber Fluorosilicone Silicone
4-6 3-5
MiI-0-5606 elevated temperature rubber Fluoroelastomer (FKM)
8
MiI-0-6085 Oil
room temperature
elevated temperature 8
MiI-A-8243 Deicer Fluid
rubber Fluorosilicone
MiI-R-83282
elevated temperature
elevated temperature 8
rubber
8 8 8 8 8 8 8 8 8 6 2 8 8 1 9 9 8 8
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8
rubber Fluoroelastomer (FKM)
8
Mine Water thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 7 3
Mine Water Acid room temperature
elevated temperature
Methylpyrrolidone
rubber Silicone
7
MiI-L-7808E Oil
elevated temperature
thermoplastic elastomer Polyester TPE
rubber Fluorosilicone Silicone
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
room temperature
Methylphenylsilicone
Milk room temperature
Mine Fluid 3XF
elevated temperature 6-8
8 8
elevated temperature 8 3-4 5-6 6
MiI-L-7808
elevated temperature
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
7
room temperature
rubber Silicone
rubber Fluoroelastomer (FFKM)
8
MiI-L-23699
rubber Fluoroelastomer (TFP)
room temperature
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU) thermoset Polyurethane
5
elevated temperature
Methylphenol (m-)
rubber Fluoroelastomer (FFKM)
4-7 1-2
elevated temperature
rubber Fluoroelastomer (TFP)
room temperature
rubber Fluoroelastomer (FKM)
1-2
elevated temperature
elevated temperature
Methylphenol (3-)
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber
7-8
Mil-H-83282A
Methylisovalerate
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber
elevated temperature
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
7
Mil-H-5606C 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (TFP) thermoplastic elastomer Urethane TPE
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Fluoroelastomer Fluoroelastomer (FKMrrFE)
MiI-H-5606
Methylglycerol
4
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1 7 7 3
Mineral Oils room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyu rethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
6-8 8 2 6 6-8 6-8 2 8 2-8 7 2-4 8 8 8 2 6-8 8 6-8 8 2-6 2 7 9 9 9
elevated temperature thermoplastic elastomer Olefinic TPE Polyamide TPE rubber
3-8 8-9
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
902
Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Silicone thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 9 9 2-6 8 8 8 8 8 8
Mineral Spirits
room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Polyvinyl Alcohol thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
room temperature
elevated temperature
thermoplastic elastomer Olefinic TPE PVC Polyol rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1 5-7 9 1 6-8 8-9 9
elevated terTiperature 8
Mobile JET II elevated temperature rubber Fluoroelastomer (FKM)
Molasses room temperature thermoplastic elastomer Olefinic TPE thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 7 9 7 9
elevated temperature thermoset Vinyl Ester Resin
8
Molybdenum Disulfide room temperature thermoplastic elastomer Styrenic TPE rubber Fluorosilicone Silicone
8 9 9
elevated temperature rubber Fluorosilicone Silicone thermoset Vinyl Ester Resin
9 9 8
Molybdenum Oxide elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
8
8 8
Molybdic Acid
Morpholine (50-750/0) rubber Nitrile Rubber
2 2 2 2
Motor Oils
8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
Mustard Gas room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Silicone
8 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Myristic Acid
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature 8 5-9 1-6 8-9 6-8 2 2 8 2-3 8 8 8 2 2-7 8 8 2 2 2
elevated temperature thermoplastic elastomer Fluorinated TPE Olefinic TPE Polyamide TPE Urethane TPE (TPAU) rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Polyurethane Silicone thermoset Melamine Resin Polyaminobismaleimide Polyester (Bisphenol A) Urea Resin Vinyl Ester Resin
6 4-8 7-9 5-9 5-6 8 2-8 2-9 6-9 4-9 8 6-8 8 7 8 8 8
rubber Neoprene Rubber Nitrile Rubber
9 9
room temperature
elevated temperature
room temperature
8
Muriatic Acid
elevated temperature
rubber Fluoroelastomer (FFKM)
2 2 2-7
room temperature
Molybdic Acid (20-300/0) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
5-6 2 6-8
Muriatic Acid (5-100/0)
Molybdenum Trioxide elevated temperature
9 7 9
elevated temperature
room temperature
Mobil XRM 206A rubber Fluoroelastomer (FKM)
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Morpholine
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
8-9 4-9 8-9 8-9
1
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Naphtha (5-100/0) room temperature rubber Nitrile Rubber
9
Naphtha (50-75%) room temperature rubber Neoprene Rubber
5
Naphtha room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Urea Resin
4 8 5-7 3 2 8 2 3 1-2 8 8-9 8 6-8 1-2 2-8 4-9 6 4-8 9 1-2 2 7-9 9 9
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 7-8 8 8 8 8 8 7-8
Naphthalene
Mustard room temperature
room temperature
thermoplastic elastomer Polyester TPE thermoset Alkyd Resin
thermoplastic elastomer Olefinic TPE Polyester TPE rubber
5 7
4 6-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
903 Chemical Sort with POL Resistance Rating
B~~Rubber
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester
2 2 1-2 8 8 6 8 2 2 1-2 6 6 1-2 2 9
elevated temperature rubber Fluoroelastomer (FFKM) Neoprene Rubber thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 2 8 8 8
Naphthalene Chloride 8
1 8 8 6 1
8
rubber Fluoroelastomer (FFKM)
8 8
elevated temperature
elevated temperature 8
Naphthenic Acids room temperature rubber B~~Rubber
2 2 2 8 8 2 2 6 6 2 2
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A)
elevated temperature 8 8
Naphthoquinone
8
8 8 8 8 8 8 8 8 8 8 8 8
8
thermoset Vinyl Ester Resin
8
Naphthoquinone (1,4-) elevated temperature 8
B~~Rubber
8 2 8 2 1 1-2 8 6 6 2 2 1-2 2
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
8
Nickel Chloride (30-40%) elevated temperature rubber Ethylene Propylene Rubber
7-8
Nickel Chloride room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8 8 8 8 8 6 8 8 4 8 8 7 1 7 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Nickel Nitrate 8
Neville Acid rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
rubber
Nickel Cyanide 8
room temperature
elevated temperature
thermoset Polyester (Chlorendic)
6 2 6 8 8 8 2 2 8 2 8 6 2
Neopentyl Glycol (75-97%)
Neutralizer
Nickel Acetate room temperature
elevated temperature
elevated temperature thermoset Polyester (Chlorendic)
8
Nickel Ammonium Sulfate
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset Polyester (Chlorendic)
8
room temperature 8
Naphthenic Acid
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 8 8 1-2 8 8 4 4 8 8 6 6 8 4
Neon
elevated temperature
'thermoset Polyester (Isophthalate)
8 3
elevated temperature
Naphthalonic Acid rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
2 1-2 8 1-2 2
rubber Fluoroelastomer (FFKM)
room temperature
room temperature
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature
room temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Naphthalenic Acid rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8
Natural Gas
Neats Foot Oil
Naphthalenesulfonic Acid elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
rubber Fluoroelastomer (FFKM)
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
Naphthylamine elevated temperature
6 2 6 8 8 6 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
904 Chemical Sort with POL Resistance Rating
Nickel Salts room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8
6 8 4 8 8
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 3 1 1
elevated temperature
elevated temperature
rubber
rubber
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
8
Nickel Sulfate (40-50%)
room temperature thermoset
rubber
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Ethylene Propylene Rubber
8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 6 8 8 4 4 8 6
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 1 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
thermoset 2 2 2 2 2
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer 0-3
Urethane TPE (TPAU)
2 2
Polyester (Isophthalate) Polyester Terephthalate
elevated temperature thermoset Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate) Polyester Terephthalate Vinyl Ester Resin
Nicotine rubber Fluoroelastomer (FFKM)
8
Nicotine Sulfate room temperature 1 9 5 5
elevated temperature
room temperature
Fluoroelastomer (FFKM)
8
Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
8 7 5-8 9 8 5-9 9 1 9 8 8 7 2 2 7
Diallyl Phthalate Resin Phenolic Resin Polyaminobismaleimide Polyester (Isophthalate) Polyester Terephthalate Polyurethane
room temperature rubber 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
Olefinic TPE
3 3-4
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
2-8 6-8 8 8
Nitric Acid (20-30%) Olefinic TPE Polyester TPE
4-8 2
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
8 8 5 2 2 9
elevated temperature thermoplastic elastomer Olefinic TPE
5
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber
2 2
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Nitric Acid (30-400/0) room temperature thermoplastic elastomer 6
Olefinic TPE Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2-8
elevated temperature rubber Ethylene Propylene Rubber
0
Epoxy Resin Polyester (Chlorendic) Vinyl Ester Resin
0 8 8
Nitric Acid (40-500/0) room temperature thermoplastic elastomer PVC Polyol
8
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone
6 8 6-8 3-8 8-9 1-8 6
thermoset
rubber Fluoroelastomer (FKM)
thermoplastic elastomer
thermoset
4-5
thermoset
Niter Cake Butyl Rubber
8 6 8-9 1 0
elevated temperature
rubber
2 7-9 2 2 2 2 2
thermoset
thermoset
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
3-5 8 2-8 3-8 3-6 8 8
Nitric Acid (5-10 %)
rubber
elevated temperature
Furane Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Furane Resin Polyester
room temperature
Nicotinamide Hydrochloride 8
7
thermoset
Nitric Acid «5%)
elevated temperature Fluoroelastomer (FFKM)
Fluoroelastomer (TFP)
thermoset
thermoplastic elastomer
room temperature
Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU)
rubber
5 1
rubber
room temperature
Nitric
elevated temperature 8
PVC Polyol Styrenic TPE
thermoset 2 2 2-8 2 2
thermoplastic elastomer
Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer
Ethylene Propylene Rubber
Nicotinamide rubber
8
Nitric Acid (10-20%)
rubber
thermoset
thermoset
Vinyl Ester Resin
elevated temperature 8
Nitrating Acid
elevated temperature
Nickel Sulfate
8 8 8 8 8 8 8 8 4 8 8 8
8 8 8
Furane Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 5 2 2 2 2 2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
905
Chemical Sort with POL Resistance Rating
elevated temperature
thermoset
rubber Fluoroelastomer (FFKM) Fluorosilicone
8 5
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2-8 2 2
Nitric Acid (50-750/0) room temperature thermoplastic elastomer Olefinic TPE Polyester TPE pvc Polyol
2 2 4-8
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
2-5 3 2 9 8-9 9 8
6 1 2-8 1 1 3-8
thermoset Diallyl Phthalate Resin Phenolic Resin Polyester Polyimide Vinyl Ester Resin
2 2 5 9 2
elevated temperature rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
3-4 2-9 2
thermoset Vinyl Ester Resin
8
Nitric Acid (75-970/0) room temperature rubber Fluoroelastomer (FKM)
6
Nitric Acid room temperature thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
2 0-7 2 2-8 8 0 2-5
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
2-6 2 2-8 3 1-6 4-8 1-6 6 1-6 2 1-8 1-2 2 2-4 1 1-6 2
thermoset Alkyd Resin Phenolic Resin Polyurethane Urea Resin
1 2-5 2 1
elevated temperature 0
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 3-4
8 8 8 7-8
Nitrochlorobenzene elevated temperature rubber Fluoroelastomer (FFKM)
Nitric Oxide
elevated temperature
thermoset
rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
1 3 1 1
Fluoroelastomer (FFKM)
elevated temperature Fluoroelastomer (FFKM)
room temperature 2 2
elevated temperature rubber
elevated temperature
Fluoroelastomer (FFKM)
rubber
Nitroethane
8
rubber
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber 8
Nitrobenzene room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styren ic TPE
2-9 2 1-2 3
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
4 2 2 3 2-8 6 9 6 7 6-8 1-2 2-5 1-8 1-6 2 2 8 1-2 2
thermoset Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
1 5 2 2 2 7 2-8
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Phenolic Resin
8 9
Nitrobenzoic Acid elevated temperature 8
Nitrobenzoic Acid (p-) elevated temperature rubber Fluoroelastomer (FFKM)
6 2 1 6 1-2 6 4 1-2 2 1-2 6
thermoset Diallyl Phthalate Resin Phenolic Resin Urea Resin
3 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Nitrofluorobenzene elevated temperature rubber Fluoroelastomer (FFKM)
8
Nitrogen (20-300/0) room temperature thermoset Polyester (Isophthalate)
8
Nitrogen room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastom er Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Urea Resin
4-8 8 2-8 2-8 2-8 8 2-8 2-8 2-8 2-8 2-8 2-8 2-8 2-8
elevated temperature
Nitrocellulose
Fluoroelastomer (FFKM)
thermoset Polyester (Isophthalate)
rubber 2 1
elevated temperature
9 9 9 8 9
rubber
room terrlperature
8 8
Nitrogen Dioxide room temperature rubber
rubber Fluoroelastomer (FFKM)
6 4
thermoset
rubber Fluoroelastomer (FFKM)
8
room temperature
Nitroaniline (p-) Fluoroelastomer (FFKM)
8
Nitrodiphenyl Ether
thermoset
Fluoroelastomer (FFKM)
8
Nitrodiethylaniline rubber
Nitroaniline Polyester (Bisphenol A) Polyester (Isophthalate)
8
Nitrochloroform
room temperature
Fluorosilicone Silicone
thermoplastic elastomer Polyamide TPE
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Fluoroelastomer (FKM)
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
906 Chemical Sort with POL Resistance Rating
thermoset
room temperature thermoplastic elastomer 8 8
PVC Polyol Styrenic TPE
elevated temperature
5 7 7
Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
8
Fluoroelastomer (FFKM)
thermoset 2
Polyester (Bisphenol A)
thermoset Phenolic Resin
9
8
Fluoroelastomer (FFKM)
Nitrogen Tetraoxide
2
Polyester (Isophthalate)
room temperature thermoset
4 1 1 1 1
8
Furane Resin
elevated temperature
Nitrous Acid (5-100/0) elevated temperature
Fluoroelastomer (FFKM)
thermoplastic elastomer PVC Polyol
thermoset 1 1 9 2 2 1 2
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Polyester Terephthalate Urea Resin Vinyl Ester Resin
Nitrogen Trifluoride elevated temperature rubber 6
Fluoroelastomer (FFKM)
Nitroglycerin elevated temperature rubber 8
Fluoroelastomer (FFKM)
Nitroglycerol rubber 8
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6 2 1 6 2 2 2 2 2 2 2
2
rubber 5-6 7-9 4-5 8
8
8
Nitrosylsulfuric Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
thermoplastic elastomer 4-8
rubber 6 4
6 2 1 1-2 6 4 1-2 2 1-2
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Nonane elevated temperature rubber Fluoroelastomer (FFKM)
8
Nut Oil elevated temperature thermoset
8
Octachlorotoluene room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2
8 8 6 2 2 1-2 2 2 1-2 2
rubber Fluoroelastomer (FFKM)
rubber
room temperature
8
elevated temperature
Nitrothiophene elevated temperature
Nitromethane
Fluoroelastomer (FFKM)
rubber
Nitrosyl Chloride Fluoroelastomer (FFKM)
thermoplastic elastomer
rubber
Polyester (Chlorendic)
5 7 7
Diallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
room temperature
8
elevated temperature
Nitrous Oxide
rubber
elevated temperature
)
8
PVC Polyol Styrenic TPE
Polyester (Isophthalate)
Fluoroelastomer (FFKM)
rubber
thermoplastic elastomer
thermoset
Nitropropane
rubber
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone
4-6 3-8 1 9
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
elevated temperature
Nitroisopropylbenzene
8
room temperature 1-5
thermoset
elevated temperature
Polyester TPE
Polyester (Isophthalate)
rubber
rubber
thermoset
Nitrous Acid
Nitrogen Tetroxide
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
8 )
room temperature
room temperature Fluoroelastomer (FKMfTFE)
8
rubber
Nitropropane (75-97%
6
thermoset Polyester (Chlorendic)
Nitrophenol (p-)
elevated temperature Fluoroelastomer (FFKM)
2
Polyester (Chlorendic)
elevated temperature
rubber
PVC Polyol
8
8
Nitrotoluene Sulfonic Acid (p-) (20-300/0)
rubber thermoset
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
Nitrotoluene (0-) elevated temperature
elevated temperature Fluoroelastomer (FFKM)
room temperature rubber
8
rubber
thermoset
rubber
Nitrotoluene
Fluoroelastomer (FFKM)
room temperature
elevated temperature
2 2
elevated temperature Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
Nitrophenol
Nitrogen Peroxide
Silicone Styrene Butadiene Rubber
rubber
rubber
rubber
Nitromethane (75-97%
4
Styrene Butadiene Rubber
Nitrogen Oxide
8
room temperature
Nitrotoluene (30-40%)
rubber
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
8
Octadecane
2 2 2 8 4 2 2 2 2 2
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
2
6 1-2
8 8 8 2 6
8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
907 Chemical Sort with POL Resistance Rating
Silicone Styrene Butadiene Rubber
1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature 2 2 1-2 8 8 6 2 2 6 6 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
room temperature 7 9 7
Octanoic Acid elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Octene elevated temperature thermoset Vinyl Ester Resin
8
Octyl Acetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Octyl Alcohol room temperature thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
5-9 6 6 4-8 8 8-9 6 6-9 6-9 6-9 6 2 8 6 6
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature 8
Octyl Phthalate
Oil Additive elevated temperature
7 9 9 9
elevated temperature thermoplastic elastomer Polyester TPE thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
6 8 8 8 8
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
6 4-5 1-6 6 6 8 2-6 4-9 4-9 2 6 8 1-2 2
1 7 7
3
8 8 8 8 8 8 8
Olein elevated temperature rubber Fluoroelastomer (FKM)
elevated temperature 8
Oleum (20-30%) thermoplastic elastomer Polyester TPE rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
8
2 5 2 2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Vinyl Ester Resin
8
Oleum Sulfates (alpha-) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Oleyl Alcohol elevated temperature rubber Fluoroelastomer (FFKM)
8
Olive Oil room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 6 6 6 6 8 8-9 8 2 6 8 2 8 2-4 2 7 9 8 9
elevated temperature 2
Oleopara'thion «5%) thermoset Polyester (Chlorendic)
2 1-2 8 8 6 2 2-4 2-6 2 2-4 1-2 2
elevated temperature 6 8 2-7 8 4-7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Oleum Sulfate (alpha-)
2 5
3 2 2
thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
6 8 8 8 8 8 8
Orange Oil elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Orange Peel
Oleum
elevated temperature rubber Fluoroelastomer (FFKM)
4 2-5 8
room temperature 8
Octyl Chloride rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Oleic Acid
Octane (n-) thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
0
Oils 8
Octane rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FKM)
room temperature
room temperature
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber
rubber Silicone
2 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
908 Chemical Sort with POL Resistance Rating
elevated temperature
Orange Syrup room ternperature
Fluoroelastomer (FFKM)
rubber Fluorosilicone Silicone
6-8 8-9
room temperature
room temperature
thermoplastic elastomer Styrenic TPE
room temperature
4
elevated temperature rubber 5-9
rubber
rubber
Ethylene Propylene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer FJuorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
rubber
Butyl Rubber. Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
2 2 2 8 8 2 8 6 8 2 2
room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1
7 7 3
OS 124 elevated temperature rubber
elevated temperature
room temperature
rubber
rubber
Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
7 6
Orthobenzoyl Benzoic Acid elevated temperature thermoset Vinyl Ester Resin
8
Orthochloroaniline elevated temperature rubber Fluoroelastomer (FFKM)
8
Orthochloroethylbenzene rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 4-6 2 2 2
6 2 2 2
Orthochloronaphthalene room temperature 1 8 6 1 1
elevated temperature rubber Fluoroelastomer (FFKM)
Orthochlorophenol
8
PVC PolyoJ Styrenic TPE
8-9 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
8 4 6 8 8 8 8 6-9 6-9 6-9 2 2 6 6
thermoset 1 7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
3
rubber 3-5
2
6 2
8 6 2 8 6 2 2 2
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature thermoset Vinyl Ester Resin
room ternperature thermoplastic elastomer Styrenic TPE
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2
6 2 8 6 2 8 6 2 2 2
8
Oxygen
rubber
OS 45-1
8 8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
7 7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
room temperature
elevated temperature rubber 2 6 2 8 6 2 8 6 2
2-8 6 2-6 2-8 2-8 6-8 1-8 2-6 2-8 1-6 2 2-8 2-8 2
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane
8
8 8 8 8 8
Oxidizer
pvc Polyol 5-9 6-8
8
thermoset
elevated temperature
0570
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
room temperature
room temperature thermoplastic elastomer
Fluoroelastomer (FFKM)
Fluoroelastomer (FKMrrFE)
OS 45
Oronite M2V
8
Oxalic Acid
elevated temperature
elevated temperature 6-9
8
Orthophosphoric Acid
rubber Fluoroelastomer (FKM)
2 2 2 8 6 2 2 2 6 2 2 2
elevated temperature
room temperature
Oxalic Acid (5-100/0)
room temperature
Orthophos Acid
Oronite 8515
8
elevated temperature
Orthodichlorobenzene 2 2 2 8 8 2 8 6 8 2 2
2 2
Oxalic Acid «50/0)
Orthochlorotoluene Fluorosilicone
rubber
Fluoroelastomer (FKM)
8
rubber
Oronite 8200 Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Silicone Styrene Butadiene Rubber
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluorosilicone Natural Rubber Neoprene Rubber
2 2 2-6 2 6 8 2 2 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
909 Chemical Sort with POL Resistance Rating
Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 6 2
3
8 8
thermoplastic elastomer 9 9
rubber 6
8 8 8
8 8 6 2 4 1-2
8 8 8 2
thermoset 7 7 2-7
elevated temperature 8 8
Pacemaker Fluid elevated temperature rubber Fluorosilicone Silicone
7 1-3
1-5
2 2 2 1-2 6 6-8 6 2 2 1-2 6 2 1-2 2
elevated temperature rubber
8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
4
thermoset 9 1 9
Peanut Oil room temperature rubber 4 8 6 4
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 2 6
8 2
8 8 2
elevated temperature rubber 8
thermoset 8 8 8
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8
rubber 8
Fluoroelastomer (FFKM)
Penicillin elevated temperature rubber Fluoroelastomer (FFKM) 4 9 9
7 9 8 9
8
Pentachloroetha ne elevated temperature rubber 8
Fluoroelastomer (FFKM)
thermoset
8
Furane Resin
Pentachlorophenol (5-100/0) room temperature
elevated temperature 8
rubber
8
thermoset
8
Polyester (Bisphenol A)
thermoset
Silicone
9 6
8
Pentachlorophenol room temperature thermoplastic elastom~r PVC Polyol 8-9
rubber 8
5-8
rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
Paraformaldehyde elevated temperature
ParaIdehyde
9 6
4
rubber
Fluoroelastomer (FFKM)
Neoprene Rubber Nitrile Rubber
Pelagonic Acid elevated temperature
thermoset
Ethylene Propylene Rubber
rubber
Fluoroelastomer (FFKM)
thermoplastic elastomer
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8
PCBs room temperature
8
rubber
Fluoroelastomer (FFKM)
Polyester (Chlorendic)
rubber
rubber
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
thermoset
Pectin elevated temperature
Paracymene elevated temperature
Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8
Parathion elevated temperature
Fluoroelastomer (FFKM) 8 8 8 8 8
rubber
thermoplastic elastomer
Palm Oil
8 5
Paraflu 11 (40-500/0) elevated temperature
Paints room temperature
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
Fluoroelastomer (FFKM) Neoprene Rubber
Paraffin room temperature
rubber
Olefinic TPE
rubber
Fluoroelastomer (TFP)
Paint Thinners room temperature
Fluoroelastomer (FFKM)
1 7 7 3
Paradichlorobenzene room temperature
thermoset
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 1-2 6
elevated temperature
Fluoroelastomer (FFKM)
Paint Removers room temperature Oiallyl Phthalate Resin
6 8 5 5-6 8 8 8 3-6 6-9 5-8 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (FKM)
Fluoroelastomer (FFKM) 6 8 6-8
thermoset
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
8
Parapoid 10C elevated temperature
rubber
rubber
Ozone room temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
Olefinic TPE Polyester TPE PVC Polyol
Fluoroelastomer (FFKM)
rubber 8 8
thermoplastic elastomer
thermoset
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Polyester (Bisphenol A) Vinyl Ester Resin
Palmitic Acid room temperature
Ozone «50/0) elevated temperature
Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber
thermoset
rubber
Polyester (Chlorendic) Vinyl Ester Resin
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
7 9 9
elevated temperature
Oxylene room temperature Fluorosilicone
elevated temperature
room temperature thermoset
1 6-7
9 3-6
elevated temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
910 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM)
8
PentaerythritoI
thermoset Polyester (Bisphenol A) Polyester (Isophthalate)
6 2
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
thermoset Vinyl Ester Resin
8
Pentaerythritol Tetranitrate
Perchloric Acid (20-30%) room temperature 8
Pentalube TP653 elevated temperature rubber Fluoroelastomer (FKM)
Pentane room temperature thermoplastic elastomer Olefinic TPE PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
4 1-5 2 4-9 9 8
8
Pentane (N-) room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 8 6 2 8 4 2 8 8 8 2 2 4
Pentasodium Triphosphate (5-10°;'0) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
rubber Fluoroelastomer (FKMffFE)
elevated temperature 8
Pentyl Pentanoate elevated temperature 8
Peracetic Acid elevated temperature 6
Perchloric Acid «50/0) room temperature 2
elevated temperature
Perchloric Acid (5-100/0) room temperature
Perchloric Acid thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester (Isophthalate)
8
8 7-8 7 6 8 8 2 2-8 2 2-8
Perchloryl Fluoride room temperature rubber Fluoroelastomer (FKMffFE)
2
Perfluorotriethylamine elevated temperature 6
Permanganic Acid 2 8 6 2 6 6 8 8 8 2 6 1-2 2 2 1-2 2 2
elevated temperature 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Peroxides room temperature rubber Polyurethane
8
elevated temperature thermoset Vinyl Ester Resin
8
Persulfuric Acid elevated temperature rubber Fluoroelastomer (FFKM)
8
Petrolatum elevated temperature rubber Fluoroelastomer (FFKM)
8
Petrolatum Ether
Perchloroethane
elevated temperature 1-2
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin
rubber Fluoroelastomer (FFKM)
8
Petroleum
Perch loroethylene
room temperature
thermoset Vinyl Ester Resin
2
room temperature
room temperature
Pentoxone
thermoset Polyester (Isophthalate)
5-6 9 9 1
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Olefinic TPE
room temperature
rubber Fluoroelastomer (FFKM)
9
room temperature
rubber Fluoroelastomer (FKMffFE)
rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber PolyVinyl Alcohol thermoset Polyester (Isophthalate)
rubber Fluoroelastomer (FFKM)
Pentoxol
rubber Fluoroelastomer (FFKM)
6 2 8
room temperature
elevated temperature rubber Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Perchloric Acid (50-750/0) 6
8 2-6 2 2-8
elevated temperature 8
elevated temperature rubber Fluoroelastomer (FFKM)
Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
2 2-8 2-9 1-5 6 4-6 2 2 4 2
3 1-2 8 9 7-9 1 6-7 1-2 1-4 4-8 6 2 9 1-5 2
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
9 7-9 1 6-8 1-6 1-8 1-6
elevated temperature rubber Fluoroelastomer (FFKM)
8
Petroleum Ether room temperature thermoplastic elastomer Olefinic TPE Polybutadiene Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Fluoroelastomer (FKM) Neoprene Rubber Nitrile Rubber thermoset Alkyd Resin Urea Resin
4
3 9 9 8 6-8 8-9
9 9
2
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
911 Chemical Sort with POL Resistance Rating
Petroleum Oil «SOk) elevated temperature thermoset Polyester (Chlorendic)
8
Petroleum Oils room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8 2 8 6 2 8 8 2 6 8 2 8 2 2
elevated temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 2-8 2-6 2 6-8 2-6 2 2-6 2-8 2 2-6 2-6 2
Phenol «S%) room temperature thermoset Polyester Terephthalate Vinyl Ester Resin
2 2-8
elevated temperature thermoset Vinyl Ester Resin
8
2 2 2 8 6 2 2 2 2 2 2-7 2 9 2 2 2-8
room temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2 2
6 2 5-8
3 2 2 2
3 5-6 8 8-9 8 6-8 2-9 2-9 1-9 2 2-8 5-7 1-2 2 1 7 8 7 2 2 2 2
8
2 2 2 2 8 6 2 2 2 2 2 2 2
5
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8
8 8
2
8
8
Phenyl Acetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Phenyl Benzene room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 1-2 8 8 6 2 2 1-2 6 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Phenyl Carbinol elevated temperature thermoset Furane Resin
8
elevated temperature thermoset Furane Resin
8
Phenylacetamide elevated temperature 8
elevated temperature 8
Phenylenediamine elevated temperature 8 0
Phenylethyl Alcohol elevated temperature
8
Phenolic Resins
rubber Fluoroelastomer (FFKM)
8
Phenylethyl Ether
elevated temperature
room temperature 8
Phenolic Sulfonate
2
9
Phenolsulfonic Acid
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FKMfTFE) thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
room temperature
thermoset Furane Resin
2-8
elevated temperature
Phenylacetic Acid
Phenol Sulfonic Acid thermoset Vinyl Ester Resin
room temperature thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
elevated temperature
)
room temperature rubber Butyl Rubber
thermoplastic elastomer Olefinic TPE
thermoset Phenolic Resin
elevated temperature rubber Silicone
6 8-9
elevated temperature
room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 8 5-8
room temperature
Phenol (SO-750/0)
8
Phenolsulfonic Acid (50-7SO/o)
Phenyl Ether
Phenol Resins
elevated temperature thermoset Furane Resin
rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Furane Resin Phenolic Resin
rubber Ethylene Propylene Rubber
rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Phenolsulfonic Acid (S-100/0) elevated temperature
elevated temperature
Phenol
elevated temperature
Phenol (S-100/0)
Phenol (75-97 %
Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyester Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone
2 2 2 1-2 2 1 1-2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
912 Chemical Sort with POL Resistance Rating
Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 6 2 1-2 2
elevated temperature 8
Urethane TPE (TPAU)
8
rubber
rubber 8
room temperature
elevated temperature
rubber
rubber
elevated temperature 8
Phenylhydrazine Hydrochloride elevated temperature rubber 8
Phenylmercuric Acetate rubber Fluoroelastomer (FFKM)
8
elevated temperature 8
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8 8
thermoset
Phosphoric Acid (20-30%) 9
Phosphoric Acid (40-50%) room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
8
Phosphate Ester room temperature thermoset 9 7 7 9
Phosphine
6 2 6 6-8 8 8 6 2 6 1-2 2 8 2-4 2
elevated temperature
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluorosilicone Silicone
8 6-9 8 7
thermoset Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 4 1-3 8 8 5-8 8 8
Phosphoric Acid room temperature thermoplastic elastomer 8 5-8 8 3-5 2
Olefinic TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
4-6 2 4-6 6-8 8 6 2-6 2-9 2-9 2 8 1 4-6 2-6
thermoset 1 7 9 2 3
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
elevated temperature thermoset 8 8 8 8
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
elevated temperature rubber
4-6 2-8 2
Epoxy Resin Polyester (Chlorendic) Polyester (Isophthalate)
Fluoroelastomer (FFKM)
elevated temperature
Phosphoric Acid (50-75%)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer 9
Styrenic TPE
rubber 8 8
8 8 8
B
Phosphorous Acid elevated temperature thermoset
rubber Chlorosulfonated PE Rubber
8
Phosphorous Acid (50-75%)
room temperature
elevated temperature B
6-7 9 2
Phosphorous B
thermoset
Ethylene Propylene Rubber Neoprene Rubber
rubber
8-9 8-9 8-9 8-9 9
rubber 8 8 8
rubber
rubber
Fluoroelastomer (FFKM)
rubber
elevated temperature
Phosgene elevated terrlperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
Styrenic TPE
6 2 2 4-6 2 1 1-2 2 2 1-2 2 2 1-2 2
rubber
Fluoroelastomer (FFKM)
6 2 6 7 8 8 8 6 6 6-8 2-6 2 8 6 4
thermoplastic elastomer
room temperature rubber
Fluoroelastomer (FFKM)
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysu Ifide Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature
Phorone Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4-6 6-8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
elevated temperature
rubber Ethylene Propylene Rubber Natural Rubber Neoprene Rubber Nitrile Rubber Silicone
Phosphoric Acid (10-20%)
room temperature
rubber
6 8-9
Oiallyl Phthalate Resin Polyester Polyester (Isophthalate)
Urethane TPE (TPAU) Urethane TPE (TPEU)
2 2 2 2-6 8 8 8 2 1-2 2 6
Olefinic TPE PVC Polyol
thermoset 9
thermoplastic elastomer
Phenylhydrazine
Fluoroelastomer (FFKM)
7
elevated temperature Silicone
elevated temperature
Fluoroelastomer (FFKM)
9
rubber
Phenylglycerine
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
thermoplastic elastomer 3
Polyurethane
rubber
8
Phosphoric Acid (75-970/0) room temperature
Phosphoric Acid (5-10%) room temperature
thermoset
elevated temperature
Fluoroelastomer (FFKM)
4-6
Silicone
Phenylethyl Molonic Ester Fluoroelastomer (FFKM)
Polyester (Chlorendic)
thermoset Epoxy Resin
7-8
thermoset
thermoplastic elastomer
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FKM)
Phosphoric Acid «50/0) elevated temperature
8
Furane Resin
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
913 Chemical Sort with POL Resistance Rating
pvc Polyol Styrenic TPE
Phosphorous Oxychloride elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
8
rubber
Phosphorous Sesquisulfide
Fluoroelastomer (FFKM) Silicone
elevated temperature
thermoset
thermoset Polyester (Chlorendic)
8
Phosphorous Trichloride room temperature 8 2 2 8 8 ~
8 2 2 1-2 2
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Phosphorus Oxychloride 2 2-8 8 2
Phosphorus Pentoxide elevated temperature thermoset 8
Phosphorus Trichloride room temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
thermoset 2
room temperature
8 8 8 8
Pickling Solutions (20-30%) elevated temperature thermoset 8 8 8 8
7 7 8 7
Pine Oil room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 2 2-8
3 2-4 6 6 1-2 2 2 1-2 2 2 1-2 2
Phthalic Acid room temperature thermoplastic elastomer
8
Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8 8
Fluoroelastomer (FFKM)
8
Fluoroelastomer (FFKM)
room temperature
room temperature rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature 8
8
8
6 2 4
6 6 6 1-2
2
8
8
Fluoroelastomer (FKMrrFE)
Pink Liquor
Picric Acid
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
8
Pinene (beta-) rubber
rubber
2 1-2
Fluoroelastomer (FFKM)
elevated temperature
PVC Polyol
2
6
rubber 2 2
thermoset
8
8
Pinene
elevated temperature
)
Vinyl Ester Resin
8 8-9
rubber
room temperature
Polyester (Chlorendic)
2
Pine Tar
thermoset
room temperature
6 1-2 2
elevated temperature
room temperature
thermoset
2 2 1-6
Polyester (Bisphenol A) Vinyl Ester Resin
thermoplastic elastomer
Photographic Solutions
8
8 8
Fluoroelastomer (FFKM)
room temperature Polyester (Chlorendic)
8
thermoset
Photographic Fixing Baths thermoset
2 6 2 1-2
rubber
3
Polyester TPE
rubber
Polyester (I sophthalate) Vinyl Ester Resin
thermoset
8
8
Vinyl Ester Resin
thermoset
room temperature
3
elevated temperature
thermoplastic elastomer
Picric Acid (5-10%
2
thermoset
rubber 2 2 2
Photographic Developers Alkyd Resin Oiallyl Phthalate Resin Polyester (Chlorendic) Urea Resin
thermoset
elevated temperature
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8 4 5 9 9
Picoline (alpha-)
Phossy Water
1 9
Fluoroelastomer (FFKM)
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
6
elevated temperature
Furane Resin
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
1-2
Alkyd Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
thermoset
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluorosilicone Silicone
2
6 1
thermoset
elevated temperature
rubber
room temperature
Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
rubber
elevated temperature
Phosphoryl Chloride Vinyl Ester Resin
8 8 8 8
room temperature
thermoset
Vinyl Ester Resin
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Pickling Solutions
room temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 9
Phthalic Anhydride
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
8
3
7-9 6 6 6-8 5-6 8 8 6 5-6 6-9 6-9
3
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
7
9
Piperazine elevated temperature rubber
8
Fluoroelastomer (FFKM)
Piperazine Hydrochloride elevated temperature thermoset
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
914
Chemical Sort with POL Resistance Rating
Polyester (Bisphenol A)
8
Piperidine room temperature thermoplastic elastomer Olefinic TPE
5-6
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 1-2 2 1 1-2 2 2 1-2 2 2 1-2 2
Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Polyacrylamide (30-40%)
Urethane TPE (TPAU)
8 8
Polyester (Bisphenol A) Polyester (Chlorendic)
Polyacrylamide room temperature thermoset 2
Vinyl Ester Resin
thermoset
Polychlorinated Biphenyls
Plating Baths thermoset Polyester (Chlorendic)
8
9
6
thermoplastic elastomer
Fluoroelastomer (FFKM)
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2 2
elevated terrlperature rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
7-8 2-8 7-8
Polyglycerol elevated temperature
2
Pneumatic Service
8
Polyglycols
room temperature
rubber 8
Silicone
elevated temperature
8
5
thermoset 8-9
Epoxy Resin
thermoset 7 7
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
5
Potassium
rubber Fluoroelastomer (FFKM) Silicone
8 7-8
room temperature rubber Ethylene Propylene Rubber
Polyolefins elevated temperature Fluoroelastomer (FFKM)
8
thermoset
rubber 8
1 1
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
5
elevated temperature rubber Fluoroelastomer (FFKM)
8 8
Potassium Acetate room temperature rubber
rubber Silicone
7 9
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
room temperature 6
Styrenic TPE
room terrlperature 8 8
thermoset
Potash Alum
room temperature thermoplastic elastomer
Polystyrene
rubber
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
rubber
Polyester (Bisphenol A) Vinyl Ester Resin
thermoset
room temperature 8
thermoset
thermoset
elevated temperature
Potash
thermoset
elevated temperature
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber
Polyethyleneimine (10-20 k) elevated temperature
Polyphosphoric Acid
Plus 5 Polyester (Isophthalate)
8
Vinyl Ester Resin
Fluoroelastomer (FFKM)
2
Vinyl Ester Resin
8
thermoset
Vinyl Ester Resin
Polyvinyl Chloride thermoset
0
8 8 2-8 6-8 8 8 6 2 2 1-8 2 1-6 2-8
8 8
room temperature
Polyethylene Glycol rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
7 7
room temperature
rubber
Polyester (Chlorendic) Polyester Terephthalate
thermoset
room temperature
elevated temperature 8 8
8 8 8
elevated temperature
Polyethylene
Plating Solutions PVC Polyol Styrenic TPE
8
Polyvinyl Alcohol room temperature
Oiallyl Phthalate Resin Urea Resin
7
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
thermoset
thermoset
thermoset
rubber
rubber
Plating Solutions (50-75%)
8
elevated temperature
room temperature
elevated temperature Vinyl Ester Resin
8
Neoprene Rubber Nitrile Rubber
elevated temperature
8 8 6 8 6 2
thermoset
Vinyl Ester Resin
4
8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Neoprene Rubber Silicone
Fluoroelastomer (FFKM)
elevated temperature 6
Olefinic TPE
Polyester (Isophthalate)
8 8
Polyester (Bisphenol A) Vinyl Ester Resin
rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
Polyester (Isophthalate) Vinyl Ester Resin
thermoset
elevated temperature 8
elevated temperature thermoset
Polyvinyl Acetate
Polyaminoamide
thermoplastic elastomer
8 8
room temperature
thermoset
room temperature
Polyester (Bisphenol A) Polyester (Chlorendic)
thermoplastic elastomer
rubber
Plasticizers
thermoset
thermoset
elevated temperature 8
Polyvinyl Alcohol room temperature
room temperature
elevated temperature Fluoroelastomer (FFKM)
8 8 2 2 8 8 2 8 2 2
9
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
8 6 2 8 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
915 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
1 8 1-2 8 6 6 2 2 1-2 2
elevated temperature rubber 8
Fluoroelastomer (FFKM)
8
room temperature 8
8
Fluoroelastomer (FFKM)
thermoset 8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature 8
thermoset 8 8 8 8 8
Potassium Amyl Xanthate «50/0) elevated temperature thermoset 8 8
8
Fluoroelastomer (FFKM)
8
thermoset 8
Potassium Bromide elevated temperature rubber 8
thermoset 8 8 8 8
Potassium Carbonate (5-100/0)
room temperature
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
thermoset
2
8 8 7-8
elevated temperature
Potassium Carbonate (20-30%)
thermoset
elevated temperature
Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 7-8
Potassium Bicarbonate (40-50%) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 7-8
room temperature thermoset Phenolic Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 7-8
8 8 8 8
rubber Fluoroelastomer (FFKM)
elevated temperature rubber
7-8
8
Fluoroelastomer (FFKM)
Potassium Cuprocyanide
room temperature
room temperature
thermoplastic elastomer
rubber 8
thermoset
elevated temperature
8
Fluoroelastomer (FFKM)
rubber
thermoset
rubber
8 9 8 8 8 8 8
Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Potassium Citrate
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin
8
thermoset
elevated temperature
Styrenic TPE
7 7 7
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
Potassium Carbonate (40-500/0) Vinyl Ester Resin
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
thermoset
elevated temperature
Potassium Carbonate
Potassium Bicarbonate
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Potassium Chromate
thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
9 7
elevated temperature 2 8
elevated temperature thermoset
Urethane TPE rrPAU) Urethane TPE (TPEU)
rubber 8
Potassium Bromate (5-100/0)
Potassium Bicarbonate (5-100/0)
Potassium Chloride (30-400/0)
room temperature
thermoset
rubber
8-9
Potassium Chloride
Potassium Bitartrate
Polyester (Isophthalate) Polyester Terephthalate
9
Potassium Chloride (20-300/0)
room temperature
room temperature
Potassium Antimonate elevated temperature
8
thermoplastic elastomer
rubber
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature rubber
Ethylene Propylene Rubber
8
elevated temperature
Fluoroelastomer (FFKM)
7 7 3
elevated temperature
Potassium Bisulfite
Furane Resin
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
rubber
elevated temperature
elevated temperature
rubber
8
Phenolic Resin
8
Fluoroelastomer (FFKM)
8
Styrenic TPE
thermoset
Fluoroelastomer (FFKM)
rubber
room temperature thermoplastic elastomer
8 8-9
thermoset
elevated temperature
elevated temperature
Potassium Aluminum Sulfate
Polyester (Isophthalate)
8
Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FFKM)
elevated temperature
rubber
elevated temperature
Polyester (Bisphenol A) Vinyl Ester Resin
7 7 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
Potassium Bisulfate
Olefinic TPE
Furane Resin Phenolic Resin
thermoplastic elastomer
thermoset
Fluoroelastomer (FFKM)
thermoplastic elastomer
8
room temperature
rubber
Potassium Alum
Fluoroelastomer (FFKM)
thermoset
Potassium Chlorate
Potassium Bichromate room temperature
Potassium Bifluoride
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
rubber Ethylene Propylene Rubber
rubber
Potassium Acid Sulfate elevated temperature
Olefinic TPE
Potassium Bichromate (10-200/0) elevated temperature
7 7 2 2 2 2 5
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber
8 8 8 8 8 8 8 8 8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
916 Chemical Sort with POL Resistance Rating
8 8 8
Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber 8
Fluoroelastomer (FFKM)
Potassium Cyanate 8
Fluoroelastomer (FFKM)
Potassium Cyanide (30-400/0) elevated temperature thermoset 8
Potassium Cyanide
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
8
room temperature
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8
8 8 8 8 8 8 8 8 8 8 8
thermoset
Diallyl Phthalate Resin Phenolic Resin
7
8
elevated temperature Fluoroelastomer (FFKM)
8
thermoset 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Potassium Glucocyanate elevated temperature rubber 8
Fluoroelastomer (FFKM)
Potassium Hydroxide «50/0)
5
thermoplastic elastomer
room temperature Styrenic TPE
rubber
elevated temperature 8
Phenolic Resin Vinyl Ester Resin
Potassium Dichromate (5-10%) room temperature Urethane TPE (TPAU) Urethane TPE (TPEU)
9 7-9
Potassium Dichromate room temperature 7
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 6 8 8 8 6 8 6
8 8 8 8 8 8
Potassium Diphosphate
7-9
thermoset 2 2 2 7
Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane
elevated temperature
rubber
8 8 7-8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Potassium Hydroxide (10-20%) 8
Vinyl Ester Resin
Potassium Hydroxide (20-30%) 8
Fluoroelastomer (TFP)
2 2
Polyester (Chlorendic) Polyester Terephthalate
elevated temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 6 8 8 6
1 4 6 6 6 6 6
4 6
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate)
1 7 2 2
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber Silicone
8 8 8
5
thermoset 8 7
Phenolic Resin Vinyl Ester Resin
Potassium Hypochlorite 8
Fluoroelastomer (FFKM)
Potassium Iodate elevated temperature rubber 8
Fluoroelastomer (FFKM)
rubber Ethylene Propylene Rubber
7-9
thermoplastic elastomer 8 8
PVC Polyol Styrenic TPE
elevated temperature rubber 8
Fluoroelastomer (FFKM)
9
Silicone
thermoset 8 8 7-8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
thermoset 8 8
Polyester (Bisphenol A) Vinyl Ester Resin
Potassium Metabisulfate elevated temperature rubber 8
Fluoroelastomer (FFKM)
thermoplastic elastomer
Natural Rubber
6 8 8 9 9
room temperature
rubber
rubber
room temperature Olefinic TPE Polyester TPE Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Potassium Iodide
room temperature
Potassium Ferricyanide
Potassium Hydroxide
elevated temperature
thermoset
elevated temperature
9 8 2 2 2 2-8
Potassium Iodide (SO-75°k)
elevated temperature
pvc Polyol
Epoxy Resin Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
rubber 7
Silicone
thermoset
room temperature 8
elevated temperature
elevated temperature
Potassium Hydroxide (40-S0 0/0)
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer
rubber
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature
thermoset
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8
Potassium Hydroxide (5-10%)
elevated temperature
thermoplastic elastomer Polyester TPE
thermoset
Olefinic TPE
thermoplastic elastomer
2 2
thermoset 9
Polyester (Bisphenol A)
9 8
Polyester (Chlorendic) Polyester (I sophthalate)
rubber
rubber
elevated temperature Fluoroelastomer (FFKM)
thermoset
thermoplastic elastomer
thermoset
7 7 8
thermoset
8-9 8-9 1
8 8 8
room temperature 8 8 8
Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
thermoset
Potassium Fluoride
rubber
Alkyd Resin Diallyl Phthalate Resin Furane Resin Urea Resin
8
elevated temperature
rubber
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
Potassium Ferrocyanide
elevated temperature
Polyester (Bisphenol A)
rubber
8-9
Potassium Metasilicate
8-9
rubber
elevated temperature Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
917 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM)
Potassium Nitrate room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastom er Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin
8 8 8 8 8 8 8 8 8 8 8 8 8 8 8
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
rubber Ethylene Propylene Rubber
Potassium Phosphate
7 7 7
rubber Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature 8 9
8 8 8 8 8
8
Potassium Pyrophosphate thermoset Phenolic Resin
Potassium Perchlorate elevated temperature 8
Potassium Perfluoroacetate elevated temperature 8
Potassium Permanganate «50/0) room temperature 5 2
Potassium Permanganate (20-300/0) elevated temperature
Potassium Permanganate room temperature thermoset Polyester (Isophthalate)
2
Potassium Peroxide
8 8 8 8 8 8
8 8 8 6 8 8 8 8 6 8 8 6 8 8 6 7 7 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 9
8 8 8 8
Potassium Sulfide 8
Potassium Sulfite room temperature
8 8 8 8 8 8 8 8 8 8 8 8 8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 6 8 8 8 6 8 8 6 8 8 6
elevated temperature rubber Fluoroelastomer (FFKM)
8
Potassium Tartrate elevated temperature
8
Potassium Silicate
rubber Fluoroelastomer (FFKM)
8
Potassium Thiocyanate
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
8
Potassium Thiosulfate
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
8
Potassium Stannate
Potassium Triphosphate
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Potassium Sodium Tartrate 6
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin
rubber Fluoroelastomer (FFKM)
elevated temperature rubber Fluoroelastomer (FFKM)
Potassium Sulfate room temperature
elevated temperature
Potassium Salts thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8
8
Potassium Pyrosulfate
elevated temperature 8
8 8
elevated temperature
room temperature
rubber Fluoroelastomer (FKM)
8
Potassium Pyrophosphate (50-75%)
Potassium Oxalate
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
7-8
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
8 8 8
Potassium Phosphate (10-20%)
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
8
elevated temperature
Potassium Nitrite
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Vinyl Ester Resin
2
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8
room temperature thermoset Polyester (Isophthalate)
7-8
Ethylene Propylene Rubber
Potassium Persulfate 7 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature
8
Potassium Stearate
Potassium Sulfate (10-200/0) elevated temperature rubber
8
Power Steering Fluid
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
room temperature 8
rubber Fluoroelastomer (TFP)
8
elevated ternperature thermoplastic elastomer Olefinic TPE
1-9
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
918
Chemical Sort with POL Resistance Rating
Producer Gas
Propionic Acid (20-30%)
Propyl Alcohol
room temperature
elevated temperature
room temperature
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 6 2 8 6 2 6 8 2 8 6 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 5 9 7
7 7
rubber 2 8 6 1-2 8 6-9 6 2 6 8 8 4 1-2 2
thermoset Diallyl Phthalate Resin Urea Resin
7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Phenolic Resin
9
Propane Propionitrile room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 6 2
8 4 2 6
8 8 2 2 2
Propionaldehyde room temperature thermoset Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Propionic Acid «50/0) room temperature 8 8 8 8
8
Propionic Acid (10-200/0) elevated temperature
elevated temperature
rubber
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Propionic Acid (75-97%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
Propionic Acid Diallyl Phthalate Resin Phenolic Resin Vinyl Ester Resin
2 8 2-8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Propionitrile elevated temperature 8
Propyl Acetate room temperature thermoplastic elastomer PVC Polyol
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKM/TFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 2 6 2 1 1 1-2 2 2 1-6 6 2 7-8 1-2 2
elevated temperature
8
8 8 8 8 8 8 9 8 8 6-8 8-9 8-9 8 2 2 8 8
thermoset Phenolic Resin
8
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM/TFE)
8 8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6 2 6 2 1 1-2 2 2 1-2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Propyl Palmitate (i-) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Propyl Propionate elevated temperature
rubber Fluoroelastomer (FFKM)
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Propyl Nitrate
rubber Fluoroelastomer (FFKM)
5-8 2-8 5-7
elevated temperature
8
Propyl Acetate (N-)
rubber Fluoroelastomer (FFKM)
8
Propylamine
room temperature
room temperature
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 2
thermoset
8
rubber
2 2 2 2 2 6 2
Fluoroelastomer (FFKM)
2 2
Propylene
2
Vinyl Ester Resin
elevated terrlperature 8
Propylbenzene elevated temperature rubber Fluoroelastomer (FFKM)
8
room temperature rubber
room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8 1 1 1 4
elevated temperature
thermoset Vinyl Ester Resin
Olefinic TPE Polyamide TPE PVC Polyol
Propyl Acetone
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Propionic Acid (40-50%)
thermoset
room temperature thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
room temperature
Propane Urethane TPE (TPAU) Urethane TPE (TPEU)
thermoplastic elastomer
Polyester (Bisphenol A)
rubber Fluoroelastomer (FFKM)
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone
2 2 1-2
8 8 6 2 2 1-2 6 2 1-2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
919 Chemical Sort with POL Resistance Rating
Styrene Butadiene Rubber
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Propylene Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
4
elevated temperature rubber Fluoroelastomer (FFKM) Fluo rosi Iicone
8 4
Propylene Glycol room temperature thermoplastic elastomer Olefinic TPE PVC Polyol thermoset Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 7
8 8 8 8 8 8 8
Propylene Oxide room temperature thermoplastic elastomer PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 6 2 1 1-2 2 1-2 1-2 2 5-6 1-2 2
8
2-6
Pulp elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8
Pydraul10E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM)
8
6 2 6-8 8 8 4 2 2 1-2 2 1-2 2
Pydraul 230E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-6 8 8 1-2 2 2 1-2 2 1-2 2
6 2 6-8 8 8
8
Pydraul 29 ELT room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8 8 1 1 1
elevated temperature rubber Fluoroelastomer (FFKM)
8
Pydraul 29ELT room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Olefin ic TPE rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
4-6 9 7-8 6-9
Pydraul312C room temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Silicone
2 1-2 8 1 2 1 1
thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM)
1-3 8
Pydraul312E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 6 8 2 2 2 2 2 2 2
Pydraul50E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6-8 8 8 8 2 2 2-8 2 8 2
elevated temperature 6 2 6 8 2 2 2 2 2 2 2
Pydraul30E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 8 2
elevated temperature 8
elevated temperature
PRL 3313 elevated temperature rubber Silicone
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Polyurethane Silicone Styrene Butadiene Rubber
Pydraul312 elevated temperature
elevated temperature 8 9
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
Pydraul 115E room temperature
Propylene Dichloride room temperature thermoplastic elastomer Olefinic TPE
1-2 2 2 1-2 2 1-2 2
elevated temperature 8
Propylene Chlorohydrin elevated temperature rubber Fluoroelastomer (FFKM)
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6-8 8 8 8 2 2 2-8
rubber Fluoroelastomer (FFKM)
Pydraul 540C room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-6 8 8 1-2 2 2 1-2 2 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Pydraul60 elevated temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
920
Chemical Sort with POL Resistance Rating
Fluoroelastomer
3
Pydraul65E room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 2 6-8 8 8 8 2 2 2-8 2
8 2
0
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysu Ifide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
Pydraul90E room temperature rubber 6 2 6-8 8 8 8 2 2 2-8 2 8 2
elevated temperature rubber Fluoroelastomer (FFKM)
Alkyd Resin Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE)
8 8 9
thermoset Polyester (Bisphenol A)
8
Pyridine room temperature Olefinic TPE Polyester TPE pvc Polyol Styrenic TPE Urethane TPE (TPAU)
6-9 3 0-2 8 0
Fluoroelastomer (FFKM)
1
Fluoroelastomer (FFKM)
7 7
Quinine Hydrochloride
8
elevated temperature Fluoroelastomer (FFKM)
8
8
Quinine Sulfate elevated temperature rubber
room temperature
Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
8
rubber
Pyroligneous Acid 6 2 6 2 1 1-2 2 2 1-2 6 2 2
8
Quinine Tartrate elevated temperature rubber Fluoroelastomer (FFKM)
8
Quinizarin elevated temperature rubber Fluoroelastomer (FFKM)
8
Quinoline elevated temperature
thermoset 1
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 3
rubber Fluoroelastomer (FFKM)
elevated temperature
elevated temperature rubber 8
Fluoroelastomer (FFKM)
8
R502
Pyrosulfuric Acid elevated temperature
elevated ternperature
rubber
thermoplastic elastomer
Fluoroelastomer (FFKM)
8
Quinone
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer
8
3
room ternperature
rubber
elevated temperature
elevated temperature
rubber
elevated temperature
8
rubber
elevated temperature 2 2 2 1-2 8 8 8 2 2 8 2 6 1-2 2
Fluoroelastomer (FFKM)
Quinine Bisulfate
Pyranol Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
rubber
Pyrogallic Acid Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 9 9
Quinine
room terrlperature
room temperature 9
8
Pyridine Sulfonic Acid
thermoset
7
rubber
elevated temperature
Pyralene 1498
8
room temperature
Quinidine
Fluoroelastomer (FFKM)
8
elevated temperature
1
elevated temPerature
thermoset
Fluoroelastomer (FFKM)
Pyruvic Acid
9 1
9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
9
elevated temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Pydraul F9
Polyam inobismaleim ide
8
2 2 2-4 2 1 2-4 4 2 1-2 2 6 4
rubber
room temperature
Fluoroelastomer (FFKM)
Fluoroelastomer (FKM)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
thermoset
elevated temperature
rubber
room temperature rubber
Fluoroelastomer (FFKM)
thermoset
6
Pyrrole
Pyridine Sulfate
rubber
8
Fluoroelastomer (FFKM)
Quenching Oils
elevated temperature
rubber
rubber
rubber
elevated temperature Fluoroelastomer (FFKM)
Pyrosulfuryl Chloride elevated temperature
9 1 2 2 2 2 2 2 1 2
rubber
Pydraul A200 Fluoroelastomer (FKM)
6 2 3 5-6 2 1-3 6 1-2 2-5 1-4 1-2 2 4-5 1-2 2
thermoset
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Urethane TPE (TPEU)
rubber
8
Polyamide TPE
2-8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
921 Chemical Sort with POL Resistance Rating
Raffinate elevated temperature rubber Fluoroelastomer (FFKM)
8
Ramjet Fuel room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
1 8-9 8 8 1
elevated temperature rubber Fluoroelastomer (FFKM)
8
elevated temperature
room temperature 7
2 8 8 8 8 2 6 6 2 6 1-2 2
8
8
8
8
elevated temperature 8 8
8
Rayon Spin Bath elevated temperature 6 8 2-8
8
RD 6195
elevated temperature 8 8
room temperature
8 8
8
room temperature 8
RJ 1 2 8 6 2 8 8 2 6
8 8 6 2 2
thermoplastic elastomer Olefinic TPE thermoset Alkyd Resin
4 8·9 8·9
room temperature rubber Silicone
9
Rust Stripper elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
RX 1099 room temperature
8 8
8 8
room terrlperature
8
6·8
Rust Inhibitor
rubber Fluorosilicone Silicone
Rocket Fuel
room temperature
1 5·8 9 9
Rule 66
8 8
Saccharin elevated temperature rubber Fluoroelastomer (FFKM)
8
Safflower Oil 9
Rosin 6 1-2 8
room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber
2
8
Rubber Solvent
rubber Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 8 6 1-2 8 8-9 8 2 6 8 8 6 1·2 2
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
rubber Fluoroelastomer (FKM)
Red Oil rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
9 1 9 1
room temperature 4-8
Red Liquor thermoset Polyester (Chlorendic) Vinyl Ester Resin
8
RJ-4 Fuel
elevated temperature rubber Fluoroelastomer (FKM)
8
elevated temperature
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6
room temperature
room temperature
Rayon Coagulating Bath
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
rubber Fluoroelastomer (FFKM)
9
Royco 899
RP 1
Rhodium rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic)
elevated temperature rubber Fluoroelastomer (FKM)
1-3
room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
Rotella Oil
8-9
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
9 9
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FKM)
Ricinoleic Acid
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoplastic elastomer Polyamide TPE rubber Nitrile Rubber
Oiallyl Phthalate Resin Phenolic Resin
elevated temperature
Refrigerants
Riboflavin
Rayon thermoset Polyester (Chlorendic) Vinyl Ester Resin
8
Rhidolene 8 8
elevated temperature thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM)
elevated temperature rubber Fluoroelastomer (FFKM)
Resorcinol 9
Rapeseed Oil thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 2 6 8 8 6 1-2 2
elevated temperature
Rando HD-32 thermoplastic elastomer Urethane TPE
Fluoroelastomer (FKM) Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature thermoset Polyester (Bisphenol A)
8
Sal Ammoniac 6 9
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber
8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
922 Chemical Sort with POL Resistance Rating
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 8 8 8 8 8 8 8 8 6 8
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 9 9
Santosafe 300
1
elevated temperature rubber Fluoroelastomer (FFKM)
8
Salicylanilide (5-10%) room temperature rubber Silicone
9
Salicylic Acid room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Nitrile Rubber Styrene Butadiene Rubber
8 8 8 8 8 8 6 6
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8
Salt Brine (20-30%) elevated temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
8 8 8
Salt Brine room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Fluorosilicone Silicone
2 2
room temperature rubber Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
4 4 8 8 2 2 2 8 2
7-8
Sea Water
Salts room temperature 6-8 4-8
8
rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
rubber Fluoroelastomer (FFKM)
room terrlperature 8-9 8 9 9 8 8 8 8-9 8 8 8 8 7 9 2-9
3
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7
1 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Shinol TWS-R room temperature rubber Fluoroelastomer
7
Shock Absorber Fluid room temperature thermoplastic elastomer Urethane TPE (TPAU)
8-9
elevated temperature 8 8-9 8 8 8 2-8 8 8 8
8
rubber Silicone
2-5
Shoe Polish room temperature thermoplastic elastomer Polyester TPE rubber Polyurethane
Shortening rubber Silicone thermoset Polyester (Bisphenol A)
8 8
Selenic Acid
Silane elevated temperature 8
8 6-8
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
8
Silicate
Selenious Acid elevated terrlperature
room temperature
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin Vinyl Ester Resin
thermoplastic elastomer Olefinic TPE
Sewage
5 6
Shellac
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Neoprene Rubber Nitrile Rubber Silicone thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber Fluoroelastomer (FFKM)
3
8
elevated temperature 4-5
Sebacic Acid
7 9 5
3
Shell Turbine No. 307
elevated temperature rubber Ethylene Propylene Rubber
1 7 7
Shampoo elevated temperature
elevated temperature
room temperature
thermoset Vinyl Ester Resin
thermoset Polyester (Chlorendic)
Sasso Oil
6 8 6 8 8 6 6 8 2 2 6 6
elevated temperature
elevated temperature
elevated terrlperature
7 7 9 7
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber Fluoroelastomer (FKM)
thermoplastic elastomer Olefinic TPE Urethane TPE (TPAU) rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Salt Water
thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
Santicizer 141 elevated temperature
6 2 8 8 6 2 2 2 2 2 2
room terrlperature
thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
3
2
Salt Cake thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
room temperature 7 9 9
8 8 8 8
8
Silicate Esters room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber
2 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plas tics Design Library
923 Chemical Sort with POL Resistance Rating
1-2
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene But~diene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin elevated temperature rubber Fluoroelastomer (FFKM)
8 8 8 2
8 6
8 1-2 2 9 7 7 9
8
Silicon room temperature thermoplastic elastomer Styrenic TPE
8
Silicon Etch room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
5-7 1
8 1 1
Silicon Fluoride elevated temperature rubber Fluoroelastomer (FFKM)
8
Silicon Tetrachloride elevated temperature rubber Fluoroelastomer (FFKM)
6
Silicon Tetrafluoride elevated temperature rubber Fluoroelastomer (FFKM)
6
Silicone Grease room temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber elevated temperature thermoplastic elastomer Olefinic TPE rubber Ethylene Acrylate Rubber Fluoroelastomer (FFKM) Silicone Oils (75-97 % elevated temperature thermoset Polyester (Chlorendic)
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin elevated temperature thermoplastic elastomer Olefinic TPE rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Polyaminobismaleim ide Vinyl Ester Resin
4
8
8 8 8 )
Silicone Oils room temperature thermoplastic elastomer Olefinic TPE Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber
8
7-9
8 8 8 8
4
8 7 9 9
5-7
8 9 7
8
Silicone Tetrachloride elevated temperature thermoset Furane Resin Silver Bromide elevated temperature rubber Fluoroelastomer (FFKM)
8
Silver Cyanide «5%) elevated temperature thermoset Vinyl Ester Resin Silver Cyanide elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin Silver Nitrate (5-10 room temperature thermoset Polyester
%
8
8 8 8 )
Silver Nitrate (30-400/0) room temperature thermoset Polyester (Chlorendic) Silver Nitrate room temperature thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester
Urea Resin elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8
Silver Sulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Skelly Solvent room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
2 2 2 8 8 2 2 8 2
7
8
8
8
Silver Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8 8 8 8 8 8 8 8 8 8 8 8
8 8 8 8 8 8 8 8 8
7
8
8 8 8 8 8 8 8 8 8 8 8 6 6
8 8 8 7 7 7 7
Skydrol room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol elevated temperature thermoplastic elastomer Polyamide TPE Skydrol500 room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Polyam inobismaleimide elevated terrlperature rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic) Vinyl Ester Resin Skydrol 500A room terrlperature rubber Ethylene Propylene Rubber elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Skydrol 500B room temperature thermoplastic elastomer Polyester TPE Urethane TPE (TPAU)
1 1 1 5
2-5
2
6 2 2
8 2 1 4 2 2 1-2 2 2 4 2 9
2
8 8 8 8
6-9
5·7 1-5 1
8 3-7
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
924 Chemical Sort with POL Resistance Rating
elevated temperature thermoplastic elastomer Polyester TPE
2-6
rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
3-4 1 1-2
Skydrol 500B4 room temperature 6
thermoset Epoxy Resin
9
elevated temperature 0-8
rubber Fluoroelastomer (TFP)
5
Skydrol 7000 room temperature 8 2 2 8 6 6 4 2 2 1-2 2 2 4 2
elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
6 8
Skylube 450 elevated temperature rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE)
4 4
elevated temperature 2-8 2-8
room temperature thermoset 5 7 7
9
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8
8 8 8
Fluoroelastomer (FFKM)
thermoplastic elastomer Polyester TPE
8
pvc Polyol
8 8
rubber
8 8 8 7 8
8
Sodium Acid Sulfate elevated temperature 8
Sodium Acid Sulfite (10-200/0) elevated temperature
elevated temperature thermoset Vinyl Ester Resin
8
Sodium Alkyl Arylsulfonates (30-40%) elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
2 8 8
elevated temperature
8
8 8
Sodium Alkyl Arylsulfonates thermoset
elevated temperature 8 8
Polyester (Chlorendic)
8
8
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Alkyl Xanthate elevated temperature
Soda Carbonate
thermoset
room temperature
Vinyl Ester Resin 7 9 1 5
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
Sodium
8
Sodium Aluminate room temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
elevated temperature rubber 1 1 5 3
7-9 1 8
Sodium Acetate
Fluoroelastomer (FFKM)
8
thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8
Sodium Aluminate Sulfate elevated temperature rubber 8
Sodium Ammonium Phosphate elevated temperature
rubber
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber
elevated temperature rubber
Polyester (Chlorendic)
room temperature
Soaps
8
Sodium Acid Fluoride
Fluoroelastomer (FFKM)
thermoplastic elastomer
Styrenic TPE
elevated temperature
Sodium Alkyd Arylsulfonates
Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
elevated temperature
8 8 8 8 8 8
Sodium Acid Bisulfate
rubber
elevated temperature
Soaps (5-10%)
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature
rubber
8
thermoset
Soda Ash
5-8
thermoplastic elastomer
Polyamide TPE
3-4
Silicone
6-7
elevated temperature
Fluoroelastomer (FFKM)
thermoset
Fluoroelastomer (FFKM)
elevated temperature rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
thermoplastic elastomer
elevated temperature rubber
rubber
Socony Mobil RL 147-A No.7
thermoset
room temperature
Olefinic TPE
8 8
room terrlperature
Soaps «5%) Urethane TPE (TPAU)
Polyester (Chlorendic) Vinyl Ester Resin
thermoset
Soap Liquor Alkyd Resin Diallyl Phthalate Resin Phenolic Resin
8 8 8 8 8
thermoset
8
1-2 2
Fluoroelastomer (FFKM)
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Neoprene Rubber Polyurethane
Fluoroelastomer (FFKM)
thermoset
Silicone Styrene Butadiene Rubber
rubber
rubber
rubber
Slimicide Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate)
7 7 7 7
thermoset
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
thermoplastic elastomer Olefinic TPE
8 8 8 6 8 8 2 8 8 6
thermoset
rubber Fluoroelastomer (TFP)
Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane
8 2 8 2 1 1-2 8 6 6 2 2
thermoset Polyester (Chlorendic)
8
Sodium Anthraquinone Disulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Antimonate elevated temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
925 Chemical Sort with POL Resistance Rating
Fluoroelastomer (FFKM)
8
Sodium Arsenate elevated temperature rubber Fluoroelastomer (FFKM)
8
8
Sodium Benzoate elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8
room temperature
8 8 8 8 7-8
Sodium Bicarbonate (10-20%) elevated temperature 8 8
8 8 8 8 8 8 8 8 8 8 8 4 8 2 2
8 8 8 8 8 8 7-8
Sodium Bichromate elevated temperature 8 8 8
2
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
Sodium Bisulfide (50-750/0) 8
8
8 8 8 8 8 8 8 8 8 8 8 8 4 8 8
elevated temperature
rubber Fluoroelastomer (FFKM) 8 7
Sodium Borate room temperature thermoplastic elastomer
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8
Sodium Bromate «50/0) elevated temperature 8 8
Sodium Bromate (10-200/0) elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8
Sodium Bromate (40-500/0) elevated temperature 8
elevated temperature 8
Sodium Bromide (10-200/0) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Sodium Bromide elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8
Sodium Butyl Xanthate «5%) 8 8 8 8 8 8 8
elevated temperature
elevated temperature
8 8
rubber Fluoroelastomer (FFKM)
room temperature
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8 8 8 8 8 8 8 8 8 6
Sodium Bromate
Sodium Bisulfite thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8
thermoset Polyester (Bisphenol A)
Sodium Bisulfide rubber Fluoroelastomer (FFKM)
Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin
thermoset Vinyl Ester Resin Vinyl Ester Resin
Sodium Bisulfide (40-50%)
Sodium Bitartrate
Sodium Bifluoride
Sodium Bisulfate (5-100/0)
room temperature
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8 8 8 8 8
Sodium Bisulfide (10-20%)
thermoset Polyester (Chlorendic)
room temperature
rubber Fluoroelastomer (FFKM) thermoset Polyester (Isophthalate) Vinyl Ester Resin
8
elevated temperature
Sodium Bicarbonate
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature 2
elevated temperature
thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Phenolic Resin
elevated temperature
thermoset Polyester (Isophthalate)
Sodium Bicarbonate (5-100/0)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Sodium Bisulfate thermoplastic elastomer Styrenic TPE
rubber Fluoroelastomer (FFKM)
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
7 7
room temperature
Sodium Arsenite elevated temperature
thermoset Polyester (Isophthalate)
room temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
8
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Sodium Carbonate «5 %
8 8 )
room temperature thermoplastic elastomer Styrenic TPE rubber Silicone thermoset Polyaminobismaleimide
9 9 8
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic)
8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
926
Chemical Sort with POL Resistance Rating
Polyester (Isophthalate) Vinyl Ester Resin
8 8
Sodium Carbonate (5-10%)
thermoset
2 2
Phenolic Resin Polyester (Isophthalate)
elevated temperature
room temperature
rubber
thermoset
Fluoroelastomer (FFKM)
Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate)
3 8
2
elevated temperature thermoset 8 3-5 8 6-8 5-8 3-6 7-8
Furane Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate) Vinyl Ester Resin
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature thermoset
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8
rubber 8 8 8 8 8 8 8 8 8 8 2 8 8
thermoset Phenolic Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8 7-8
Sodium Chlorate (40-50%) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
9
Silicone
elevated temperature thermoset Polyester (Chlorendic)
8
8 8 8 8
Sodium Chlorate room temperature thermoplastic elastomer 8
Sodium Chlorite (40-500/0) elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
room temperature 7-9
elevated temperature
2
Polyester (Isophthalate)
elevated temperature rubber
9 5-6 8
Epoxy Resin Polyester (Bisphenol A)
8 8 8
thermoset
thermoplastic elastomer Olefinic TPE
Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Sodium Chlorite
Sodium Chloride (20-300/0) room temperature
Ethylene Propylene Rubber Fluoroelastomer (FFKM)
5-8 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Chloroacetate
thermoset Diallyl Phthalate Resin Phenolic Resin
rubber
8
elevated temperature
elevated temperature
Fluoroelastomer (FFKM)
8
Sodium Chlorosulfonate
rubber Ethylene Propylene Rubber
elevated temperature
8 8
thermoset
Sodium Chloride
Furane Resin
room temperature 8 8
Polyester TPE Styrenic TPE
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8 8
4 8 8 8
2
8
thermoset Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Orthophthalate)
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Chromate elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset 8 8 8 8
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Sodium Citrate (20-30%) elevated temperature thermoset Polyester (Bisphenol A)
8
Sodium Citrate
rubber Fluoroelastomer (FFKM)
8
Sodium Chromate (40-50%)
thermoplastic elastomer
elevated temperature
thermoset
Styrenic TPE
9 7-9 7-9
Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Polyester (Isophthalate)
elevated temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer
thermoset
Sodium Chlorate (75-970/0)
8 8 8
elevated temperature
thermoset
thermoplastic elastomer
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoset
Olefinic TPE
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Sodium Chlorite (20-300k)
thermoplastic elastomer
Sodium Carbonate Styrenic TPE
8
"
room temperature 8 8 7-8
6
thermoset
Sodium Chloride (10-200/0)
thermoset
room temperature
2 2
rubber
Sodium Carbonate (30-40%) elevated temperature
Sodium Chlorite (5-100/0)
elevated temperature
room temperature
8 8 7-8
8 8
room temperature
thermoset
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Polyester (Chlorendic) Vinyl Ester Resin
thermoset
Sodium Chloride (5-10%)
thermoset
thermoset
Fluoroelastomer (TFP)
elevated temperature
Sodium Carbonate (20-300/0) elevated temperature
Sodium Chlorite «50/0) elevated temperature
rubber
Polyester (Bisphenol A)
8 8
8 8
Sodium Chloride «50/0)
Sodium Carbonate (10-200/0) Polyester (Bisphenol A) Vinyl Ester Resin
Polyester Terephthalate Vinyl Ester Resin
8 8 5 8 8 5-8 5-9
elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Cumene Sulfonate (40-500/0) elevated temperature thermoset Polyester (Chlorendic)
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
927 Chemical Sort with POL Resistance Rating
Sodium Cyanamide
Sodium Dichromate (40-500/0)
elevated temperature
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Polyester (Isophthalate)
8
Sodium Cyanate elevated temperature
Sodium Dichromate
rubber Fluoroelastomer (FFKM)
elevated temperature 8
Sodium Cyanide «50/0) elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
elevated temperature
elevated temperature 8 8
Sodium Cyanide (40-500/0) 6 8
Sodium Cyanide room temperature rubber B~~Rubber
Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Urea Resin
8 8 8 8 8 8 8 8 8 8 8 8 8 7 7 9 2 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 6 8 8
Sodium Diacetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Dichromate (10-20 0/0) room temperature thermoplastic elastomer Polyester TPE rubber Ethylene Propylene Rubber Neoprene Rubber
7 8 5
8
Sodium Dichromate (20-300/0) elevated temperature thermoset Polyester (Chlorendic)
8
8
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
elevated temperature
thermoset Polyester (Bisphenol A)
8 8 8
elevated temperature
8
Sodium Dodecylbenzenesulfonate (30-40%)
elevated temperature
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Sodium Ethoxysulfate elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Hydrochlorite
elevated temperature
room temperature 8 8
Sodium Ethylate elevated temperature 8
Sodium Ferricyanide
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 9 7
Sodium Hydrogen Phosphate elevated temperature thermoset Polyester (Chlorendic)
elevated temperature 8 8 8 8 8
8
Sodium Hydrogen Sulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Hydrosulflde (10-20%) room temperature thermoset Polyester (Isophthalate)
room temperature 8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8 8
Sodium Hydride 8 8
Sodium Ethyl Xanthate «50/0)
thermoplastic elastomer Styrenic TPE
7 7-8
Sodium Hexametaphosphate
elevated temperature 8 8 8
8
Sodium Hexametaphosphate (5-10%)
elevated temperature
Sodium Dodecylbenzenesulfonate
8
rubber Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Polyester (Chlorendic)
8 8
8
Sodium Gluconate (20-30%)
Sodium Glutamate
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 7 7-8
elevated temperature 8
elevated temperature
rubber Fluoroelastomer (FFKM)
7-8
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Polyester (Bisphenol A)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8
Sodium Fluorosilicate
Sodium Disilicate
thermoset Polyester (Bisphenol A) Polyester (Chlorendic)
2
elevated temperature
Sodium Glucohptonate
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Sodium Ferrocyanide
elevated temperature rubber Chlorosulfonated PE Rubber
elevated temperature
rubber Fluoroelastomer (FFKM)
elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Diphosphate 6 8 8
Sodium Cyanide (10-20%) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Sodium Diphenylsulfonate rubber Fluoroelastomer (FFKM)
Sodium Cyanide (5-100/0) thermoset Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Sodium Fluoride
8 8 8 8 8 8
2
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
Sodium Hydrosulflde (40-500/0) elevated temperature thermoset Furane Resin Polyester (Bisphenol A)
8 8
Note: Num bers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
928 Chemical Sort with POL Resistance Rating
Polyester (Chlorendic) Vinyl Ester Resin
8 8
Sodium Hydrosulfide (50-75%) elevated temperature
rubber 8 8
Sodium Hydrosulfite 8
thermoset 7 7 9 7
elevated temperature 8
Sodium Hydroxide «5%) room temperature
Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
6-8 7 8 2 2 2 2-6
elevated temperature rubber 9 7
elevated temperature rubber Fluoroelastomer (FKM) Silicone
5 8-9
Furane Resin Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8
3 8 7-8
8 9 5-6
rubber Fluorosilicone Silicone
7 9
Polyester
Diallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyaminobismaleim ide Polyester Polyester (Chlorendic) Polyester (lsop~lthalate) Polyester Terephthalate Polyimide
6 7 2 7-8 9 2 2 2 1-9
Olefinic TPE Polyester TPE PVC Polyol
9 2 8-9
Oiallyl Phthalate Resin Epoxy Resin Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 4-5 7-8
rubber
room temperature
thermoplastic elastomer 8-9 0-9 6-8 6-8
rubber
thermoset
7
room temperature thermoset Polyester
9
Sodium Hypochlorite «5%) room temperature thermoplastic elastomer Polyester TPE Styrenic TPE Urethane TPE (TPAU)
8 8 4-6
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Neoprene Rubber
Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
2 8 8
Ethylene Propylene Rubber Fluoroelastomer (FKM)
rubber
room temperature thermoplastic elastomer
6-7 7
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Hypochlorite (5-10%) room temperature thermoplastic elastomer 8
rubber Fluoroelastomer (TFP)
8
thermoset 6-9 2 8 2 2 2 8
Epoxy Resin Furane Resin Polyester (Bisphenol A) Polyester (Isophthalate) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature thermoset
elevated temperature
Sodium Hydroxide
8 8 8 9 8
elevated temperature
Styrenic TPE 0-9 8 8 7-8
Chlorosulfonated PE Rubber 8 8 8
8 7-8 6 8 6 8 7
Sodium Hydroxide (50-750/0) rubber
Phenolic Resin
Sodium Hypochloride
rubber 9
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Neoprene Rubber Silicone
room temperature
Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
1 8-9 5-7 7-9 2 2 2
Olefinic TPE
Sodium Hydroxide (10-200/0) Ole'finic TPE Polyester TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8 8-9 8-9 8 8 8-9 8-9 8-9
elevated temperature
Epoxy Resin Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8
elevated ternperature
rubber
thermoset
5-9
thermoset
thermoplastic elastomer
elevated temperature
Polyamide TPE
Sodium Hypochloride (5-100/0)
room temperature
thermoset
elevated temperature thermoplastic elastomer
9
Sodium Hydroxide (40-50%)
thermoplastic elastomer
thermoset
1 7 2 9 2 9 5
Phenolic Resin
thermoset
Polyester TPE PVC Polyol Urethane TPE (TPAU)
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Isophthalate) Polyimide Urea Resin
thermoset
thermoplastic elastomer
Sodium Hydroxide (5-10%)
thermoset
Fluoroelastomer (FFKM)
room temperature
room temperature
8 8 8 5-8 9 7-8
8 6 8 8 6 6 6 8 6 6 2 6 6 8
rubber
thermoset
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyimide Vinyl Ester Resin
2 2 2
Sodium Hydroxide (30-400/0)
thermoset
Ethylene Propylene Rubber Polyurethane
Sodium Hydroxide (20-30%)
thermoset
rubber
Melamine Resin Polyam inobismaleirn ide Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin
8 4-5 8 8 8
thermoset
thermoplastic elastomer
Fluoroelastomer (FFKM)
Epoxy Resin Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8-9 8 8
rubber
room temperature
room temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber Chlorosulfonated PE Rubber
thermoset
Styrenic TPE
9
thermoset
elevated temperature Fluoroelastomer (FFKM)
Olefinic TPE Polyamide TPE PVC Polyol Styrenic TPE
elevated temperature Olefinic TPE
8
Sodium Hydrosulfide
Vinyl Ester Resin
9 2 2
thermoplastic elastomer
thermoset Polyester (Chlorendic)
Polyester Polyester (Chlorendic) Polyester (Isophthalate)
8
Epoxy Resin Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate)
6-9 8 8 8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
929 Chemical Sort with POL Resistance Rating
Vinyl Ester Resin
7-8
Sodium Hypochlorite (10-200/0)
Sodium Lauryl Ether Ethoxylate (50-750/0)
room temperature
elevated temperature
rubber
thermoset
Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
Polyester (Bisphenol A)
8 8
5
thermoset Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
6 2 2 8 2 2 2 8
elevated temperature 8 7-8 7
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 7-8
Sodium Hypochlorite room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
8
5 9 9
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 8 6 6-8 8 8 6 4 6 6 2 2
6 4
thermoset Phenolic Resin
2
elevated temperature
Sodium Metaarsenite (40-500/0) elevated temperature
room temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature
6 8
rubber
elevated temperature
elevated temperature
elevated temperature
Sodium Methylate
rubber
rubber Fluoroelastomer (FFKM)
elevated temperature
Sodium Nitrate (40-500/0)
rubber
elevated temperature 8
room temperature
8
1 9 5
3
elevated temperature rubber 8
Sodium Lactate elevated temperature rubber 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Oxalate elevated temperature rubber Fluoroelastomer (FFKM)
8
'thermoset 8 8 8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
7-8
Sodium Perborate room ternperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 6 8 8 8 8 6 6 6 6 6 6
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 9 7
elevated temperature 8
elevated temperature Fluoroelastomer (FFKM)
8
Sodium Perchlorate 8
elevated temperature rubber
rubber 8 8 8 8 8 6 6 6 1-2 6
thermoset Alkyd Resin
8
Sodium Orthosilicate
rubber
thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
rubber Fluoroelastomer (FFKM)
Sodium Percarbonate 8-9
room temperature Styrenic TPE
elevated temperature
Fluoroelastomer (FFKM)
Sodium Nitrate
thermoset
8 8 8 8
rubber
rubber Ethylene Propylene Rubber
Sodium Iodide
Fluoroelastomer (FFKM)
2
elevated temperature 8
Sodium Hyposulfite
Fluoroelastomer (FFKM)
8
thermoset Vinyl Ester Resin
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
thermoset
Sodium Hypophosphite
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Ethylene Propylene Rubber 7 7 9 7
room temperature 8
elevated temperature
elevated temperature
rubber
Polyester (Chlorendic)
8
Sodium Nitrite
rubber
thermoset
Fluoroelastomer (FFKM)
8 8
e
Sodium Perborate «5%)
room temperature Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Sodium Metasilicate
Sodium Methoxide
Fluoroelastomer (FFKM)
7 7 9 7
rubber Fluoroelastomer (FFKM)
8
Sodium Oleate 8 6 8 8 8 8 8 6 8 8
thermoset
elevated temperature
Fluoroelastomer (FFKM)
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
Fluoroelastomer (FFKM)
thermoset
thermoset
Sodium Hypophosphate Fluoroelastomer (FFKM)
8 8
Sodium Methacrylate (20-300/0)
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM)
elevated temperature
Sodium Metaphosphate
rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM)
rubber thermoset
thermoset
Polyester (Chlorendic)
7 9 7
elevated temperature 8
Sodium Lauryl Sulfate Polyester (Bisphenol A) Vinyl Ester Resin
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7
Fluoroelastomer (FFKM)
8
Sodium Peroxide room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
8 6 8 8 8 8 6
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
930 Chemical Sort with POL Resistance Rating
Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
6-8 6 2 1-2 6 1 5 7 1
elevated temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 9 7
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature thermoset Vinyl Ester Resin
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8 8
8
Sodium Polyacrylate
elevated temperature thermoset Vinyl Ester Resin
8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sodium Persulfate
Sodium Pyrophosphate
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8
rubber Fluoroelastomer (FFKM)
room temperature 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Vinyl Ester Resin
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Phosphate (5-10 0/0) elevated temperature thermoset Polyester (Chlorendic) Vinyl Ester Resin
8 8
rubber Fluoroelastomer (FFKM)
8
8 8 8 8 8 8 8 6-8 8 8 1-8 8 7 7 9 7
elevated temperature
room temperature thermoset
Sodium Sesquisilicate rubber Fluoroelastomer (FFKM)
room temperature
Sodium Plumbite
8
elevated temperature
Sodium Phosphate
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8 8 6 8 8 8 8 8
elevated temperature
Sodium Phosphate (40-50%) elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
Sodium Salts
room temperature
8 8 8 8 8
Sodium Silicofluoride elevated temperature 8
Sodium Stannate elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber Ethylene Propylene Rubber
8
room temperature 8
elevated temperature
Sodium Phenoxide
9 8 8 8
Sodium Sulfate
elevated temperature
rubber Fluoroelastomer (FFKM)
8
elevated temperature 8
Sodium Salicylate
thermoset Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Sodium Sulfate (30-40%)
Sodium Resinate rubber Fluoroelastomer (FFKM)
Sodium Phenolate
2 7
rubber Fluoroelastomer (FFKM)
elevated temperature
Sodium Persulfate (10-200/0)
rubber Ethylene Propylene Rubber
8
Sodium Polyacrylate (20-300/0)
Polyester (Isophthalate) Urea Resin
8
Sodium Silicate (5-100/0)
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin
8 8 8 8 8 8 8 8 6 8 8 6 8 8 6 7 7 7
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8-9 8 8 8 8 8
Sodium Sulfhydrate (10-200/0)
room temperature
room temperature
thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
thermoset Polyester (Isophthalate)
2
elevated temperature 8 8 8 8
Sodium Silicate
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8
Sodium Sulfhydrate (40-500/0)
room temperature thermoplastic elastomer Olefinic TPE Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin
room temperature 8 8
thermoset Polyester (Isophthalate)
8 8 8 8 8 8 B 8 8
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
7 7
2
elevated terrlperature 8 8 8 8
Sodium Sulfhydrate (50-750/0) room temperature thermoset Polyester (Isophthalate)
2
elevated temperature
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
931 Chemical Sort with POL Resistance Rating
thermoset Polyester (Chlorendic)
8
Sodium Sulfhydrate elevated temperature thermoset Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature 2-8
8 8 8 8
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Vinyl Ester Resin
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2
Sodium Sulfide room temperature thermoplastic elastomer Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Polyester Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin
8 8
8
Sodium Tetraphosphate
8
Sodium Tetrasulfide elevated temperature
8 7
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 9
8 8
Sodium Sulfite
8
8
rubber Fluoroelastomer (FFKM)
8
thermoset Vinyl Ester Resin
8 7 7
8
Sodium Thiocyanate (SO-7S%) elevated temperature 8
8 8
Sodium Thiosulfate (10-200/0)
8
room temperature
8
6 7 7
2 8 7
elevated temperature 8
Sodium Trichloroacetate elevated temperature rubber Fluoroelastomer (FFKM)
8
Sodium Tridecyl Sulfate elevated temperature 8
room temperature thermoset Phenolic Resin
2
rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 8 8 8
Sodium Tripolyphosphate 2 8
elevated temperature thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
8 8 8 8
room temperature thermoset Polyester (Chlorendic) Polyester (Isophthalate)
2 2
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
8 8
Sodium Xylene Sulfonate 7
thermoset Polyester (Isophthalate)
Sodium Thiosulfate (40-S00/0)
elevated temperature
elevated temperature
thermoset Vinyl Ester Resin 8-9
room ternperature
room temperature
thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8 8 8
8 8 8 6 8
2
8
Soil
Sodium Thiosulfate rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber
8
room temperature
thermoplastic elastomer Urethane TPE rrPAU)
rubber Ethylene Propylene Rubber
9 8 8
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8 8 8 6 8 8 6 8
8
Sodium Xylene Sulfonate (30-400/0)
thermoset Vinyl Ester Resin
elevated temperature
9 9
thermoset Phenolic Resin Polyester (Isophthalate)
elevated temperature
Sodium Thiocyanate
8
room temperature
Sodium Thioarsenate
room temperature
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Polyester (Isophthalate) Polyester Terephthalate Urea Resin rubber Fluoroelastomer (FFKM) thermoset
8 8
elevated temperature 8
7 7 7
Sodium Triphosphate
Sodium Thiocyanate (40-S00/0)
elevated temperature
6 6 8 8 6
thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
6
2 2
8
8 8 8 8
elevated temperature
8
7 7 7-9
8
elevated temperature
8 8 8
6 8
8 8
Sodium Te'trabromide thermoset Polyester (Bisphenol A) Vinyl Ester Resin
6 8
8
Sodium Tetraborate
elevated temperature
Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Urea Resin
elevated temperature
elevated temperature
Sodium Sulfide (20-30%) thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8
Sodium Tartrate
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
9
8 8 8
Sodium Sulfocyanide 8
Sodium Sulfide (S-10%) thermoset Polyester (Isophthalate)
Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
2 2
elevated temperature thermoset Furane Resin
8
Soil Burial room temperature rubber
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
932 Chemical Sort with POL Resistance Rating
Chlorosulfonated PE Rubber
5-9
Solder Plate thermoset 8
Solvatone room temperature rubber Silicone
5
room temperature thermoset
elevated temperature
9 9
8
8
Solvesso 150 elevated temperature 8
thermoset 6
Sorbitol elevated temperature rubber 8
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
room temperature thermoset
8 8 8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4
Soya Oil elevated temperature thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8
Soybean Oil 6 7
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
4 8 4-8
7 2-4 8 8 8 2 4-8 8 2 6 8 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Urea Resin
elevated temperature rubber
rubber Fluoroelastomer (FFKM)
8
Stannic Chloride (40-50%)
rubber
8
8 8 8 8 8 8
Stannic Tetrachloride elevated temperature 8
Stannous Bisulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Stannous Bromide elevated temperature rubber Fluoroelastomer (FFKM)
8
Stannous Chloride (10-200/0) room temperature thermoplastic elastomer 6 7
rubber 2 2 2 8 9 8 2 2 6 8 6 2 2
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
elevated temperature
thermoplastic elastomer
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Olefinic TPE Polyester TPE
Stannic Ammonium Chloride
room temperature Olefinic TPE Polyester TPE
2 2 2 8 9 8 2 2 8 8 6 2 2
rubber
elevated temperature Fluoroelastomer (FKM)
9 9 9
Fluoroelastomer (FFKM)
thermoset
Fluoroelastomer (FFKM)
room temperature
rubber
7 2
rubber
SR6 8 8
9
room temperature
room temperature rubber
7 7
SR10
Sour Gas Fluoroelastomer (FKM) Fluoroelastomer (TFP)
7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
rubber
rubber
6-8 8 8 8 8 2-5 8 6 8
rubber 8 8
Sperry Oil
rubber
Fluoroelastomer (FFKM)
elevated temperature
Polyester (Bisphenol A) Vinyl Ester Resin
Solvesso 100
Polyester (Bisphenol A)
Spearmint Oil
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin Vinyl Ester Resin
8 8
thermoset
elevated temperature
Fluoroelastomer (FFKM)
thermoset
8 8 8 8
thermoset
9
elevated temperature
FluoroeJastomer (FFKM)
elevated temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
7
thermoset Vinyl Ester Resin
Span
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosil icone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
Polyester (Bisphenol A) Vinyl Ester Resin
Solvents Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 9
thermoset
elevated temperature Vinyl Ester Resin
Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE)
room temperature
Ethylene Acrylate Rubber Ethylene Propylene Rubber
7 5
elevated temperature rubber Chlorosulfonated PE Rubber Neoprene Rubber
8 8
Stan nous Ch loride room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 6 8
thermoset
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6 2 6 8 8 8 2 8 6 8
Stannic Chloride room temperature
7
thermoplastic elastomer
9 9
rubber
6
Olefinic TPE
7 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9
7
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset 8 8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (IsophthaJate) Polyester Terephthalate Vinyl Ester Resin
Stannous Fluoride (40-50%) elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber
6 2-5
thermoset Polyester (Chlorendic)
2
7
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
933 Chemical Sort with POL Resistance Rating
Stannous Fluoride elevated temperature rubber Fluoroelastomer (FFKM)
8
Stannous Fluoroborate 7
elevated temperature 8 8
Starch room temperature thermoplastic elastomer Olefinic TPE thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8 7 7 7 9
elevated temperature thermoset Polyester (Chlorendic)
8
Stauffer 7700 room temperature rubber B~~Rubber
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 2 8 6 6 2 2 6 8 2 2
elevated temperature thermoplastic elastomer Urethane TPE rubber Fluoroelastomer (FFKM)
6 8
Steam room temperature thermoplastic elastomer Styrenic TPE rubber Chlorosulfonated PE Rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Fluorosilicone Neoprene Rubber Silicone thermoset Oiallyl Phthalate Resin Urea Resin
6 8 7 4 8 7 8 3-9 7 5
elevated temperature thermoplastic elastomer Polyester TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysul'fide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
2-6 2-6 2 2 8 4-8 2-9 8 1-9 4 1-2 2 2 1-2 2 2 1-4 2
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
6 6 6 5-6
8 6 6 6 8 6
6 1
7 7 3
8 8 8
8 8
8
room temperature 5-9 1 7-9 9
9
Stoddard Solvents room temperature 6 2
8 2 1-2
8 8 8
2 4 8 6 8 1-3 2
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Strontium Hydroxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Strontium Nitrate room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 7 7
rubber Fluoroelastomer (FFKM)
8
Styrene room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMrrFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
4 3 1
3 2 2 2 1-2 6
4-6 8 5 4 1-2 1-2 1-2
2 8 1-4 2 2-6
2 2 2 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Silicone thermoset Phenolic Resin Vinyl Ester Resin
8 5 2 8 8
Styrene Acrylic Emulsion room terrlperature thermoset Vinyl Ester Resin
2
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Succinic Acid elevated temperature
room temperature elevated temperature
8
elevated temperature
Stove Oil thermoplastic elastomer Olefinic TPE
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature 5 8 5 9
Stoddard Solvent
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Strontium Chloride
Stilbene SX «~solo)
thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
elevated temperature
8
elevated temperature thermoset Vinyl Ester Resin
8
Strontium Acetate
Strontium Carbonate 6-8 7
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber Silicone thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
thermoset Polyester (Isophthalate)
rubber Fluoroelastomer (FFKM)
room temperature
Stannous Sulfate rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A)
2-8 2-8 2
Stearic Acid
room temperature rubber Fluoroelastomer
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
4
rubber Fluoroelastomer (FFKM) thermoset Vinyl Ester Resin
8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
934
Chemical Sort with POL Resistance Rating
Succinonitrile room temperature
Sulfanilic Acid elevated temperature
thermoset Vinyl Ester Resin
rubber 2-8
thermoset
Fluoroelastomer (FFKM)
8
Polyester (Chlorendic)
8 8
SUlfophthalic Acid (4-) (40-500/0) room temperature
thermoset
Sucrose room temperature
Polyester (Bisphenol A) Vinyl Ester Resin
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
SUlfophthalic Acid (4-) (20-300/0) elevated temperature
8 6 8 8 8 8 8 6 8 2 2 8 8
elevated temperature
thermoset
Sulfanilic Chloride elevated temperature
Polyester (Isophthalate)
rubber Fluoroelastomer (FFKM)
8
Olefinic TPE Polyester TPE
rubber 8
Sulfate (10-20%) elevated temperature thermoset Polyester (Bisphenol A)
Sulfite Liquor room temperature
8 8 8
thermoset
thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Sufactants (50-750/0) elevated temperature
8
Polyester (Bisphenol A) Polyester (Chlorendic)
Sulfite Liquors room temperature
8
rubber
Sugar room temperature thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 7 9
Sugar Beet elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
8
thermoset 8 8
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
elevated temperature
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Sulfolane elevated temperature thermoset 9
8 8
rubber Fluoroelastomer (FKMfTFE)
Su Ifonated Oils elevated temperature
thermoset
rubber 8 8
Fluoroelastomer (FFKM)
rubber
thermoset
Fluoroelastomer (FFKM) 8 8 8
rubber 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
8 8 8
7 4-8 8 8 4-8 2-6 4-8 1-6 2 2 2-8 2-6
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 2-8 2-8 2-8
Sulfur Chloride room temperature thermoplastic elastomer
5
PVC Polyol Styrenic TPE
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 1-2 8 8 8 2 2 2-4 2 4 2
thermoset 7
Diallyl Phthalate Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
elevated temperature Fluoroelastomer (FFKM)
8
8
8 8 8
Furane Resin Phenolic Resin Vinyl Ester Resin
8
Sulfur Dichloride room temperature rubber Fluoroelastomer (FKMfTFE)
9
thermoset 2 8 2 2 2
elevated temperature
8
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2 2
Sulfur Dioxide «5%) room temperature
rubber Fluoroelastomer (FFKM)
8 2-9
thermoset
Sulfonyl Chloride room temperature Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (I sophthalate) Polyester Terephthalate Vinyl Ester Resin
Fluoroelastomer (FFKM) Silicone
rubber
thermoset
Sulfamic Acid elevated ternperature Fluoroelastomer (FFKM)
9
Sulfonic Acid elevated temperature
Sulfamic Acid (20-30%) elevated temperature Polyester (Bisphenol A) Polyester (CHlorendic) Vinyl Ester Resin
8 8 8 8 8
Sulfamic Acid (5-100/0) elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
6 6 6 6 8 8 6 6 6 6 2 1-2 6
Sulfole room temperature
thermoset
4-8 4 2-8
elevated temperature
Phenolic Resin
Sugars elevated temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
rubber
Fluoroelastomer (FFKM)
Sugars (50-75%) elevated temperature
Polyester (Bisphenol A) Vinyl Ester Resin
3
thermoset
thermoset
Polyester (Isophthalate) Vinyl Ester Resin
9
rubber
Sugar Cane elevated temperature Vinyl Ester Resin
3 7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8
thermoset
6
7
rubber
Fluoroelastomer (FFKM)
8
2
Sulfur room temperature thermoplastic elastomer
Sulfanilimide elevated temperature
rubber Fluoroelastomer (FFKM)
8
6
rubber
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
935 Chemical Sort with POL Resistance Rating
Fluoroelastomer (TFP)
8
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sulfur Dioxide (5-100/0) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Sulfur Dioxide room temperature
6-8 2-8 7 8 2-8 8 6 2-6 2-8 1-2 2 6-9 2-6
thermoset Diallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Isophthalate)
7 2 8 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
room temperature 8
rubber 8 8 6 6-8 4 6 6 2 8 6 4 6 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluorosilicone Silicone
6 9 9
thermoset 2-6
Sulfur Trioxide 5 8
rubber Butyl Rubber Chlorosulfonated PE Rubber
8 8
8 7 7 2
elevated temperature rubber 6
thermoset 4-6 8 8 8
Sulfuric Acid (5-100k) room temperature Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU)
2-8 9 6-9 8 9 8 8 8-9 8 8 9 8 6-7 8
elevated temperature thermoplastic elastomer 8
rubber Ethylene Propylene Rubber
7-8 8 2-8 8 8
6 2
thermoplastic elastomer 9 0-8 8-9
rubber 8 6-8 2
room temperature thermoplastic elastomer
Polyester Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
5 7-9 2 2 2
elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer
9 6
thermoset Polyester (Chlorendic)
2-8
Sulfuric Acid (40-500/0) room temperature thermoplastic elastomer Polyester TPE PVC Polyol
8 8-9
rubber Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Polyester Polyester (Isophthalate)
9 8-9 8-9 6-9 1 5 2
elevated temperature rubber
Epoxy Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
7
room temperature thermoplastic elastomer Olefinic TPE Polyester TPE
9
3-9 2-8 8 6-8 2-8 2-8 8 2-8
Sulfuric Acid (50-750/0)
2
elevated temperature Olefinic TPE
3-9 8 1-8 3-5 8 8 5-8 8 3-8 8 8
Sulfuric Acid (30-400/0)
2
thermoplastic elastomer rubber
Epoxy Resin Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate) Polyester (Orthophthalate) Polyester Terephthalate Vinyl Ester Resin
thermoset
room temperature
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
9 8
thermoset
Fluorosilicone
Sulfuric Acid (10-200/0)
Fluoroelastomer (TFP) Fluoroelastomer (VDF/CTFE)
6
thermoset
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
thermoplastic elastomer
pvc Polyol
thermoset
Olefinic TPE
2
thermoset
rubber
Diallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyam inobismaleim ide Polyimide
8 6-9 2 2
elevated temperature
Ethylene Propylene Rubber Silicone 8 9
thermoset
Epoxy Resin Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
Epoxy Resin Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Olefinic TPE
thermoplastic elastomer
Polyurethane
Olefinic TPE
thermoset
rubber
room temperature
Melamine Resin Polyaminobismaleim ide Polyurethane Urea Resin
2 2-8 8 2 8 2-8
Sulfuric Acid (20-30%) room temperature
Sulfuric Acid «5%) Styrenic TPE Urethane TPE (TPAU)
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate) Vinyl Ester Resin
thermoplastic elastomer
8
9 7-9
thermoset
2 2 2
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Fluoroelastomer Silicone
7
thermoset
room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
Fluoroelastomer (FFKM)
Olefinic TPE Polyamide TPE Polyester TPE
Sulfur Trioxide (20-300/0) elevated temperature Polyester (Chlorendic)
Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Vinyl Ester Resin
Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber
thermoplastic elastomer
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2
thermoset
thermoplastic elastomer 8 8 8 2-8 2-8 2-8
Sulfur Hexafluoride Styrenic TPE
2 6
rubber 6 7 5 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
5-6 8 8 6 6 2 1-2
elevated temperature
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE
Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
6 2
rubber Chlorosulfonated PE Rubber
8
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
936
Chemical Sort with POL Resistance Rating
Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (TFP) Neoprene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
3 2 8 5 6-7 6 2 2 2 2 2
elevated temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) thermoset Epoxy Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
9 8-9 0-9 2-8 2-8 8 8 2-8
Sulfuric Acid (75-97%) room tenlperature thermoplastic elastomer Olefinic TPE PVC Polyol rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone thermoset Furane Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
5-6 1-7 6-8 2-3 2 9 9 8 1 1 2-8 1 1 1
5-8 4 8 8 2 8 2-6 8 2 2
Su Ifuric Acid room temperature thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE rrPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
2 2-4 1-2 2-4
SUlfuryl Chloride
1 3 2 2 1
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
elevated temperature thermoplastic elastomer Olefinic TPE Polyamide TPE rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Neoprene Rubber thermoset Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 6 8 2 8 2-8 2 2 8 2-8
2
elevated temperature
room temperature 2
2-8 8-9 2 2-8 8 9 9 2-4 2-6 2-8 3-8 1-8 8-9 6-8 8-9 8 1-4 2-4 2-8 1-4
Sulfurous Acid (20-300/0)
9
elevated temperature thermoplastic elastomer Olefinic TPE
2-4
Superphosphoric Acid room temperature thermoset Polyester (Isophthalate)
2
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
elevated temperature 8 8 8
Surfactants thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Surfonic N95
elevated temperature
elevated temperature 8
Sulfurous Acid (50-75%)
thermoset Polyester (Bisphenol A)
8
SX90
elevated temperature thermoset Phenolic Resin
elevated temperature thermoset Polyaminobismaleimide
elevated temperature 8 8 8
thermoset Phenolic Resin
8
Sunflower Oil
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
Sulfurous Acid (5-100/0)
thermoset Furane Resin Polyester (Chlorendic) Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
Surfactants (50-75%) 8
thermoset Polyester (Isophthalate)
2 2 2 2
Sunvls 706
room temperature
thermoset Polyester (Chlorendic)
8 8
elevated temperature 1-2 6-7
Sulfuric Acid Vapor With Trace Nitric (50-750/0) thermoset Vinyl Ester Resin
Polyester (Bisphenol A) Polyester (Chlorendic)
room temperature
elevated temperature 2 5 5-9 2 2-8 2 2 2-8
elevated temperature rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Chlorendic) Polyester (Isophthalate) Polyester (Isophthalate) Vinyl Ester Resin
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A) Urea Resin
elevated temperature 8
Sulfurous Acid
rubber Fluoroelastomer (FKM)
9
Synthetic Oils
room temperature thermoplastic elastomer Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Polyester (Isophthalate) Urea Resin
elevated temperature 6 8 8 6 8 2-6 8 1-8 6 2-6 6 2 2 1-2 6 1 7 2 3
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin
thermoset Polyaminobismaleimide
7
Synthetic Resins room temperature thermoplastic elastomer Olefinic TPE
8
Tab Concentrate room temperature rubber Fluorosilicone Silicone
9 8-9
Tall Oil room temperature thermoplastic elastomer Olefinic TPE
6
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
8 8
Tallow
8
thermoplastic elastomer
room temperature
Note: Numbers refer to POL Resistance Ratings (Q-9 scale with 9 as highest resistance)
Section 2 • Chemical Sort
© Plastics Design Library
937 Chemical Sort with POL Resistance Rating
Olefinic TPE thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
6
7 9 9 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Tannic Acid (5-10%) room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6 8 8 8
7 8 8 8 8 8 8 6 6
Tannic Acid (50-75%)
9 9 9 2
room temperature 8 8 8
6 8 8 8 8 6 8 8 8 6 6
room temperature thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
7 7 3
rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM) Neoprene Rubber thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
8 8 8 8
room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
Tanning Liquors room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1
7 7 3
Tanning Solutions thermoplae.tlc elastomer Styrenic TPE
2 2-4
8 8 8 2 4
6 6 2
7 9
7
8
Telonet room temperature thermoset Polyester (Chlorendic)
8 9
6 7 8 8 6
6 8 7 5-6
8 8 8 8 6 8 2 8
8 6 1 9 5
3
8
8 8 8 8 8 8 8 8
thermoset Furane Resin
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM)
6 8 6 2
8
elevated temperature rubber Fluoroelastomer (FFKM)
8
Tetrabromoethane room temperature rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
1 8
6 1 1
elevated temperature rubber Fluoroelastomer (FFKM)
8
Tetrabromomethane room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
2 2 1-2
8 8 6 2 2 1-2 1-2 2
8
Tetrabutyl Titanate room temperature
rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber
Tellone II
8 2 2
Terpinyl Acetate
elevated temperature
2
4 2 4 8 8
elevated temperature
rubber Fluoroelastomer (FFKM)
elevated temperature
8
Terpineol
1 1 1 1
8
8
Terephthalic Acid
6
Tellone
2
elevated temperature
elevated temperature
thermoset Polyester (Bisphenol A)
room temperature
9
2
6
TDI
room temperature 8
rubber Fluoroelastomer (FKM)
room temperature
Tanning Extracts thermoplastic elastomer pvc Polyol
elevated temperature 4
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
8
Tellus 33
elevated temperature
elevated temperature
8
rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) Silicone
1
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
Tar
room temperature 9
Tannic Acid thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature 8
Tartaric Acid
room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
rubber Fluoroelastomer (TFP)
6 8
8 8 8
8 6 6
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 • Chemical Sort
938 Chemical Sort with POL Resistance Rating
6 6
Nitrile Rubber Styrene Butadiene Rubber
elevated temperature
elevated temperature
thermoset
rubber
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
Fluoroelastomer (FFKM)
Tetrachloroethane
8
7-8
thermoset 2 2 2 2
Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature thermoset 8 8
Furane Resin Vinyl Ester Resin
room temperature thermoplastic elastomer
3
PVC Polyol
rubber
3
Neoprene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
1 1 8 9
Tetrach loroethylene room temperature thermoplastic elastomer 2 2 2
Olefinic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber 2 2 1-2 8 8 9 6 2 2 1-2 2 2 1 2
thermoset 2 2-8
elevated temperature rubber
8
rubber 4 4-8
room temperature 2
thermoset 2 2 2-9
Tetrach loropyridine room temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate
thermoplastic elastomer 2 6-8 0-1 2 2
Olefinic TPE Polyester TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
6 2 2 2-6 2 9 1 1 1 1 1-2 1-8 1-6 8 2-6 1 2
thermoset Vinyl Ester Resin
2 2
Fluoroelastomer (FFKM)
8
Tetranitromethane room terrlperature thermoset 7 7 7
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
elevated temperature 8
elevated temperature
Tetrapotassium Pyrophosphate (50-75%) room temperature thermoset 2
Polyester (Isophthalate)
elevated temperature thermoset 8 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
Tetrapotassium Pyrophosphate room temperature thermoset 2
Polyester (Isophthalate)
Tetrasodium Ethylenediaminetetraacetic Acid elevated temperature thermoset 7
Vinyl Ester Resin
Tetrasodium Ethylenediaminetetraacetic Acid Salts
8
thermoset
8
Polyester (Bisphenol A) Vinyl Ester Resin
elevated temperature
rubber Fluoroelastomer (FFKM)
8
8
Tetrasodium Pyrophosphate «5%)
Tetrahydrofurfuryl Alcohol elevated temperature
elevated temperature
thermoset
thermoset 8
room temperature thermoplastic elastomer 4
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber
8
2
rubber
room temperature
elevated temperature rubber
Fluoroelastomer (FFKM)
room temperature
Olefinic TPE
Tetrach loropentane
8
rubber
Tetralin
thermoplastic elastomer
Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
6
Tetrahydrofuran
Furane Resin
Tetrach loromethane Olefinic TPE
Fluoroelastomer (FFKM)
Phenolic Resin
room temperature
Fluoroelastomer (FFKM)
Tetramethyldihydropyridine
Fluoroelastomer (FFKM)
thermoset
Tetrachloroethylene (1,1,2,2-)
elevated temperature rubber
Tetraphosphoric Acid
elevated temperature
Fluoroelastomer (FFKM)
8
rubber
rubber
rubber
elevated temperature
Tetraphosphoglucosate 8
elevated temperature
Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
Neoprene Rubber Nitrile Rubber
2-6 2 2-4 6 2
elevated temperature
Tetrafl uoromethane
Polyester Terephthalate Vinyl Ester Resin
8
rubber
room temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMITFE) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 1-2 8
9 7 9 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Fluoroelastomer (FFKM)
PVC Polyol
6 6
Tetramethylammonium Hydroxide
rubber
Tetrachloroethene thermoplastic elastomer
Oiallyl Phthalate Resin Phenolic Resin
Fluoroelastomer (FFKM)
thermoset
Tetrachloroethane (1,1,2,2-)
1-2 2
rubber
room temperature
rubber
Silicone Styrene Butadiene Rubber
thermoset 8 8
Tetraethyllead
room temperature Fluoroelastomer (FKM)
2-8
Vinyl Ester Resin
2 2 1-2 8 8 8 2 2 1-2 2
8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8
Tetrasodium Pyrophosphate (50-75%) elevated temperature thermoset
8
Polyester (Bisphenol A) Vinyl Ester Resin
8
Tetrasodium Pyrophosphate room temperature thermoset 2 2
Phenolic Resin Polyester (Isophthalate)
elevated temperature
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
939 Chemical Sort with POL Resistance Rating
thermoset Phenolic Resin Polyester (Isophthalate)
8 8
Texamatic Fluid 1581 room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2 2 8 6 2 6 8 6 2 2
elevated temperature
rubber Fluoroelastomer (FKM)
2 2 2 8 6 2 6 8 6 2 2
8
8
8
9
rubber
8
rubber 2 2 2
8 6 2 6 8 6 2 2
rubber
8
elevated temperature
8 8
Thioglycolic Acid (5-10%) elevated temperature thermoset
8 8
Thioglycolic Acid room temperature 2-8
elevated temperature Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FKM)
9
Texamatic Fluid 3528 room temperature 2 2 2 8 6 2 6
8 6 2 2
elevated temperature rubber Fluoroelastomer (FKM)
9
Fluoroelastomer (FFKM) Polyester (Chlorendic)
8
8
8
rubber
Thiophosphoryl Chloride elevated temperature
Fluoroelastomer (FFKM)
8
rubber
rubber 8
Tin Salts room terrlperature thermoplastic elastomer 8 8
Tin Tetrachloride room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 7 9 9
elevated temperature rubber 8
Titanic Acid elevated temperature rubber 8
Titanium Chloride elevated temperature 8
Titanium Dioxide elevated temperature rubber Fluoroelastomer (FFKM)
8
Titanium Salts room temperature thermoplastic elastomer PVC Polyol Styrenic TPE
8
8
Titanium Sulfate elevated temperature rubber
Furane Resin
8 8
Titanium Tetrachloride room temperature rubber
Thiophene elevated temperature rubber
7-8
Tin Chloride elevated temperature
thermoset
8 8
rubber
Fluoroelastomer (FFKM)
elevated temperature
Therminol 55 elevated temperature Fluoroelastomer (FFKM)
2 2 2 2 2 2
thermoset
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 4-6 2 2 1 2
rubber
Textone elevated temperature
Tin Chloride (50-75%) elevated temperature
Furane Resin
2 2-4
thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
thermoset
rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
Thionyl Chloride room temperature Butyl Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
rubber
Fluoroelastomer (FFKM)
rubber
8
Tin Ammonium Chloride elevated temperature
Fluoroelastomer (FFKM)
thermoset Vinyl Ester Resin
rubber
PVC Polyol Styrenic TPE
thermoset
Polyester (Bisphenol A) Vinyl Ester Resin
8
Thorium Nitrate elevated temperature
Fluoroelastomer (FFKM)
Thioethanol elevated temperature
Furane Resin Polyester (Chlorendic)
Texamatic Fluid 3525 room temperature
rubber
Ethylene Propylene Rubber
Thiodiacetic Acid elevated temperature
Thioglycol room temperature
rubber
8
Thiourea elevated temperature
Fluoroelastomer (FFKM)
Thioamyl Alcohol elevated temperature
Fluoroelastomer (FFKM)
thermoset
Fluoroelastomer (FFKM)
Thio Acid Chloride elevated temperature
Fluoroelastomer (FFKM)
Thiosorbic Lime elevated temperature
Fluoroelastomer (FFKM)
rubber
elevated temperature
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
Thinners room temperature
Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM)
8
Polyester (Chlorendic)
Therminol FR elevated temperature
Fluoroelastomer (FFKM)
8
Texamatic Fluid 3401 room temperature Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8
rubber
rubber Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM)
rubber
Fluoroelastomer (FFKM)
Therminol 66 elevated temperature
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber
2 2 1-2 8 6 6 2
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
940 Chemical Sort with POL Resistance Rating
Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 4-6 4 2 1-2 2
elevated temperature thermoplastic elastomer
elevated temperature
Polyamide TPE Polybutadiene
rubber
rubber
Fluoroelastomer (FFKM)
6
TJ 15 elevated temperature 6-7
TJ 35 elevated temperature rubber Fluoroelastomer (FKM)
6
TNT room temperature 1 6 6 1
elevated temperature Fluoroelastomer (FFKM)
8
thermoset 8 8
Toluene (50-75%) room temperature thermoset Polyester Polyester (Isophthalate)
5 5
Toluene (75-970/0) elevated temperature Fluoroelastomer Fluoroelastomer (FKMffFE)
6 5
thermoplastic elastomer 1-4 4-9 1 1-9 1-2 3 4-7 2-4
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
2 2 2 2 1-2 8 9 6-8 2-7 4-6 1-2 1-3 1-6 2 2-8 8 1-5 2
thermoset Oiallyl Phthalate Resin Phenolic Resin Polyaminobismaleim ide Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate
8-9 9 9 9 2 2 2 2
rubber
rubber
Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol Silicone
6 1 1 4-9 1 1-9 8 1 2-8 2 2 2-8
rubber Fluoroelastomer (FFKM)
8
thermoset 8
Toluene Diisocyanide room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
6 2 6 2 2 2 2 2 2 2
TOluene-2,4-diisocyanate (75-97°k) room temperature rubber 9
Fluoroelastomer
Toluenesulfonic Acid (50-750/0) elevated temperature thermoset 8
Vinyl Ester Resin
Toluenesulfonic Acid room terrlperature 8
elevated temperature 8
thermoset 8 8 8
Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
Toluenesulfonic Acid (p-)
8
2
Tolylaldehyde elevated temperature 8
Tomato Juice room temperature thermoplastic elastomer 8
Polyester TPE
Tomato Sauce elevated temperature thermoset 8
Vinyl Ester Resin
Toxaphene (75-97%) elevated terrlperature thermoset 8 8
Furane Resin Polyester (Chlorendic)
Transformer Oils room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2 2-6 1-2 8 8 8 2 6 8 2-8 6-8 2-8 2
thermoset 8-9 8
Oiallyl Phthalate Resin Phenolic Resin
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKMrrFE) Fluorosi Iicone Silicone
8 8 7-9 1-7
thermoset 8 8 8
Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
rubber 4
Silicone
elevated temperature
rubber Fluoroelastomer (FFKM)
Fluoroelastomer (FFKM)
Toly Chloride (0-) elevated temperature
Transil Oil room terrlperature
thermoset Polyester (Bisphenol A)
rubber
Fluoroelastomer (FFKM)
thermoset Polyester (Bisphenol A) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8
Toluquinone elevated temperature
rubber 6 1-9
Polyester TPE pvc Polyol
8
Toluidine elevated temperature
Polyester (Chlorendic)
8
Toluene Diisocyanate room temperature
Polyester (Chlorendic)
Toluene room temperature Olefinic TPE Polyamide TPE Polybutadiene Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
Fluoroelastomer (FFKM)
8
thermoset
rubber
elevated temperature
rubber
Fluoroelastomer (FFKM)
Toluenesulfonyl Chloride elevated temperature
Fluoroelastomer (FFKM)
6 8 8 2-6 2-8 2 2-8
Epoxy Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
rubber
Tobias Acid elevated temperature Polyester (Bisphenol A) Vinyl Ester Resin
4-8 8 6 5
thermoplastic elastomer
rubber
elevated temperature rubber
Fluoroelastomer (FFKM)
Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE)
Toluene Bisodium Sulfite elevated temperature
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber
4-5 1
thermoset
rubber Fluoroelastomer (FKM)
8-9 8 2-8
Polyimide Polyurethane Vinyl Ester Resin
rubber 2
Silicone
Transmission Fluids room temperature thermoplastic elastomer Polyester TPE
8
Note: Numbers refer to POL Resistance Ratings (O-9 scale with 9 as highest resistance)
ction 2 - Chemical Sort
© Plastics Design Library
941 Chemical Sort with POL Resistance Rating
Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6-8 6-8 2 8 2-6 1-2 8 8 8 6-8 2 6 8 8 4-8 2-6 2
elevated temperature thermoplastic elastomer Fluorinated TPE Olefinic TPE Polyamide TPE Polyester TPE rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Silicone
8 3-9 3-9 6-9 8 1-7
room temperature 8
Treflan room temperature thermoplastic elastomer Polyester TPE rubber Fluoroelastomer Fluoroelastomer (FKMITFE)
6 7 7
elevated temperature thermoset Polyester (Bisphenol A)
8
8 6 8 2 1 1-2 6 6
6 6 2 4
elevated temperature 8
Triaryl Phosphate room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 2 8 8
8 6 2 2 1-2 6
2 4 2
Tribromomethylbenzene
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber rubber Fluoroelastomer (FFKM)
8 2 8 8 8 6 6 2 1-2 8 2 6
room temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
room temperature thermoset Polyester (Isophthalate)
thermoset Polyester (Isophthalate)
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8
Tributyl Mercaptan room temperature
1-2 8 8 4
2 2 1-2 2 1-2 2
8
Tributyl Phosphate 2 6 2 3 2-8 2 1 4-8 1-2 6 2 1-2 8 2 1 2
rubber Fluoroelastomer (FFKM)
8 8 6 8
room temperature thermoplastic elastomer PVC Polyol Styrenic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Polyester (Bisphenol A)
5
8
6 2 6 4 4 1-2 4 2 6 2 2 2
7 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Trichloroacetyl Chloride elevated temperature rubber Fluoroelastomer (FFKM)
8
Trichlorobenzene room terrlperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
elevated temperature 7 7
7 2 2 7 2
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Polyester (Isophthalate) Vinyl Ester Resin
2
Trichloroacetic Acid 2 2
elevated temperature
thermoplastic elastomer Olefinic TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Polyester (Chlorendic) Polyester (Isophthalate) Urea Resin Vinyl Ester Resin
2
Trichloroacetic Acid (40-50%)
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 2 2
Trichloroacetic Acid (20-300/0)
Tributyl Citrate rubber Fluoroelastomer (FFKM)
9
room temperature 8
8 1 8 8
elevated temperature 8
room temperature thermoset Polyester
Trichloroacetaldehyde
Tributylamine
elevated temperature rubber Fluoroelastomer (FFKM)
room temperature
room temperature
room temperature
rubber Fluoroelastomer (FFKM)
Tributoxyethyl Phosphate
rubber Fluoroelastomer (FFKM)
Triacetin rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber
Trich lorethylene 8
elevated temperature 6 1-4 7-9 6-9
Treflan (40-500/0) rubber Fluoroelastomer (FKM)
elevated temperature rubber Fluoroelastomer (FFKM)
8
rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Trich loroethane room temperature thermoplastic elastomer Olefinic TPE PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber
1-2 1-5 2 2 1-2 7-8 7-8 2 4-6 1-2 1-4
Note: Numbers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
942
Chemical Sort with POL Resistance Rating
Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Furane Resin Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Polyurethane Vinyl Ester Resin
1-5 2 2 8 1-2 2 8 8 8 2 2 2 2 9 7 2-8
elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Vinyl Ester Resin
9
8
room temperature thermoset Polyester Terephthalate Vinyl Ester Resin
2 2-8
elevated temperature rubber Fluoroelastomer (FFKM)
6
room temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
rubber Fluoroelastomer (FFKM)
8
8
rubber Fluoroelastomer (FFKM)
room temperature
room temperature 1-5 2-6 0-8 1 3 2 2 2 2 2 2 1-2 6-8 8 4-9 2 6 1-2 1-3 1-4 2 2 9 1-2 2 7 3 3-9 5 9 9 2 2 2 2 5 7 2
rubber Ethylene Propylene Rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Silicone thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
2 2 2 2
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2 2
Trichlorophenoxyacetic Acid (2,4,5-) elevated temperature thermoset Vinyl Ester Resin
8
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Triethanolamine (75-97%) room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber Polyvinyl Alcohol
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Styrene Butadiene Rubber thermoset Oiallyl Phthalate Resin Phenolic Resin Vinyl Ester Resin
8
Trichloropropane elevated temperature rubber Fluoroelastomer (FFKM)
8
Trichlorotrifluoroethane room temperature thermoplastic elastomer PVC Polyol rubber Fluoroelastomer (TFP) Neoprene Rubber Nitrile Rubber
4 2 8-9 8-9
elevated terrlperature rubber Fluoroelastomer (FFKM)
6
Trichlorylbenzene room temperature
elevated temperature rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Fluoroelastomer (FFKM) Neoprene Rubber thermoset Phenolic Resin Polyester (Bisphenol A) Vinyl Ester Resin
Trichloroethylene (1,1 ,2-)
6
Tricresyl Phosphate room temperature thermoplastic elastomer Olefinic TPE PVC Polyol Urethane TPE (TPAU) Urethane TPE (TPEU) rubber
9 8 9 9 8
Triethanolamine
Trich lorophenylsilane
rubber Fluoroelastomer (TFP)
1-9 8
8 8
Tridecylbenzene Sulfonate
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
elevated temperature 4
8 8 4-7 6-8 2-7
8 8
thermoplastic elastomer Polyamide TPE rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluorosilicone thermoset Epoxy Resin Phenolic Resin
8 6 6
8
elevated temperature 8
Trichlorophenol
Trichloroethylene
8 2 2 5 1-8 6 8 8 6 2-9 2-7 1-9 6 2 8 4-9 2
Tridecylbenzene
elevated temperature
elevated temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Vinyl Ester Resin
elevated temperature
Trichloronitromethane
Trichloroethanolamine
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMfTFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Oiallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyaminobismaleim ide Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyurethane Urea Resin Vinyl Ester Resin
Trichlorofluoromethane
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
8 2 2 2 2
Trich loromethane 8 2-5
Trichloroethane (1,1,2-) thermoset Polyester (Chlorendic)
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
3-5 5-9 4-8 4-6
8 2 8-9 6 8 6-8 2 1 8 1-2 6-9 8-9 4-9 2 2 6 7 2-8 2
8 8 8 8 8 8 8-9
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
943
Chemical Sort with POL Resistance Rating
Triethanolamine Lauryl Sulfate room temperature 'thermoset Polyester Terephthalate
2
Triethyl Phosphate elevated temperature rubber Fluoroelastomer (FFKM)
8
Triethylaluminum room temperature rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Nitrile Rubber elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
4 6 6 2 1
8 6
Triethylamine room temperature thermoset Polyester Terephthalate Vinyl Ester Resin elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Vinyl Ester Resin
8 2
8 8 8 8
2
Triethylborane room temperature rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Nitrile Rubber elevated temperature rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
4 8 8 2 1
8 9
Triethylene Glycol elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8 8 8
Triethylenetetramine elevated temperature rubber Fluoroelastomer (FFKM)
8
8
Trifluorochloroethylene elevated temperature rubber Fluoroelastomer (FFKM)
6
Trifl uoroethane room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
Trifluoroethanol room temperature thermoplastic elastomer PVC Polyol rubber Neoprene Rubber
3
8
Trifluoromethane elevated temperature rubber Fluoroelastomer (FFKM)
8
Trifl uorovinylchlorlde elevated temperature rubber Fluoroelastomer (FFKM)
8
room temperature thermoplastic elastomer Polyester TPE
6
Trlhydroxybenzolc Acid room temperature thermoset Polyester (Chlorendic) elevated temperature thermoset Furane Resin
8
8
2 2 2
8
Trimethylpentane elevated temperature rubber Fluoroelastomer (FFKM)
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Styrene Butadiene Rubber
elevated temperature rubber Fluoroelastomer (FKMrrFE)
Triisopropylbenzylchlorlde elevated temperature rubber Fluoroelastomer (FFKM)
8
Trimethyl Borate elevated temperature thermoset Polyester (Chlorendic)
8
8
Trimethylamine Chlorobromlde room temperature thermoset Polyester (Bisphenol A) Polyester Terephthalate Vinyl Ester Resin
elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
2 2 2
8 8 8 8
8
Trimethylene Chlorobromlde room temperature thermoset Vinyl Ester Resin
2
6 2
8 2
8 6 6 6 2 2 1-2
6 2
4 2
8
6
Trlphenyl Phosphate room temperature rubber Fluoroelastomer (TFP) thermoset Polyester (Isophthalate) elevated temperature thermoset Vinyl Ester Resin
8 2
8
room temperature thermoset Polyester (Isophthalate) elevated terrlperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic)
2
8 8
Trlpotasslum Phosphate
Trimethylbenzene elevated temperature rubber Fluoroelastomer (FFKM)
2
6
Trlphenyl Phosphite
Trimethylamine elevated temperature rubber Fluoroelastomer (FFKM)
2
6 6
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber elevated temperature rubber Fluoroelastomer (FFKM)
room temperature thermoplastic elastomer PVC Polyol rubber Natural Rubber Neoprene Rubber Nitrile Rubber
8-9 8-9 8-9
2
6
Trloctyl Phosphate
Trloxane 8-9
8
Trinitrotoluene
Trihydroxytrlethylamlne
Trimethylamine Hydrochloride
Trifluoroacetic Acid elevated temperature rubber Fluoroelastomer (FFKM)
6 2 2 2 2 2 2 2
Trifluralin
Triethylamine Hydrochloride room temperature thermoset Polyester (Isophthalate)
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Tripropylene Glycol elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
Trisodium Phosphate (5-100/0) elevated temperature thermoset Polyester (Bisphenol A)
8
Trisodium Phosphate (20-300k) elevated temperature thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
944 Chemical Sort with POL Resistance Rating
Trisodium Phosphate (40-S0%) elevated temperature
rubber Fluoroelastomer (FKM)
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Turbine Oil room temperature
8 8
8 8 8 8 2 2
Turpentine room temperature
6 8 8 8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Phenolic Resin Vinyl Ester Resin
8 8 8
Tritium elevated temperature rubber Fluoroelastomer (FFKM)
8
Tritolyl Phosphate elevated temperature thermoset Vinyl Ester Resin
8
Triton X100 room temperature thermoset Vinyl Ester Resin
8
Tuna Oil elevated temperature thermoset Polyester (Isophthalate) Vinyl Ester Resin
8 8
Tung Oil room temperature thermoplastic elastomer Olefinic TPE Polyester TPE rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
6 7 4 4-8 7 2-4 8 8 6 2 6-8 8 6 4 1-2 2
8
rubber Fluoroelastomer (FFKM)
6
Tungstic Acid elevated temperature rubber Fluoroelastomer (FFKM)
Turbine Engine Lubricant elevated temperature
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU) rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Polyvinyl Alcohol Silicone Styrene Butadiene Rubber thermoset Diallyl Phthalate Resin Phenolic Resin Polyester (Isophthalate) Urea Resin
2-5 2-6
3 4-9 7-9 2 8 2 4 1-2 8 8 4 1-6 1-2 1-9 7-9 6 2 8 1-7 2 1-9 9 2 7
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8 7-8 8 8 8
8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
8 8
8
elevated temperature rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone
rubber Fluoroelastomer (FKMfTFE)
9
Ucon 50HB280X room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
elevated terrlDerature rubber Silicone
9
Ucon 50HBS100 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8
8 8 8 8 8
thermoplastic elastomer Olefinic TPE rubber Silicone
5-7 9
Ucon SOHBSS room temperature
Tydex 12 elevated temperature thermoset Vinyl Ester Resin
9
Ucon SOHB280X (30-40%) elevated temperature
elevated temperature
Tween elevated temperature
8
Ucon 50HB100 room temperature
Tungsten Hexafluoride elevated temperature
Ucon 50HB260 room temperature
elevated temperature
Ucon 8
9
rubber Silicone
elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A)
2 8 2 2 8 6-8 2 2-6 6-8 8 2-8 2 2
8
elevated temperature rubber Silicone
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
Trisodium Phosphate room temperature thermoplastic elastomer Olefinic TPE Polyester TPE PVC Polyol Styrenic TPE rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Neoprene Rubber thermoset Phenolic Resin Polyester (Isophthalate)
Styrene Butadiene Rubber 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8
8 8 8 8 8 8 8 8
8
elevated temperature 8 8 8
rubber Silicone
9
8 8
Ucon 50HB660 room terrlperature
8 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer
8 8 8
8 8 8 8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
945 Chemical Sort with POL Resistance Rating
Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8
elevated temperature rubber Silicone
9
Ucon CC732 elevated temperature thermoplastic elastomer Olefinic TPE
room temperature rubber B~~Rubber
8 8 8 6 6 8 2 8 8
Ucon LB1145 room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
elevated temperature rubber Silicone
9
Ucon LB135 room temperature rubber B~~Rubber
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
Ucon LB285 room temperature rubber B~~Rubber
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8
8 1 1
6 1
elevated temperature 8
Ultrawet elevated temperature
elevated temperature rubber Fluoroelastomer (FFKM)
8 8 8 8 8 8 8 8 8 8
8 8
8
Undecylic Acid
8 8
rubber Fluoroelastomer (FFKM)
6
Uranium Sulfate elevated temperature rubber Fluoroelastomer (FFKM)
8
Urea (40-500/0) elevated temperature thermoset Vinyl Ester Resin
8
thermoplastic elastomer Olefinic TPE PVC Polyol Styrenic TPE rubber Polyurethane thermoset Vinyl Ester Resin
8 8 8 8 2
elevated temperature thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
8 8 8 8 8
Uric Acid room temperature thermoplastic elastomer pvc Polyol Styrenic TPE
8 8
elevated temperature rubber Fluoroelastomer (FFKM) thermoset Furane Resin
8 8
Urine room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
1
7 7 3
elevated temperature 8
Univis J43
thermoset Vinyl Ester Resin
8
Urotropin (20-30%)
elevated temperature rubber Fluoroelastomer (FKM)
elevated temperature thermoset Polyester (Bisphenol A) Vinyl Ester Resin
Urine Sugar
elevated temperature rubber Fluoroelastomer (FFKM)
8
Uranium
room temperature 8 6 8 8 8 6 8 8 2 8 6
room temperature
thermoset Polyester (Bisphenol A) Vinyl Ester Resin
thermoset Vinyl Ester Resin
Urea
UDMH
rubber Fluoroelastomer (FFKM)
2 8 6 6 2 2 6
Uranium Hexafluoride
room temperature
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
2
elevated temperature
Ucon LB6S rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
8 8 8
Uran
Ucon LB625 room temperature
room temperature
Ucon LB385
8 8 8 8 8 8 8 8 8 8
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
rubber B~~Rubber
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Undecyclenic Acid
Ucon LB300
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
Unsymmetrical Dimethylhydrazine room temperature
8 8 8 8 8 8 8 8 8 8
Ucon LB400X 5-8
Ucon Hydrolube J4
Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Neoprene Rubber Nitrile Rubber Polyurethane Silicone Styrene Butadiene Rubber
room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Silicone Styrene Butadiene Rubber
room temperature 8-9
thermoset Polyester (Chlorendic)
8
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
946 Chemical Sort with POL Resistance Rating
Urea Resin
Valclene
thermoplastic elastomer
rubber Fluoroelastomer (FKM)
9
elevated temperature
room temperature 8
Olefinic TPE
8 4-6
Fluoroelastomer (FFKM)
thermoset
rubber Fluoroelastomer (FFKM)
8
Vanadium Oxide elevated temperature Fluoroelastomer (FFKM)
8
Vanadium Pentoxide elevated temperature 8
Vanillin 8
4
rubber 2 2 1-2 8 8 6 2 2 6 8 1-2 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 1 7 9
elevated temperature rubber Fluoroelastomer (FFKM)
8
Varsol elevated temperature 8 2-8 2-8
9 9
thermoplastic elastomer 6-9
5 6
rubber 4 8 6 4 8 8 8 2 4 8 2 6-8 2
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
7
rubber
Versene
7 9 8
2 4-8 4-8
Polyester (Bisphenol A) Polyester (I sophthalate) Polyester Terephthalate Vinyl Ester Resin
2 2 2 2
elevated temperature Fluoroelastomer (FFKM)
Versilube
8
thermoset
room temperature
Phenolic Resin
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 2 8 8 6 4 8
Versilube FSO room temperature
8
Vinyl Acetylene room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 6 6-8 2 8 6 6 8 4 6 6
elevated temperature
rubber Ethylene Propylene Rubber Fluoroelastomer (FKM) Fluorosilicone Nitrile Rubber Silicone
8 8 8 8 4
rubber Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
rubber Fluoroelastomer (FFKM)
8 7
8
Vinyl Benzene elevated temperature rubber Fluoroelastomer (FFKM)
8
Vinyl Chloride room temperature rubber
Vinyl Ester Resin
8
Vinegar (10-20%) Polyester (Bisphenol A) Polyester (Bisphenol A)
Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (TFP) Natural Rubber Neoprene Rubber
2 6 8 7 6 2
elevated temperature
thermoset
room temperature
Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
thermoset
elevated temperature
Vegetable Oils Olefinic TPE PVC Polyol Styrenic TPE
8 8
thermoset
thermoset
6
Fluoroelastomer (TFP) Neoprene Rubber Nitrile Rubber
elevated temperature
room temperature
room temperature
8 8 8 8 8
rubber
Vidden D
Vegetable Juice Phenolic Resin Urea Resin
Olefinic TPE
elevated temperature
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthatate)
5
Versene «S%)
Vinyl Ester Resin
thermoplastic elastomer
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
thermoplastic elastomer
thermoset
room temperature Olefinic TPE
6
elevated temperature
Varnish
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
room temperature
Polyester (Bisphenol A) Vinyl Ester Resin
thermoset
8
thermoset
Vinyl Acetate
room temperature rubber
thermoset
elevated ternperature Vinyl Ester Resin
8 8 8
Fluoroelastomer Fluoroelastomer (FKMffFE)
rubber Fluoroelastomer (FFKM)
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
Vernam
rubber
3
elevated temperature rubber
Fluoroelastomer (FFKM) Silicone
elevated temperature
9 7
7-8
rubber
Valerie Acid
Diallyl Phthalate Resin Phenolic Resin Urea Resin
8 8
rubber Fluoroelastomer (FFKM)
8
Vinyl Fluoride
Vinegar
room temperature
room temperature
rubber
thermoplastic elastomer 8
Olefinic TPE
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 4 8 6 6 6 8-9 6
Ethylene Propylene Rubber Fluoroelastomer (FKM) Nitrile Rubber
1 6-8 1
elevated temperature rubber Fluoroelastomer (FFKM)
8
Vinyl Plastisol room temperature thermoplastic elastomer
3
Styrenic TPE
Vinyl Toluene room temperature
thermoset
thermoplastic elastomer
Alkyd Resin
Ole'finic TPE
4
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
)ection 2 - Chemical Sort
© Plastics Design Library
947 Chemical Sort with POL Resistance Rating
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
2 8 2 2 2-8
elevated temperature thermoset Phenolic Resin
8
Vinyl Trichloride room temperature thermoset Polyester (Chlorendic)
2
Polysulfide Rubber Polyurethane Silicone Styrene Butadiene Rubber
thermoset Alkyd Resin Diallyl Phthalate Resin Epoxy Resin Phenolic Resin Polyaminobismaleimide Polyester Polyester (Isophthalate) Polyurethane Urea Resin
thermoplastic elastomer
elevated temperature
Olefinic TPE Polyam ide TPE Polyester TPE Urethane TPE Urethane TPE (TPAU)
Fluoroelastomer (FFKM)
8
thermoset Polyester (Bisphenol A)
8
Vinylpyridine elevated temperature rubber Fluoroelastomer (FFKM)
8
Violet Oil room temperature rubber Polyurethane
6-8
Vitriol thermoset 7 7 7 7
elevated temperature rubber Fluoroelastomer (FFKM)
8
Voranol P 400 elevated temperature 8
Waste Vinyl Ester Resin
8
Water (40-500/0) thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
6-8 6-8
elevated temperature thermoplastic elastomer Urethane TPE (TPAU) Urethane TPE (TPEU)
4-8 6-8 9
room temperature 6-9 9 8 8 8 4-9 4-9
rubber Butyl Rubber Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber
8 8
8 6 8 8-9 8 8-9 9 8 8 8 6-8 8
thermoset 8
8 8
2 2 1-2 8 8 8 2 6 8 8 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
White Vitriol room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 9 7
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
3 7
9 3
Wines room temperature thermoplastic elastomer 9
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Terephthalate Urea Resin
7 9
9 7 7
Witch Hazel
room temperature
elevated temperature 2
thermoset Vinyl Ester Resin
8
Wolmar Salt
elevated temperature
room temperature
thermoset 8 8
Whiskey room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
room temperature
thermoset
elevated temperature
Polyester (Isophthalate) Vinyl Ester Resin
8 8
rubber
Styrenic TPE
Waxes
Whey
thermoplastic elastomer Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE (TPAU) Urethane TPE (TPEU)
8
elevated temperature
Polyester (Isoptlthalate)
Polyester (Bisphenol A) Vinyl Ester Resin
room temperature
thermoset
Water
elevated temperature
thermoset
thermoset
Polyester (Bisphenol A) Polyester (Isophthalate) Vinyl Ester Resin
3 7 9
White Water
Weed Killer
rubber Fluoroelastomer (FKM)
3-9 8 8 2-9 8 8 3-8 8 2-9 6 8
thermoplastic elastomer
Polyester (Chlorendic) Vinyl Ester Resin
room temperature
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
Water Treatment Beds
thermoset
room temperature thermoset
4-8 8 7-8 8 8 5-9 6 3-8 9 8 2-9
room temperature Olefinic TPE
elevated temperature
7 9 9 7 8
White Liquor
White Oil
Water Glass
thermoset Vinyl Ester Resin
Epoxy Resin Furane Resin Polyam inobismaleimide Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Polyimide Polyurethane Vinyl Ester Resin
Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin Vinyl Ester Resin
4-8 5-8 1-9 7-9 8-9
rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FFKM) Fluoroelastomer (FKM) Fluoroelastomer (FKMffFE) Fluoroelastomer (VDF/CTFE) Fluorosilicone Neoprene Rubber Silicone
thermoset
thermoset
thermoset
room temperature Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
7 7 6-9 2-9 9 9 2-8 7 7
elevated temperature
Vinylidene Chloride rubber
2 2 8-9 8
8 8 8 8 6-8 8 8 8 2 8-9 8
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 6 8 8 8
8
Wood Alcohol room temperature thermoset Alkyd Resin
9
Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemical Sort
948
Chemical Sort with POL Resistance Rating
Oiallyl Phthalate Resin Phenolic Resin Urea Resin
9 9 9
Wood Oil room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 4 1-2 8 8 6 2 6 8 6 1-2 2
elevated temperature rubber Fluoroelastomer (FFKM)
8
Wood PUlp room temperature thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
3 7 9 3
Wood Vinegar room temperature 9 9 9 9
Wright1s Blood Stain thermoset 5
Xenon room temperature rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosi Iicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8 8 8 8 8 8 8 8 8
elevated temperature 8
Xylene (S-100k) thermoset
8 8
Fluoroelastomer (FFKM) Fluoroelastomer (FKM)
8 8-9 8
Olefinic TPE Polyamide TPE Polyester TPE PVC Polyol Styrenic TPE Urethane TPE rrPAU) Urethane TPE (TPEU)
1-5 6-9 3-9 1-5 3 2 2
rubber Butyl Rubber
2
8 2 1 1-2 8 6 6 2 1-2 2
elevated temperature Fluoroelastomer (FFKM)
8
Zinc Ammonium Chloride elevated temperature rubber 8
elevated temperature thermoset Vinyl Ester Resin
8
Zinc Chloride (5-10%) room temperature 8-9
room temperature
Olefinic TPE
Zinc Chloride (40-50%)
Fluoroelastomer (FKMrrFE)
9
room terrlperature thermoplastic elastomer 2-8
room temperature
Polyamide TPE
rubber
Zinc Chloride (50-7S o/0)
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
2 2 2-6 2 1 1-2 2 2 4 2 1-2 2
elevated temperature Fluoroelastomer (FFKM)
8
room temperature thermoset 7 7 1
Zeolites room temperature 8 8 8 8 8 8 8
8 8 8
rubber Fluoroelastomer (FFKM)
8
thermoset
8
Polyester (Bisphenol A) Vinyl Ester Resin
8
Zinc
elevated temperature thermoset 8 8
Polyester (Chlorendic) Vinyl Ester Resin
Zinc Chloride room temperature thermoplastic elastomer 6 8 8 8
Ole'finic TPE Polyester TPE PVC Polyol Styrenic TPE
rubber
rubber
elevated temperature
Xylene
8
2
rubber
rubber
thermoplastic elastomer
8
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
thermoplastic elastomer
Xylene (m-)
room temperature
thermoset Vinyl Ester Resin
8 5-6
thermoset
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Styrene Butadiene Rubber
2
room temperature rubber
Fluoroelastomer (FFKM)
room temperature elevated temperature
8
Zinc Chlorate
rubber
thermoset
Polyester (Chlorendic)
Zinc Acetate
elevated temperature
Xylene (50-750/0) Polyester (Chlorendic)
9 2 7 9 2 2 2 2 7 2-9
thermoset
rubber
Alkyd Resin Oiallyl Phthalate Resin Urea Resin
elevated temperature Furane Resin Polyester (Chlorendic)
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Urea Resin Vinyl Ester Resin
Yeast
rubber Fluoroelastomer (FFKM)
2
Xylidine
room temperature Polyester
2 2 2 1-2 8 7-9 4 4-8 1-2 1-4 1-8 6 9 1-4
thermoset
Furane Resin Phenolic Resin Polyester (Chlorendic)
thermoset Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Urea Resin
Chlorohydrin Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Polyvinyl Alcohol Silicone Styrene Butadiene Rubber
Butyl Rubber Chlorosulfonated PE Rubber Ethylene Acrylate Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 7
8 8 8 8 8 8 8 8 4
8 8
thermoset 7 7 7 7-9 7
Alkyd Resin Oiallyl Phthalate Resin Phenolic Resin Polyester Urea Resin
elevated temperature rubber Chlorosulfonated PE Rubber Fluoroelastomer (FFKM)
8 8
thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8 8 8
8
elevated temperature Note: Numbers refer to POL Resistance Ratings (0-9 scale with 9 as highest resistance)
Section 2 - Chemical Sort
© Plastics Design Library
949 Chemical Sort with POL Resistance Rating
Zinc Chromate
Zinc Phosphate (20-30%)
elevated temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
thermoset Vinyl Ester Resin
8
Zinc Cyanide
elevated temperature
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Vinyl Ester Resin
rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic)
8 8 8
Zinc Diethyldithiocarbamate 8
Zinc Dihydrogen Phosphate elevated temperature 8
Zinc Dimethyldithiocarbanate «5%) elevated temperature thermoset Polyester (Chlorendic)
8
elevated temperature
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluorosilicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber
8 8 8
elevated temperature 8
elevated temperature
room temperature
rubber Fluoroelastomer (FFKM)
rubber Butyl Rubber Chlorosulfonated PE Rubber Ethylene Propylene Rubber Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (TFP) FluorosiIicone Natural Rubber Neoprene Rubber Nitrile Rubber Polysulfide Rubber Silicone Styrene Butadiene Rubber thermoset Alkyd Resin Diallyl Phthalate Resin Phenolic Resin Urea Resin
8
Zinc Hydrosulfite elevated temperature 8 8 8
Zinc Naph'thenate elevated temperature 8
Zinc Nitrate (40-500/0) elevated temperature 8
Zinc Nitrate elevated temperature 8 8 8 8 8 8
8 8 2 8 8
8
8
8
elevated temperature 8
rubber Fluoroelastomer (FFKM) thermoset Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
elevated temperature 8
8 2 8 6 7 7
9 7
8 8 8
8 8 8 8
Zinc Sulfide elevated temperature 8
Zinc Sulfite elevated temperature thermoset Polyester (Isophthalate) Vinyl Ester Resin
Zinc Phenolsulfonate
8 8 8 8 8 8 8 6 8
elevated temperature
rubber Fluoroelastomer (FFKM)
Zinc Oxide
rubber Fluoroelastomer (FFKM)
8 8 8
Zinc Sulfate
Zinc Fluorosilicate
rubber Fluoroelastomer (FFKM)
8
Zinc Stearate rubber Fluoroelastomer (FFKM)
rubber Fluoroelastomer (FFKM) thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Polyester Terephthalate Vinyl Ester Resin
8 8
elevated temperature rubber Fluoroelastomer (FFKM)
elevated temperature
thermoset Polyester (Bisphenol A)
8
elevated temperature
thermoset Vinyl Ester Resin
rubber Fluoroelastomer (FFKM)
8
Zinc Silicofluoride
Zinc Fluoborate (40-50%)
rubber Fluoroelastomer (FFKM) thermoset Polyester (Chlorendic) Polyester (Isophthalate)
8
Zinc Salts
rubber Fluoroelastomer (FFKM)
Zinc Electrolyte thermoset Polyester (Bisphenol A) Polyester (Chlorendic) Vinyl Ester Resin
8
room temperature
elevated temperature
rubber Fluoroelastomer (FFKM)
elevated temperature thermoset Polyester (Bisphenol A)
Zinc Phosphate
elevated temperature
rubber Fluoroelastomer (FFKM)
Zirconium Tetrachloride
8 8
Zirconium Nitrate elevated temperature rubber Fluoroelastomer (FFKM)
8
Note: Num bers refer to PDL Resistance Ratings (0-9 scale with 9 as highest resistance)
© Plastics Design Library
Section 2 - Chemica.l Sort
50 CAS Registry Numbers - Chemical Sort
Abietic Acid Acetaldehyde
514-10-3 75-07-0
Alum inum Oxalate Alum inum Oxide
814-87-9
10124-31-9
1344-28-1
10361-65-6 131-74-8
Alum inum Oxychloride
1327-41-9
Ammonium Picrate
Alum inum Phosphate
7784-30-7
Ammonium Polysulfide
Acetanilide
60-35-5 103-84-4
Acetate Acetic Acid
71-50-1 64-19-7
Alum inurn Potassium Sulfate
98499-64-0 10043-67-1
123-86-4 141-78-6
Alum inum Potassium Sulfide
15007-61-1 68993-61-3
Ammonium Sulfate
7773-06-0 7783-20-2
Acetic Anhydride
108-24-7
Alum inum Sodium Sulfate
10024-42-7
Ammonium Sulfide
12135-76-1
Acetoacetic Acid
541-50-4
Alum inum Sulfate
10043-01-3
Ammonium Sulfite
10196-04-0
Acetamide
Acetic Acid Butyl Ester Acetic Acid Ethyl Ester
Acetol
50-78-2 116-09-6
Acetone
8028-98-6 67-64-1
Aluminum Trichloride Am idol
1762-95-4
Ammonium Thioglycolate
27598-85-2
5421-46-5 7783-18-8
Am ino Phenol Am inoacetic Acid
Acetophenetidin
62-44-2
Am inoanthraqu inone
Acetyl Bromide Acetyl Chloride Acetyl Nitrite Acetylacetone Acetylene
506-96-7 75-36-5 5813-49-0 123-54-6 74-86-2
Am inobenzene Am inobenzenesu Ifonic Acid Am inobenzoic Acid
Ammonium
Aclar22A
9002-83-9
Ammonium Acetate
Aclar33C
9002-83-9
Am mon ium Alum
Acrylic Anhydride Acrylite Acrylite H-12 Acrylite H-15
499-12-7
Amyl Cinnamaldehyde
7784-25-0
Amyl Mercaptan
7784-26-1
Amyl Naphthalene
7784-25-0
Amyl Nitrate
1066-33-7
Ammonium Bifluoride Ammonium Bisulfate
7803-63-6
Ammonium Bisulfide Ammonium Bisulfite
12124-99-1 10192-30-0
Amyl Propionate
9011-14-7
Ammonium Bromate
75757-07-2
Ammonium Bromide
13843-59-9 12124-97-9
Angelica Seed Oil Aniline
Adipic Acid
124-04-9 51-43-4 55-31-2
Ammonium Carbamate Ammonium Carbonate Ammonium Chloride Am monium Citrate
127-65-1
110-66-7 1320-27-0 1002-16-0 110-46-3
Amyl Nitrite
463-04-7 1322-06-1 131-18-0
Amyl Phenol Amyl Phthalate
624-54-4 104-46-1
Anethole
8015-64-3 62-53-3
1111-78-0
Aniline Hydrochloride
506-87-6
Aniline Sulfate
142-04-1 542-16-5 20305-50-4
12125-02-9 3012-65-5
Anise Oil
8007-70-3
3458-72-8
Aniseed Oil
8007-70-3 100-66-3
7632-50-0
Anisole
Alcryn ALR-6386
120249-93-6
Ammonium Dichromate
7789-09-5
Anisoyl Chloride
Alcryn ALR-6387
120249-94-7
Ammonium Diphosphate
22690-73-9
112098-60-9
122-40-7
8015-63-2
1863-63-4 1341-49-7
1320-31-6 5350-03-8
Amyl Laurate
Ammonium Bicarbonate
107-13-1
Aktivin
631-61-8
Amyl Chloronaphthalene
Ammonium Benzoate
Acrylonitrile Adrenalin Adrenalin Hydrochloride
Ammonium Aluminum Sulfate
7664-41-7 14798-03-9
75-85-4 543-59-9
Amyl Ch loride
127795-79-3
2051-76-5 9011-14-7
584-02-1
Amyl Alcohol (tert-)
Ammonium Arsenate
79-10-7 140-88-5
71-41-0
Amyl Alcohol Amyl Alcohol (sec-)
28088-64-4 65-49-6
Ammonia
79-06-1
628-63-7
6032-29-7
50-78-2
Acrylic Acid Acrylic Acid Ethyl Ester
12789-46-7
26635-63-2
9010-75-7
Acrylamide
42739-38-8
62-57-7
Aclar 22
Acrolein
Ammonium Valerate Amyl Acetate Amyl Acid Phosphate
26445-05-6
Am inoisobutyric Acid (2-)
Aminosalicylic Acid (p-)
65589-70-0 107-02-8
11140-77-5 15855-70-6
Aminopyridine Am inosalicylic Acid
260-94-6
1321-11-5 141-43-5
79-34-5
Acri'flavine
62-53-3 30179-49-8 150-13-0
79-27-6
Acridine
Ammonium Thiosulfate Ammonium Tungstate
25620-59-1
Am inobenzoic Acid (p-)
Acetylene Tetrabromide
Aconitic Acid
56-40-6
Am inoethanol (2-)
Acetylene Tetrachloride Acetylsalicylic Acid
3164-29-2 14307-43-8
137-09-7 Ammonium Thiocyanate
75-05-8 98-86-2
Ammonium Tartrate
65072-01-7
75-86-5
27985-75-7
Ammonium Sulfamate
63231-48-1
Acetone Cyanohydrin
Acetophenone
528-94-9 31295-34-8
Amines Amino Acids
Aceton itrile
Acetotolu idide
7446-70-0
Ammonium Salicylate
9080-17-5
100-07-2 1300-64-7
Allyl Acetate
591-87-7
Ammonium Fluoride
12125-01-8
Anon
108-94-1
Allyl Alcohol
107-18-6
Ammonium Fluosilicate
16919-19-0
Anthracene
120-12-7
Allyl Chloride Allyl Methacrylate
107-05-1 96-05-9
Ammonium Formate Ammonium Glycolate
Anthranilic Acid Anthraqu inone
118-92-3 84-65-1
57-06-7
Am mon ium Hydrogen Carbonate
Allyl Mustard Oil Allylidene Diacetate
869-29-4
Am mon ium Hydrogen Fluoride
7647-18-9
Am mon ium Iodide
12027-06-4
Antimony Trichloride
10025-91-9
Ammonium Iron Sulfate
10045-89-3
Antimony Tri'fluoride
7783-56-4
10138-04-2 10402-23-0
Antimony Trioxide
1309-64-4 8007-56-5
Alum inum Acetate Alum inum Alum Aluminum Ammonium Sulfate
10043-01-3 15710-63-1
Ammonium Lactate Ammonium Lauryl Sulfate
Am mon ium Hydroxide
Aluminum Bromide
7727-15-3
Am mon ium Lignosulfonate
Aluminum Chlorate
15477-33-5
Ammonium Metaphosphate
Alum inum Ch loride
7446-70-0
Alum inum Chlorohydrate
1327-41-9
Alum inum Formate
30637-95-7 7783-70-2
10043-67-1 139-12-8
Alum inum Fluoride
Antimony Pentachloride
7789-61-9
10043-01-3
Alum inum Citrate
Anthraquinonesulfonic Acid
Antimony Tribromide
Alum
Alum inum Ethylate
1066-33-7 1341-49-7 1336-21-6
Aloin
8015-61-0
35249-89-9
Antimony Pentafluoride
Ammonium Hydrosulfide
8007-69-0 1415-73-2
Almond Oil
540-69-2
Ammonium Molybdate
12124-99-1
515-98-0 2235-54-3 8061-53-8 13446-46-3
Aqua Regia Arachidic Acid Arcel ArdelD100 Argon
506-30-9 122782-45-0 25639-68-3 7440-37-1 7058-14-2
11098-84-3
Armeen
13106-76-8
Aroclor 1242
53469-21-9 12672-29-6
31142-56-0
Ammonium Nitrate
6484-52-2
Aroclor 1248
555-75-9 7784-18-1
Ammonium Nitrite
13446-48-5
Aroclor 1254
11097-69-1
Am monium Orthophosphate
10124-31-9
Aroclor 1260
11096-82-5
7360-53-4
Ammonium Oxalate
1113-38-8
Aroclor 5442
12642-23-8
Ammonium Perchlorate
7790-98-9
Aropol7240
62229-36-1
Alum inum Hydroxide Alum inum Linoleate
21645-51-2 645-17-0
Ammonium Persulfate
7727-54-0
Arsenic
7440-38-2
Alum inum Nitrate
13473-90-0
Ammonium Phosphate
7722-76-1
Arsenic Acid
7778-39-4
Abietic Acid - Arsenic Acid
© Plastics Design Library
951 CAS Registry Numbers - Chemical Sort
Arsenic Oxide Arsenic Trichloride
12777-38-7 7784-34-1
Benzylam ine
100-46-9
Benzylic Alcohol
100-51-6
Butyl Alcohol Butyl Alcohol (sec-)
71-36-3 78-92-2
Arsenic Trioxide
1327-53-3
Benzyltrimethylammonium Chloride Beryllium Chloride
56-93-9 7787-47-5
Butyl Alcohol (tert-) Butyl Benzoate
75-65-0 136-60-7
Arsenic Trisulfide
1303-33-9 7784-42-1
Beryllium Fluoride
7787-49-7 1304-56-9
Butyl Benzyl Phthalate
Beryllium Oxide
85-68-7 109-65-9
60646-36-8
Arsine Ascorbic Acid Askarel
50-81-7 134010-07-4
Aspartic Acid
56-84-8 6899-03-2 50-78-2 24991-14-8
Aspirin Astrel360 Atlac 382 Atlac 4010
13510-49-1 25655-41-8
Bism uth Carbonate
16508-95-5 18400-34-5
Bism uth Chloride
7787-60-2 56452-11-0
Butyl Chloride Butyl Ether Butyl Glycol Butyl Glycolate
111-76-2 7397-62-8
Butyl Hypoch lorite
5923-22-8 138-22-7
Betadine BioborJF Bis(2-Ethylhexyl) Sebacate
8063-89-6 122-62-3
Atlac 580
55353-07-6
Bismuth Nitrate Bism uth Oxychloride
10361-44-1
At lac 711 Atropine Sulfate Avimid K
55-48-1 94148-82-0
Bism uth Subnitrate Bisulfite
1304-85-4 15181-46-1
Axion Azobenzene bis (2-Ethylhexyl) Phthalate
66676-34-4 103-33-3 117-81-7
Bitter Almond Oil Bitumen
Barbitol
74564-77-5
Barium Acetate Barium Bromide Barium Carbonate Barium Chlorate Barium Chloride Barium Cyanide Barium Hydroxide Barium Iodide Barium Nitrate Barium Oxide Barium Peroxide Barium Polysulfide Barium Sulfate Barium Sulfide Barium Sulfite Bayblend T-85MN
136958-86-6
Baydur Baydur 724
39319-93-2
Baydur 726
87805-55-8 8029-31-0
Beer Benzaldehyde Benzalkonium Chloride
98824-21-6
100-52-7
1634-04-4 142-77-8
Butyl Oxalate Butyl Peroxide (di-tert-)
2050-60-4 110-05-4
Borol Boron Hydride Boron Phosphate Boron Tribrom ide Boron Trichloride Boron Tri'fluoride Boron Trioxide Bromic Acid Bromine Bromine Pentafluoride Bromine Trifluoride Bromoacetic Acid Bromobenzene Bromobenzylphenyl Ether (p-)
1303-86-2 507-70-0 76-49-3 464-41-5 7492-41-3 16940-66-2
13952-84-6 75-64-9 25013-16-5 128-37-0
Butylbenzoic Acid Butylbenzyl Phthalate
31627-70-0 85-68-7
Butylene Butylene Glycol
25167-67-3 107-88-0
13308-51-5 10294-33-4
10294-34-5 7637-07-2 1303-86-2 7789-31-3 7726-95-6
20600-22-0 26602-89-1
Butylphenol (p-tert-)
Bromoethane Bromoform
74-96-4 75-25-2
Benzene Hexachloride (y-)
58-89-9
Benzenesulfonic Acid
98-11-3 92-87-5
Benzotrich loride Benzotrifluoride Benzoyl Benzoyl Chloride Benzoyl Peroxide Benzyl Acetate Benzyl Alcohol Benzyl Benzoate Benzyl Bromide Benzyl Butyl Adipate Benzyl Butyl Phthalate Benzyl Chloride Benzyl Ether Benzyl Octyl Adipate Benzyl Phenol Benzyl Salicylate
© Plastics Design Library
65-85-0
Brucine Sulfate Butadiene
119-53-9 100-47-0
Butadiene (1,3-)
119-61-9
Butane
98-07-7 98-08-8 2652-65-5 98-88-4 94-36-0 140-11-4 100-51-6 120-51-4
100-39-0 4121-13-5 85-68-7 100-44-7 103-50-4 3089-55-2 1322-51-6 118-58-1
25265-75-2 Butylene Oxide Butylphenol (o-sec-) Butylphenol (p-sec-)
79-08-3 108-86-1
71-43-2
Benzoic Acid Benzoin Benzon itrile Benzophenone
110-63-4
7789-30-2 7787-71-5
Benzene Benzene Hexachloride
134-81-6 76-93-7
80-58-0
123-72-8 107-92-6
25495-91-4
Butyric Anhydride
106-31-0
74-83-9 89-55-4 28807-97-8
Butyrolactone
4845-99-2 106-99-0 25339-57-5 106-99-0 106-97-8
Butyraldehyde
Cadmium Cadmium Acetate
7440-43-9 543-90-8
Cadmium Bromide Cadmium Chloride
7789-42-6 10108-64-2
Cadmium Cyanide
542-83-6 10325-94-7 1306-19-0 2223-93-0 10124-36-4
Cadmium Nitrate Cadmium Oxide Cadmium Stearate
Butanediol (2,3-)
513-85-9 109-79-5
Cadmium Sulfate Cadmium Sulfide
1319-74-0 78-93-3 78-93-3 25167-67-3
96-48-0 141-75-3 104521-01-9
Butyryl Chloride C-Flex
107-88-0 110-63-4
Butene Butoxyethanol (2-) Butoxyethoxyethanol (2,2-)
99-71-8 98-54-4
Butyric Acid
25265-75-2
Butanetriol Butanone Butanone (2-)
26249-20-7 89-72-5
110-65-6 11070-67-0
Butynediol
Butanediol Butanediol (1,3-) Butanediol (1,4-) Butanethiol
109-73-9
Butylamine
74-97-5
Benzil Benzilic Acid
123-95-5 123-72-8
Butyl Stearate Butylaldehyde Butylamine (sec-) Butylam ine (tert-) Butylated Hydroxyanisole Butylated Hydroxytoluene
Bromochloromethane
Bromosalicylic Acid (5-) Bromotoluene
28805-86-9 84-74-2
Butyl Phenol Butyl Phthalate
11129-13-8
82-05-3
Bromohexane Bromomethane
Butyl Methacrylate
13283-31-3
55-21-0
Benzidine
75-66-1 97-88-1
Butyl Methyl Ether (tert-)
Benzamide Benzanthrone
58-89-9
106-18-3 109-79-5
Butyl Oleate
Bromobutane Bromobutyric Acid (2-)
8001-54-5
Butyl Laurate Butyl Mercaptan Butyl Mercaptan (tert-)
11113-50-1
Bornyl Acetate Bornyl Ch loride Bornyl Formate
50864-67-0 7727-43-7 21109-95-5 7787-39-5
Butyl Lactate
37210-98-3
13477-00-4 10361-37-2
10022-31-8 1304-28-5 1304-29-6
8052-42-4
109-69-3 142-96-1
Boric Acid Methyl Ester Boric Oxide Borneol
13718-50-8
8013-76-1
111-76-2 112-07-2
8001-85-2 10043-35-3
10553-31-8 513-77-9
542-62-1 17194-00-2
7787-59-9
124-17-4 27213-78-1
Bone Oil Boric Acid
108771-80-8 543-80-6
109-21-7 112-34-5
Butyl Butyrate Butyl Carbitol Butyl Carbitol Acetate Butyl Catechol (tert-) Butyl Cellosolve Butyl Cellosolve Acetate
Beryllium Sulfate
60649-28-7 58798-93-9 72711-12-7
Barex 210
Butyl Brom ide
1306-23-6 63428-84-2 58-08-2
Cadon Caffeine
69-22-7 62-54-4
Caffeine Citrate Calcium Acetate
123-86-4
Butyl Acetate (sec-) Butyl Acetyl Ricinoleate
105-46-4 140-04-5
Calcium Bisulfite Calcium Brom ide
13780-03-5 7789-41-5
Butyl Acrylate
141-32-2
Calcium Carbide
75-20-7
Butter Butyl Acetate
Arsenate Benzoate Bicarbonate Bisulfate
7778-44-1 2090-05-3 3983-19-5 23276-62-2
Calcium Calcium Calcium Calcium
111-76-2 112-34-5 8029-34-3
Arsenic Oxide - Calcium Carbide
952 CAS Registry Numbers - Chemical Sort
471-34-1
Calcium Carbonate Calcium Chlorate
10137-74-3
Calcium Chloride Calcium Chromate
10043-52-4 13765-19-0 156-62-7 592-01-8
Calcium Cyanamide Calcium Cyanide
Catechol
120-80-9 154-23-4
Caustic Potash Caustic Soda
1310-58-3 1310-73-2
Cedar Leaf Oil Cedar Wood Oil
8007-20-3 8000-27-9
Chloron~ropropane
37809-02-2
Chlorophenol Chlorophenol (p-)
25167-80-0 106-48-9 76-06-2
Chloropicrin
126-99-8 26446-76-4
Chloroprene Ch loropropane Ch loropropane (2-) Chloropropionic Acid
Calcium Dinitrate
10124-37-5
Celanex
Calcium Fluoride
10124-37-5 7789-75-5
Celanex 3210
58-89-9 24968-12-5 24968-12-5
299-28-5
Celanex 3300
24968-12-5
Chlorosulfonic Acid
75-29-6 28554-00-9 29154-12-9 7790-94-5
7789-78-8 57308-10-8
Celcon M25 Celcon M270
52276-51-4 24969-25-3
Chlorotoluene Chlorotoluene (p-)
25168-05-2 106-43-4
Celcon M90 Cellophane Cellosolve Cellosolve Acetate
95327-43-8 9005-81-6 110-80-5 111-15-9
Chlorotrifl uoroethylene Ch lorotrifluoromethane Ch lorotrimethylsilane Ch loroxylenol
Cellulose Acetate Cellulose Acetate Butyrate Cellulose Nitrate Cellulose Tripropionate
9004-35-7 9004-36-8 9004-70-0 39320-19-9
Cellu lube 220
17269-77-1
Calcium Gluconate Calcium Hydride
Calcium Hydrosulfide
125544-53-8 12133-28-7 1305-62-0 7778-54-3 7789-79-9
Calcium Hydroxide Calcium Hypochlorite Calcium Hypophosphite Calcium Lactate Calcium Nitrate Calcium Nitrite
814-80-2 10124-37-5 13780-06-8
Calcium Oxide Calcium Permanganate
1305-78-8 10118-76-0
Ceresin
8001-75-0
Cerous Chloride Cerous Fluoride
7790-86-5
Calcium Peroxide Calcium Phenolsulfonate
1305-79-9 127-83-3 1300-41-0
Cerous Nitrate
Calcium Phosphate
7758-87-4
Cesium Bromide
Calcium Propionate
10103-46-5 4075-81-4 824-35-1
Calcium Salicylate
Cetane Cetavlon Cetyl Alcohol
7758-88-5 10108-73-3 7787-69-1 544-76-3 8044-71-1 36653-82-4 29106-32-9
Chloropyridine
79-38-9 75-72-9 75-77-4 88-04-0 1321-23-9
Cholesterol Chrome Alum Chromic Acid Chrom ic Anhydride Chromic Chloride
57-88-5 10141-00-1 13530-68-2
Chrom ic Hydroxide Chrom ic Oxide
1308-14-1 1308-38-9
Chrom ic Phosphate Chromic Sulfate
10101-53-8
1333-82-0 10025-73-7
7789-04-0
Chromium Nitrate
13548-38-4 17135-66-9
Chrom ium Potassium Sulfate
10141-00-1 10279-63-7
Chrom ium Sulfate
10101-53-8 13825-86-0
Calcium Stearate Calcium Sulfamate
1592-23-0 13770-92-8
Chaulmoogric Acid Cherry Juice Cherry Syrup
Calcium Sulfate Calcium Sulfide Calcium Sulfite
7778-18-9 20548-54-3 10257-55-3
Chloral Chloral Hydrate Chlordane
12789-03-6
Chrom ium Trioxide Chromous Sulfate
Chloric Acid Chloride
7790-93-4 16887-00-6
Chromyl Chloride Cidex7
14977-61-8 111-30-8
7782-50-5 10049-04-4 7790-91-2 92-04-6
Cineol Cinnamaldehyde
470-82-6 104-55-2 621-82-9 104-54-1
1344-95-2
Calcium Silicate
2092-16-2 7790-75-2
Calcium Thiocyanate Calcium Tungstate
8012-99-5 8013-32-9 75-87-6 302-17-0
14489-25-9 1333-82-0 13825-86-0
Calgonit D Calgonit S
149315-46-8 149315-47-9
Chlorine Chlorine Dioxide Chlorine Trifluoride Chloro-4-phenylphenol (2-)
Calibre 300-6 Calibre 302-6
24936-68-3 130213-40-0
Chloro-p-Toluidine (2-) Ch loroacetaldehyde
615-65-6 107-20-0
Cinnamic Aldehyde Cinnamon Oil
104-55-2 8007-80-5
Chloroacetic Acid Chloroacetic Acid Ethyl Ester
79-11-8 105-39-5
Citraconic Anhydride
8015-91-6 616-02-4
Ch loroacetone Ch loroacetophenone
78-95-5 532-27-4
Citric Acid Citronellol
Chloroacetyl Chloride
1341-24-8 79-04-9
59299-44-4 68915-31-1
Calgon
79-92-5 76-22-2
Camphene Camphor Cam phoric Acid Cane Sugar Capric Acid
5394-83-2 57-50-1
Caproaldehyde
66-25-1
Caproic Acid Caproic Aldehyde Caprolactam Capron
334-48-5 142-62-1 66-25-1 105-60-2 25038-54-4
Caprylic Acid Caramel Carbazole Carbitol Carbitol Acetate Carbolic Acid Carbolineum Carbon Carbon Bisul'fide Carbon Carbon Carbon Carbon Carbon
Dioxide Disulfide Monoxide Tetrabrom ide Tetrachloride
Carbon ic Acid Carbowax Carboxyethyl Cellulose Carboxymethyl Cellulose Cassia Oil Castor Oil
Calcium Carbonate - Copper Chloride
124-07-2 8028-89-5 86-74-8 111-90-0 112-15-2 108-95-2 8007-65-6 7440-44-0 75-15-0 124-38-9 75-15-0 630-08-0 558-13-4 56-23-5 463-79-6 25322-68-3 9004-42-6 9000-11-7 9004-32-4 8007-80-5 8001-79-4
Cinnamic Acid Cinnamic Alcohol
Clophen A50 Clophen A60 Clorox Coal Tar Cobalt Chloride
n-92-9 106-22-9 8068-44-8 11096-99-4 7681-52-9 8007-45-2
Ch loroani line ChlorobenzaIdehyde
27134-26-5 35913-09-8
Ch lorobenzene Chlorobenzenesulfonic Acid
108-90-7 41237-22-3
Ch lorobrom om ethane Chlorobutane
74-97-5 109-69-3 25154-42-1
Chlorobutene Chlorocarbonic Acid
39437-98-4 463-73-0 28519-06-4
Cobalt Octoate
866-81-9 10141-05-6 14216-74-1 136-52-7
Cobalt Salts Cobaltous Acetate
14751-87-2 71-48-7
25497-29-4 75-45-6
Cobaltous Chloride Cobaltous Sulfate
7646-79-9 10124-43-3
28519-07-5 75-00-3 107-07-3 107-07-3 1331-31-3 75-01-4
Cocoa Butter
Chlorodecane Ch lorodifluoroethane Chlorodifluoromethane Ch lorododecane Ch loroethane Chloroethanol Chloroethanol (2-) Ch loroethylbenzene Ch loroethylene Chloroform Chlorohexanol (6-) Ch lorohydrin
67-66-3 2009-83-8 96-24-2 74-87-3
Ch lorom ethane Chloromethyl Methyl Ether Chloron itrobenzene
107-30-2 25167-93-5
Chloronitroethane
30283-93-3
Cobalt Citrate Cobalt Nitrate
Coconut Oil Cod Liver Oil Cold Cream Colloidal Sulfur Coolanol25 Coolanol35 Copper Acetate
1332-82-7 7646-79-9
8002-31-1 8001-31-8 8001-69-2 8050-76-8 7704-34-9 78-13-7 56690-31-4 142-71-2
Copper Carbonate
4180-12-5 1184-64-1
Copper Chloride
7492-68-4 1344-67-8 7447-39-4
© Plastics Design Library
953 CAS Registry Numbers - Chemical Sort
Copper Cyanide
7758-89-6 544-92-3 39377-49-6
Dekalin Delrin
66455-31-0
Dichlorotoluene (2,4-) Dichlorotoluene (3,4-)
Delrin 100
94947-58-7
Dicyclohexylam ine
Copper Fluoride
11113-59-0
De/rin 500
Copper G luconate
13005-35-1
Delrin 500F
Copper Hypochlorite
16789-31-4
Copper Naphthenate
91-17-8
37273-87-3
Dicyc/ohexylam monium Nitrate
95-73-8 95-75-0 101-83-7 3882-06-2
126039-37-0
Dicyclopentadiene
77-73-6
Delrin 900
61673-52-7
Didecyl Phthalate
84-77-5
1338-02-9
Derakane 411
51848-31-8
Dieldrin
Copper Nitrate
10402-29-6
Derakane 470
51653-08-8
Diethanolam ine
Copper Oxide
1317-38-0
Derakane 51 ON Derakane 8084
72231-10-8 111744-64-0
Diethyl Benzene
1317-39-1 1344-70-3
Dextrin
7758-98-7
Dextrose
Corn Oil
8001-30-7
DFD-6005
Corn Starch
9005-25-8
DHDA--7704
Corn Sugar
50-99-7
Copper Sulfate
Corn Syrup Cosmic Cottonseed Oil Coumarin Cream of Tartar
8029-43-4 59694-78-9 8001-29-4 91-64-5 868-14-4
Diacetone Alcohol
60-57-1 111-42-2 25340-17-4 112-36-7
Diethyl Carbitol
9004-53-9
Diethyl Carbonate
105-58-8
50-99-7
Diethyl Cellosolve
629-14-1
9002-88-4 149983-93-7
Diethyl Ether
60-29-7
Diethyl Ketone
96-22-0
123-42-2
Diethyl Malonate
Diakon
9011-14-7
Diethyl Phthalate
84-66-2
Dialanine
1948-31-8
Diethyl Sebacate
110-40-7
105-53-3
Diallyl Ether
557-40-4
Diethyl Sulfate
Diallyl Phthalate
131-17-9
Diethyl-m-Toluidine (N,N-)
107-15-3
Diethylamine
7783-28-0
Diethylaniline
Diaminoethane (1,2-)
Creosote
8001-58-9
Diammonium Phosphate
Cresol
1319-77-3
Diamyl Phthalate
91-66-7
Diethylene Glycol
111-46-6
Cresol (m-)
108-39-4
2050-92-2
Diethylene Glycol Butyl Ether
112-34-5
Cresol (0-)
95-48-7
Diazinon
333-41-5
Diethylene Glycol Ethyl Ether
111-90-0
Cresol (p-)
106-44-5
Dibenzyl
103-29-7
Diethylene Glycol Methyl Ether
111-77-3
Dibenzyl Ether
103-50-4
Diethylenetriam ine
111-40-0
Diethylformam ide Diethylhexyl Sebacate (2-)
617-84-5 122-62-3
Diethylmaleate
141-05-9
Cresotinic Acid (0-) Cresyldiphenyl Phosphate Cresylic Acid
83-40-9 26444-49-5
Diamylam ine
131-18-0
64-67-5 91-67-8 109-89-7
1319-77-3
Diborane Dibromobenzene (p-)
Crotonaldehyde
4170-30-3
Dibromoethane
Crotonic Acid
3724-65-0
Dibromoethane (1,2-)
Cryolite Cumaldehyde Cumene Cumene Hydroperoxide CumylphenoJ (p-)
15096-52-3 122-03-2
Dibromophenol Dibromopropane (1,2-)
19287-45-7 25620-62-6
106-37-6 106-93-4
Difluoroch lorom ethane
75-45-6
28514-45-6
Difluorodibromomethane
75-61-6
78-75-1
Difluorodichloromethane
75-71-8
98-82-8 80-15-9
Dibutyl Ether Dibutyl Phthalate
142-96-1
599-64-4
Dibutyl Sebacate
109-43-3
Diglycolic Acid
110-99-6
111-92-2
111-96-6 84-75-3
84-74-2
Difluoroethane
25497-28-3
Difluoroethylene
1320-41-8
Cupric Chloride Cupric Fluoride
7447-39-4 7789-19-7
Dibutylam ine Dibutylphenol (sec-)
31291-60-8
Diglyme Dihexyl Phthalate
Cupric Sulfate
7758-98-7
Dibutylphenol (tert-)
26746-38-3
Dihydroxydiphenylsu Ifone
Cuprous Chloride
7758-89-6
Dichloroacetic Acid
79-43-6
Cuprous Oxide
1317-39-1
Dich loroacetic Acid Methyl Ester
Cyanamide
420-04-2
Dich loroan iline
Cyanoacetic Acid Cyanogen
372-09-8
Dichloroaniline (3,4-)
460-19-5
Dich lorobenzene
Dihydroxypropane (1,2-) Diisobutyl Adipate
141-04-8
27134-27-6
Diisobutyl Ketone
108-83-8
95-76-1 25321-22-6
2074-87-5
Dichlorobenzene (1,2-)
95-50-1
506-77-4
Dichlorobenzene (1,4-)
106-46-7
Diisobutyl Phthalate Diisobutylcarbinol Diisobutylene
25167-70-8
Diisodecyl Phthalate
26761-40-0
Diisononyl Adipate
33703-08-1
Diisononyl Phthalate
28553-12-0
Cyanuric Chloride
108-77-0
Dichlorobenzene (0-)
95-50-1
110-82-7
Dichlorobenzene (p-)
106-46-7
Cyclohexanone
108-94-1
Dichlorobutane
Cyclohexene
110-83-8
Dichlorobutane (1,2-)
Cyclohexyl Acetate
622-45-7
Dichlorobutene
11069-19-5
Diisopropanolam ine
Cyclohexyl Alcohol
108-93-0
Dichlorodiethyl Ether
27753-54-4
Diisopropyl Benzene
108-91-8
Cyclohexylam ine Laurate
15890-18-3
26761-81-9
Dich lorodifluorom ethane
75-71-8 75-78-5
Dichlorodiphenyldichloroethane
Cyclopentadiene
542-92-7
Dich loroethane
Cyclopentane
287-92-3
Dichloroethane (1,2-)
Cyclopentanone
120-92-3
Dichloroethylene
Diisooctyl Phthalate
72-54-8 1300-21-6 107-06-2 25323-30-2
117-81-7 27554-26-3
616-21-7
Dich lorodimethylsilane
84-69-5 108-82-7
Cyclohexane
20227-92-3
57-55-6
116-54-1
Cyanogen Chloride
Cyclohexylam ine Cyclohexylam ine Carbonate
25641-61-6
Diisopropyl Ether Diisopropyl Ketone Diisopropylidene Acetone
110-97-4 25321-09-9 108-20-3 565-80-0 504-20-1 7349-78-2
Dimethionine Dimethyl Carbinol
127-19-5 67-63-0
Dimethyl Acetamide (N,N-)
75-19-4
Dichloroethylene (1,2-)
624-92-0
9003-56-9
Dichlorofluoromethane
540-59-0 75-43-4
Dimethyl Disu Ifide
Cycolac
Dimethyl Ether
115-10-6
Cycolac KJB
9003-56-9
Dich lorohexafluorocyclobutane (1,2-)
356-18-3
Dimethyl Formaldehyde
Cycolac K...IM
9003-56-9
Dichloroisopropyl Ether
Cyclopropane
63283-80-7 75-09-2
67-64-1
Dimethyl Phenyl Carbinol
617-94-7
Dimethyl Phenyl Methanol
617-94-7
Dimethyl Phthalate
131-11-3
Cycolac KJU
9003-56-9
Dichloromethane
Cycolac L
9003-56-9
Dichlorophenol
Cycolac T
9003-56-9
Dichlorophenoxyacetic Acid
94-75-7
Dimethyl Sulfate
77-78-1
94-75-7
Dimethyl Sulfide
75-18-3
25167-81-1
Cymene (p-)
99-87-6
Dichlorophenoxyacetic Acid (2,4-)
DDT Decahydronaphthalene
50-29-3 91-17-8
Dich loropropane Dichloropropane (1,2-)
26638-19-7 78-87-5
Dimethyl Sulfoxide Dimethyl Terephthalate
Decalin
91-17-8 14727-56-1
Dich loropropene Dichloropropionic Acid
26952-23-8 26445-02-3
Dimethyl Thiazolidine (2,2-) Dimethyl-1,5-Hexadiene (2,5-)
Decane
124-18-5
Dichloropropionic Acid (2,2-)
Decyl Alcohol
112-30-1
Dich loropropylene
Dehydroacetic Acid
520-45-6
Dietl lorosilane
771-03-9
Dich lorotetrafluoroethane
16807-48-0
© Plastics Design Library
Dich 10rotoJuene
67-68-5 120-61-6 19351-18-9 627-58-7
Dimethyl-4-Heptanol (2,6-)
108-82-7
Dimethyl-4-Heptanone (2,6-)
108-83-8
4109-96-0
Dimethylacetam ide
127-19-5
1320-37-2
Dimethylam ine
124-40-3
29797-40-8
Dimethylaniline
121-69-7
75-99-0 26952-23-8
Copper Chloride - Dimethylaniline
954 CAS Registry Numbers - Chemical Sort
Dimethylaniline (N,N-) Dimethyldich lorovinyl Phosphate Dimethylformam ide Dimethylformamide (N,N-)
121-69-7 62-73-7 68-12-2 68-12-2
Electrosol Elon Ephedrine Hydrochloride
30260-66-3 1111-74-6
Ephedrine Sulfate Epichlorohydrin
Din itroch lorobenzene
97-00-7 25567-67-3
Epon 828
Din~rogen Tetroxide
10544-72-6 25321-14-6
Erucic Acid
Dimethylhydrazine Dimethylsilane
Dinitrotoluene
84-76-4
Dinonyl Phthalate Dioctyl Adipate
103-23-1
Dioctyl Phosphate Dioctyl Phthalate
123-79-5 3115-39-7 117-81-7 117-84-0
Epsom Salts Ethane Ethaneth iol Ethanolam ine Ethereal Oil Ethoxyethyl Acetate (2-)
92091-76-4 55-55-0
Ethyleneimine Ethylhexyl Adipate (Di-2-)
37325-37-4 50-98-6 134-72-5 106-89-8
Ethylhexyl Alcohol (2-) Ethylhexyl Orthophosphoric Acid (Di-2-)
25068-38-6 7487-88-9 112-86-7 74-84-0 75-08-1 141-43-5 8013-03-4 111-15-9
Ethyl Acetate Ethyl Acetoacetate
141-78-6 141-97-9
Dioctyl Sebacate
122-62-3 2432-87-3
Ethyl Acrylate Ethyl Alcohol
140-88-5 64-17-5
Dioctylam ine Dioxane Dioxane (1,4-)
1120-48-5 123-91-1
Ethyl Aluminum Dichloride Ethyl Benzene
563-43-9 100-41-4
Ethyl Benzoate
93-89-0 74-96-4
Dioxane (p-)
123-91-1 123-91-1
Ethyl Bromide
Dioxolane
646-06-0
Ethyl Bromoacetate
105-36-2
Dipentene
138-86-3
Ethylhexyl Phosphate (Di-2-) Ethylmorpholine
151-56-4 103-23-1 104-76-7 298-07-7 298-07-7 100-74-3 540-82-9
Ethylsulfuric Acid
8000-48-4
Eucalyptus Oil Eugenol Eval
97-53-0 25067-34-9
Eval EP-E Eval EP-F
25067-34-9 25067-34-9 25085-50-1
F60 Ferric Acetate Ferric Ammonium Sulfate Ferric Chloride Ferric Ferrocyanide Ferric Hydroxide Ferric Nitrate Ferric Phosphate Ferric Sulfate Ferric Sulfide Ferrous Am monium Citrate
1834-30-6 10138-04-2 7705-08-0 14038-43-8 1309-33-7 10421-48-4 10045-86-0 10028-22-5 12063-27-3 25378-33-0 10045-89-3
Ethyl Butyrate
105-54-4
Ferrous Ammonium Sulfate
92-52-4
Ethyl Cellosolve
110-80-5
Diphenyl Ether
101-84-8
Ethyl Cellulose
9004-57-3
Ferrous Carbonate Ferrous Chloride
563-71-3 7758-94-3
Diphenyl Oxide Diphenylam ine
101-84-8 122-39-4
Ethyl Ch loride Ethyl Chloroacetate
75-00-3 105-39-5
Ferrous Hydroxide Ferrous Iodide
18624-44-7
Ethyl Chlorocarbonate Ethyl Chloroformate
541-41-3 541-41-3
Ferrous N~rate Ferrous Sulfate
14013-86-6 7720-78-7
Ethyl Cyanoacetate Ethyl Digol
105-56-6 111-90-0 60-29-7
Ferrous Sulfite Ferrous Tartrate
50820-24-1 2944-65-2
109-94-4 97-64-3
Flexel1010
Diphenyl
Diphenylcarbonate Diphenylene Oxide Diphenylenimine Diphenylpropane Dipotassium Phosphate Dipropylene Glycol Dipropylene Glycol Methyl Ether Disodium Phosphate Disodium Sulfate Dityrosine Divinylbenzene DMA4 DMA6
102-09-0 132-64-9 86-74-8 25167-94-6 7758-11-4 25265-71-8 34590-94-8 7558-79-4 7757-82-6 980-21-2 1321-74-0 2008-39-1 94-75-7
Ethyl Ether Ethyl Formate Ethyl Lactate Ethyl Mercaptan Ethyl Methacrylate Ethyl Nitrite Ethyl Oleate Ethyl Oxalate Ethyl Propionate
75-08-1 97-63-2 109-95-5 111-62-6 95-92-1 105-37-3
Dodecene Dodecyl Alcohol
25378-22-7 112-53-8
Ethyl Salicylate
28631-77-8 118-61-6
Dodecylbenzene Dodecylbenzenesu Ifonic Acid
123-01-3 27176-87-0
Ethyl Silicate Ethyl Stearate
11099-06-2 111-61-5
Dow Corning 710 Dow Corning FS1265
63148-58-3
Ethyl Sulfate
Dowanol DB Dowanol EB Dowanol PM Dowfax2A1 Dowicide Dowicide G Dowtherm Dowtherm 209 Dowtherm A DOP Dual DutralCO Dylar\< 132 Dylark 332
Ethyl Pyridine
540-82-9
63148-56-1 112-34-5 111-76-2 1320-67-8 12626-49-2 132-27-4 131-52-2 8004-13-5 107-98-2 8004-13-5 117-81-7 51218-45-2 61789-00-2 9011-13-6 9011-13-6
Ethyl Trichloroacetate Ethyl Valerate
515-84-4 539-82-2
Ethyl-1 ,3-Hexanediol (2-)
94-96-2
Ethylamine
75-04-7
Ethylaniline Ethylbutyric Acid (2-) Ethylcyclopentane Ethylene Ethylene Bromide
103-69-5 88-09-5 1640-89-7 74-85-1
Ethylene Carbonate
106-93-4 96-49-1
Ethylene Chloride Ethylene Chloroformate
107-06-2 124-05-0
Ethylene Chlorohydrin Ethylene Cyanohydrin
107-07-3 109-78-4
Ethylene Dibromide Ethylene Dichloride
106-93-4 107-06-2 107-21-1 111-76-2 110-80-5 109-86-4
Dylar\< 350 Dylark 378P20
88161-21-1 9011-13-6
Dylar\< 700 Eastman 910 Ecolan ECR34 EktarGN001 Ektasolve DB Ektasolve DE Ektasolve OM
86675-35-6 137-05-3 125053-40-9 9017-80-5 25640-14-6 112-34-5 111-90-0 111-77-3
Ektasolve EB Ektasolve EE Ektasolve EM
111-76-2 110-80-5
Ethylene Oxide Ethylene Sulfate Ethylene Trichloride Ethylenediam ine
109-86-4
Ethylenediaminetetraacetic Acid
Dimethylaniline (N,N-) - Freon BIF
64-67-5
Ethylene Glycol Ethylene Glycol Butyl Ether Ethylene Glycol Ethyl Ether Ethylene Glycol Methyl Ether Ethylene Glycol Phenyl Ether Ethylene Nitrate
122-99-6 628-96-6 75-21-8 1072-53-3 79-01-6 107-15-3 60-00-4
7783-86-0
146701-81-7 145269-10-9
Fiberite FM-4065-50
37262-48-9 56748-27-7
Flit Fluon Fluon VG15
9002-84-0 9002-84-0
Fluon VG25 Fluorine Fluorinert FC 70
90n-21-8
Fluorobenzene
462-06-6 13537-32-1
7782-41-4 338-84-1
Fluorophosphoric Acid Fluosilicic Acid Fluosulfonic Acid Fluothane Foraflon Formaldehyde Formam ide Formic Acid Fortilene Fortron Freon 11 Freon Freon Freon Freon
112 113 114 114B2
Freon Freon Freon Freon
115 116 12 12B1
Freon Freon Freon Freon
12B2 13 13B1 14
Freon 142B Freon 21 Freon 218 Freon 22 Freon 23 Freon 31
16961-83-4 7789-21-1 151-67-7 24937-79-9 50-00-0 75-12-7 64-18-6 9003-07-0 120299-91-4 75-69-4 76-12-0 76-13-1 76-14-2 124-73-2 76-15-3 76-16-4 75-71-8 353-59-3 75-61-6 75-72-9 75-63-8 75-73-0 75-68-3 75-43-4 76-19-7 75-45-6
Freon 32 Freon 502
75-46-7 593-70-4 75-10-5 39432-81-0
Freon BF
37380-64-6
© Plastics Design Library
955 CAS Registry Numbers - Chemical Sort
Freon C318 Freon MF Freon TA Freon TC Freon TE Freon TES
115-25-3 75-69-4 58481-78-0
Heptyl Alcohol (2-)
58481-77-9
Hercoflex 600
57762-33-1
Hercu les 8551-7A Hetron 197
57158-54-0
57762-31-9
74315-78-9
59316-88-0
Hetron 92
27837-76-9
Hylene T Hypalon
39392-92-2 9008-08-6
118606-46-5 57-48-7
Hetron 922 Hetron 980
95507-65-6 113979-69-4
Hypalon 40 Hypochlorite
9008-08-6 14380-61-1
Hetron 99P Hetron FR992
125053-67-0
Hypoch lorous Acid Hypophosphorous Acid
30237-26-4 110-17-8 98-01-1 110-00-9
Hexach lorobenzene
98-00-0
Hexach lorobutadiene
Fyrquel220 Fyrquel GT
55957-10-3 55818-86-5
Gallic Acid Genal 4300 Genetron 11 Genetron 113 Genetron 12 Genetron 22 Genklene
1330-78-5
6164-98-3 149-91-7 108554-70-7 53241-37-5 75-69-4 76-13-1 75-71-8 75-45-6 100919-09-3
Gentian Violet Geon 85856 Geon 8700A
548-62-9 98444-09-8 9002-86-2
G lucon ic Acid
133-42-6 526-95-4 50-99-7
Glucose Glutamic Acid
Hexach loro-1 ,3-Butadiene Hexach loroacetone
98-01-1 26447-28-9
Geloy 1120
Hexach lorobutene Hexach lorocyclohexane Hexach lorocyclopentadiene Hexachloroethane Hexach lorophene Hexadecyl AlcQhol Hexaethyl Tetraphosphate Hexafluoroethane Hexafluoroisopropyl Alcohol Hexafluorouranium Hexafluoroxylen~
Hexaldehyde Hexamethylene Hexamethylene Diammonium Adipate Hexamethylenediamine Hexamethylenetetram ine Hexamethylphosphoric Triam ide
113979-70-7. 87-68-3 116-16-5 118-74-1 87-68-3 56631-01-7 58-89-9
n-47-4 67-72-1 70-30-4 36653-82-4 757-58-4 76-16-4 920-66-1 7783-81-5 26545-61-9 66-25-1 110-82-7 3323-53-3 124-09-4 100-97-0 680-31-9
Iron Ammonium Sulfate
7758-94-3 7720-78-7 7705-08-0 10402-23-0
Iron Chloride
7705-08-0 12040-57-2
Iron Nitrate
14013-86-6 14104-77-9
Iron Perchloride Iron Sulfate Isoamyl Acetate
7705-08-0 10124-49-9 123-92-2
75-28-5 110-19-0
108-10-1 142-92-7
Isobutyl Alcohol
78-83-1 108-83-8
111-27-3
Isobutyl Methyl Ketone Isobutyl Phosphate
56-81-5
Hexyl Alcohol
57-03-4 57-03-4 27082-31-1
Glycidol
556-52-5
Glycine
56-40-6 79-14-1
Hexyl Alcohol {tert-} Hexyl Ether Hexylene Glycol Hexylresorcinol HiFax Hostalen GUR Hostapal
Glycol ic Acid Butyl Ester Glyoxal
7397-62-8 107-22-2
HRSN 8907 Humic Acids
Goodrite K702 Goodrite K732
9003-01-4 9003-01-4
Graphite Green Liquor
7782-42-5 68131-30-6 8026-70-8
HyComp 400 Hydrazine Hydrazine Dihydrochl~ride Hydrazine Hydrate
© Plastics Design Library
Iron (II) Sulfate Iron {III} Chloride
Isobutane Isobutyl Acetate
102-76-1
Heptane (n-)
12298-68-9 75-47-8
544-01-4 2050-09-1
Glycerol Glycerol Triacetate
Heptachlor Heptach lorobutene Heptaldehyde Heptane
Iodine Potassium Iodide Iodoform Iron (II) Chloride
7553-56-2 7783-66-6
Isoamyl Ether Isoamyl Valerate
Hexone Hexyl Acetate
Halothane Halowax 1000 Helium
20461-54-5
592-41-6 25264-93-1
110-94-1 56-81-5
Halar Halar 300 Halar 500
Iodide Iodine Iodine Pentafluoride
Hexene
Glutaric Acid Glycerin
Gum Tragacanth Gypsum
9004-10-8 7782-68-5
56-86-0
81624-06-8
GTX910 Gum Acacia
Insulin lodicAcid
95-13-6 120-72-9
123-51-3 106-27-4
79390-45-7
Green Soap Grilon
Indole
Isoamyl Alcohol Isoamyl Butyrate
111-30-8
Glycolic Acid
14332-09-3 Indene
110-54-3 25323-24-4
6899-05-4
Glycerophosphoric Acid
7790-92-3 6303-21-5
Hexane Hexanetriol
Glutaraldehyde
GIyceryl Phosphate
5470-11-1 10039-54-0
Furoic Acid Fyrquel150
Galecron
7803-49-8
Hydroxylamine Sulfate
Freon TMS
Furfuryl Alcohol
Hydroxyacetic Acid Hydroxylam ine
72146-92-0
Freon TMC
Furfural
Hydrosulfite
Hetron 700C Hetron 72
57762-32-0
Furan
146908-75-0 30944-53-7
123-31-9 14844-07-6 79-14-1
Hydroquinone
Hydroxylam ine Hydrochloride
Freon TM
Furaldehyde (2-)
543-49-7 66525-75-5
10034-85-2 100215-18-7
Hydroiodic Acid Hydrolubric 120B
62229-52-1
76-13-1
Fum aric Acid
111-14-8 111-70-6
Hetron 700
Freon TF
Freon TWD602 Fructose
Heptanoic Acid Heptyl Alcohol
26401-20-7
Isobutyl Ketone
107-41-5
Isobutylene Isobutyraldehyde
136-77-6
Isobutyric Acid
9002-88-4
Isobutyronitrile
112-58-3
9002-88-4 75432-60-9
Isocrotyl Chloride
78-82-0 513-37-1 71000-82-3
Isodecyl Alcohol
1415-93-6
Isododecane
25339-17-7 31807-55-3
5341-61-7 7803-57-8
Isoeugenol Isonel31 Isononyl Alcohol Isooctane
147881-85-4 302-01-2
10217-52-4 10034-85-2
Isooctyl Alcohol
Hydrobrom ic Acid Hydrochloric Acid
10035-10-6 7647-01-0
Isopar G Isopar H
9000-65-1 13397-24-5
Hydrocyanic Acid Hydrofluoric Acid
74-90-8 7664-39-3
569n-47-0
25101-45-5 110872-65-6 110872-65-6 151-67-7
Hydrofluosilicic Acid Hydrogen Hydrogen Bromide Hydrogen Chloride
10035-10-6 7647-01-0
58718-66-4 7440-59-7
Hydrogen Cyanide Hydrogen Fluoride
74-90-8 7664-39-3
76-44-8 116188-72-8 111-71-7 142-82-5
Hydrogen Iodide Hydrogen Peroxide
10034-85-2 7722-84-1 7803-51-2 7783-07-5
Hydrogen Sulfide
79-31-2
Isocyanate
Hydriodic Acid
142-82-5
115-11-7 78-84-2
9002-88-4
25038-54-4 104042-68-4 9000-01-5
Hydrogen Phosphide Hydrogen Selenide
108-10-1 2466-73-1
1333-74-0
7783-06-4
Isopentane Isophorone Isophthalic Acid Isoplast 101 LGF40 Isoplast 201 Isoplast 202 Isoplast 202LGF40 Isopropyl Acetate
97-54-1 111517-73-8 27458-94-2 540-84-1 26635-64-3 26952-21-6 90622-57-4 90622-57-4 78-78-4 78-59-1 121-91-5 146586-22-3 113979-72-9 146586-21-2 146586-23-4 108-21-4
Isopropyl Alcohol Isopropyl Amine
67-63-0 75-31-0
Isopropyl Benzene Isopropyl Chloride
98-82-8 75-29-6
Isopropyl Ether
108-20-3
Freon C318 - Isopropyl Ether
956 CAS Registry Numbers - Chemical Sort
Isopropyl Myristate Isopropyl Nitrate
32849-69-7
110-27-0 1712-64-7
Isopropyl Palmitate
142-91-6
Isopropylacetone
108-10-1
Lead Sulfate
7446-14-2 15739-80-7
Levulinic Acid
123-76-2
Manganese Dioxide
1313-13-9
Manganese Gluconate
6485-39-8
Manganese Hypophosphite Manganese Linoleate
10043-84-2 6904-78-5
Isopropylam ine
75-31-0
Lexan
24936-68-3
Manganese Naphthenate
1336-93-2
Isopropylphenol (0-)
88-69-7
Lexan 100
24936-68-3
Manganese Sulfate
7785-87-7
Isopropylphenol (p-) Isovaleric Acid
99-89-8
Lexan 101
24936-68-3
503-74-2
Lexan 141
24936-68-3
Manganous Chloride
90803-58-0 24936-68-3
Manganous Sulfate
10124-55-7 7773-01-5 7785-87-7
97-65-4
Lexan 153
lupiace AH60
106255-03-2
Lexan 303
lupiace AV60
133136-65-9
Ligroin
8032-32-4
lupital F20-02
105521-79-7
Lime Chloride
7778-54-3
Marlipal MG
9002-92-0
Ixef 1022
117079-63-7
Lime Sulfur
1344-81-6
Marlophen 810
9016-45-9
8002-74-2
Lime water
1305-62-0
Marlophen 83
9016-45-9
Limonene (d-)
5989-27-5
Marlophen 89
Itaconic Acid
Johnsons Wax 111
61789-91-1
Jojoba Oil K Resin KR01
106107-54-4
Lindane
Kadel E-1000 Kadel E-1140
146358-94-3 32033-80-0
Lindol Linoleic Acid
Kalwa" Sunlite KamaxT-150
141615-57-8
Linseed Oil Lithium Bromide
Kamax T-240
143550-29-2
Lithium Carbonate
KamaxT-260
123611-48-3
Lithium Chloride
Kapton HN Kel-F81 Kevlar 29 Kinel
70816-49-8
25036-53-7 9002-83-9 24938-64-5 37265-60-4
Lith ium Chrom ate Lithium Citrate Lithium Hydroxide Lithium Hypochlorite
58-89-9 1330-78-5 60-33-3 8001-26-1 554-13-2 7447-41-8
87-78-5
1490-04-6
27157-85-3 1600-27-7
13840-33-0
Mercuric Cyanide
7774-29-0
13568-33-7
Mercuric Nitrate
10045-94-0
7791-03-9
Mercuric Sulfate
7783-35-9
552-38-5
Mercurochrome
Lithium Perchlorate
52683-10-0
Lithium Salicylate
Kinel5514
52683-11-1
Lithium Sulfate
10377-48-7
10112-91-1
1345-05-7
Kodar6763
25640-14-6
Ulhopone
77323-44-5
Loctite
Korsolin
78244-98-1
Kydex 100
53148-95-1
LPH Lubricomp OCL-4036
146909-05-9
Mercury Mercury (II) Chloride
50-21-5
Lubricomp OFL-4036
146909-06-0
Mercury Chloride
8006-54-0 15972-60-8
53858-53-0 64664-26-2
108-47-4532-27-4
24936-68-3
7789-48-2 546-93-0
Metaldehyde
108-62-3 9002-91-9
Magnesium Bromide Magnesium Carbonate
Lauryl Alcohol
112-53-8
Magnesium Chloride
7786-30-3
Lauryl Chloride
112-52-7
Magnesium Chlorite
17188-11-3
Lauryl Mercaptan
112-55-0
Magnesium Citrate
37273-91-9 18358-13-9 79-41-4
Methacrylate
144-23-0
Methacrylic Acid Methacrylon itrile
126-98-7
Methallyl Ch loride
563-47-3 74-82-8
151-41-7
3344-18-1
8000-28-0 7439-92-1
Magnesium Fluosilicate
7779-25-1 16949-65-8
301-04-2
Magnesium Hydroxide
1309-42-8
Methane Methanesulfonic Acid
75-75-2
Magnesium Iodide
10377-58-9
Methoxychlor
72-43-5
3687-31-8 7645-25-2
Magnesium Nitrate Magnesium Phosphate
10377-60-3
Methoxyethanol (2-) Methoxyethyl Acetate (2-)
7784-40-9
15347-57-6 Lead Arsenate
628-86-4
Mercury Fulminate Merion M60
54-64-8 141-79-7
112-16-3
Lead Acetate
7487-94-7 51312-24-4
Merthiolate Mesityl Oxide
143-07-7
Lead
7487-94-7
2090-64-4 13774-25-9
Lauroyl Chloride
Lauryl Sulfate
10415-75-5 7439-97-6
Mercurous Nitrate
9003-53-6
Lauric Acid
Lavender Oil
129-16-8 7546-30-7
Mercurous Chloride
Korad
Lanolin Lasso
592-04-1
Mercuric Iodide
Lith ium Nitrite
Mace Magnesium Bicarbonate Magnesium Bisulfite
149-30-4
7487-94-7
26140-67-0
63-42-3
68-11-1
Mercaptoacetic Acid Mercaptobenzoth iazole
Mercuric Chloride
52683-08-6
16984-38-6
89-78-1
Menthol
1310-65-2
Kinel5505 Kinel5511
Lactose
30350-73-3
Mercuric Acetate
Kinel5504
Lustrex Lutidine (2,4-)
101-68-8
MOl Menthanol
919-16-4
7790-69-4
138-22-7
9016-45-9 146479-85-8
Mater-Bi
14307-35-8
Lithium Nitrate
Lactic Acid Lactic Acid Butyl Ester
69-65-8
7550-35-8
113552-63-9
Kinel4525
Mannitol
10043-83-1
109-86-4 110-49-6
7487-88-9
Methoxyethyl Oleate
111-10-4
7757-88-2
Methyl Abietate
127-25-3
Methyl Acetate Methyl Acetoacetate
105-45-3
Lead Azide
13424-46-9
Magnesium Sulfate Magnesium Sulfite
Lead Bromide
10031-22-8 12646-11-6
Magnesium Trisilicate
14987-04-3
Magnifloc 837A
75602-80-1
Magnum Makrolon
50641-63-9 24936-68-3
Methyl Acrylate Methyl Acrylic Acid
25510-11-6
Makrolon 2608 Makrolon 2800
24936-68-3 24936-68-3
Methyl Alcohol Methyl Amyl Alcohol
7758-95-4
Makrolon 3200
24936-68-3 121-75-5
Methyl Amyl Ketone
110-43-0
Methyl Anthranilate
134-20-3
13701-91-2 Lead Carbonate
598-63-0 13427-42-4
Lead Chloride
12612-47-4
Malathion
7758-97-6 11119-70-3
Maleic Acid Maleic Anhydride
Lead Linoleate
1309-60-0 16996-51-3
Malic Acid Malonic Acid
Lead Nitrate Lead Oxide
10099-74-8 1309-60-0
Manganese Acetate
Lead Chromate Lead Dioxide
Mandelic Acid
Lead Sulfamate
Isopropyl Myristate - Methyl Chloride
1317-36-8
Manganese Carbonate
1335-25-7 1072-35-1
Manganese Chloride
13767-78-7
Methyl Benzoate Methyl Brom ide
96-33-3 79-41-4 67-56-1 54972-97-3
93-58-3 74-83-9
Methyl Bromoacetate Methyl Butyl Ketone
96-32-2 591-78-6
90-64-2
Methyl Butyrate
638-38-0
Methyl Carbitol
623-42-7 111-77-3
Methyl Carbonate Methyl Cellosolve
616-38-6 109-86-4
6915-15-7 141-82-2
2180-18-9
1314-41-6
Lead Stearate
110-16-7 108-31-6
79-20-9
598-62-9 17375-37-0 7773-01-5
Methyl Cellosolve Acetate
11132-78-8
Methyl Chloride
Methyl Cellulose
110-49-6 9004-67-5 74-87-3
© Plastics Design Library
957 CAS Registry Numbers - Chemical Sort
Methyl Chloroacetate
96-34-4
Methyl Chloroform Methyl Chloroformate Methyl Ch lorom ethyl Ether
71-55-6 79-22-1 107-30-2
Mylar Mylar92A Myristic Acid Naphtha
544-63-8 8030-30-6 91-20-3 25155-19-5
75-05-8 105·34-0
Naphthalene
Methyl Cyanoacetate Methyl Cyclohexanol
25639-42-3
Naphthol (~-)
Methyl Cyanide
Methyl Cyclopentane
1331·22-2 96-37-7
Methyl Ether Methyl Ethyl Ketone Methyl Ethyl Ketone Peroxide
115-10-6 78-93-3 1338-23-4
Methyl Cyclohexanone
Naphthalenesulfonic Acid Naphthylam ine NAS10 NAS30 Neats Foot Oil Neoprene Neoprene W
Methyl Eugenol Methyl Formate
93-15-2 107-31-3
Methyl Glycol
109-86-4
Nickel Acetate Nickel Ammonium Sulfate
Methyl Glycol Acetate
110-49-6
Nickel Chloride
Methyl Hexyl Ketone
111-13-7
Methyl Iodide Methyl Isoamyl Ketone Methyl Isobutyl Carbinol
74-88-4
Nickel Nitrate
110-12-3
Nickel Sulfate
108-11-2 108-10-1 .
Methyl Isobutyl Ketone Methyl Isopropyl Ketone
563-80-4
Methyl Lactate
547-64-8
Methyl Laurate
111-82-0
Methyl Methacrylate
80-62-6
Methyl Naphthalene
1321-94-4
25038-59-9 74913-57-8
Nicotinam ide Nicotinamide Hydrochloride
135-19-3 25168-10-9 25034-86-0
Nutmeg Butter Nutmeg Oil O-Syl Ocenol Octadecane
8007-12-3 8007-12-3 8008-45-5 64726-60-9 143-28-2 593-45-3
Octadecyl Alcohol Octane
112-92-5 111-65-9
Octanoic Acid Octanoyl Chloride
124-07-2 111-64-8
25034-86-0 8002-64-0 69028-37-1
Octene Octyl Acetate
69028-37-1 373-02-4 15699-18-0
Octyl Alcohol Octyl Chloride
111-87-5 111-85-3
7718-54-9
253n-83-7 103-09-3 112-14-1
Octyl Phthalate
117-81-7
37211-05-5 13138-45-9
Octylamine
117-84-0 111-86-4
7786-81-4 15905-81-4
Oleic Acid Olein
25334-23-0
Oleum Oleyl Alcohol
34612-78-7
OS 124
98-92-0
112-80-1 37220-82-9 8014-95-7 143-28-2 31533-76-3
Nicotine
54-11-5
Oxalic Acid
Nicotine Sulfate
65-30-5
Oxygen
144-62-7 7782-44-7
6505-86-8
Ozone
10028-15-6
Methyl Oleate Methyl Phenylacetate
112-62-9 101-41-7
Nicotinic Acid Niter Cake
59-67-6 7681-38-1
Palamoll 644
27084-37-3 24936-97-8
Methyl Propyl Ketone
107-87-9
Nitric Acid
7697-37-2
Methyl Salicylate
119-36-8
Nitric Oxide
10102-43-9
Palatinol A Palatinol AH
117-81-7
Nitrilotriethanol Nitro-2-Methylpropanol (2-)
102-71-6 76-39-1 29757-24-2
Palatinol C Palatinol ON
28553-12-0
Methyl Styrene
Methyl Sulfate Methyl Sulfuric Acid Methyl Tertiary Butyl Ether Methyl Trichlorosilane
98-83-9 1319-73-9 25013-15-4 75-93-4 77-78-1 75-93-4 1634-04-4 75-79-6
Methyl Valerate
624-24-8
Methyl-2-Pentanone (4-)
108-10-1 109-87-5
Methylal Methylaniline
74-89-5 100-61-8
Methyraniline
26915-12-8
Methylam ine
Nitroaniline Nitroaniline (p-) Nitrobenzene Nitrobenzoic Acid Nitrobenzoic Acid (p-) Nitrobutanol (2-) Nitrocellulose Nitroch 10 roform Nitroethane
100-01-6 98-95-3 27178-83-2 62-23-7 609-31-4 9004-70-0 76-06-2 79-24-3
PaJamoll 646
84-66-2 84-74-2
Palatinol M
131-11-3
PalatinolO Palatinol Z
2055-00-7 26761-40-0 8002-75-3 8014-19-5
Palm Oil Palmarosa Oil Palmitic Acid Palmityl Alcohol Paradich lorobenzene Paraform aldehyde
57-10-3 36653-82-4 106-46-7 30525-89-4
Nitrogen Nitrogen Dioxide Nitrogen Monoxide
7727-37-9 10102-44-0
Paraldehyde Parathion
123-63-7 56-38-2
10102-43-9
Pebax 6312
113055-64-4
Pectin
9000-69-5
Penicillin
1406-05-9
Methylbenzene
108-88-3
Nitrogen Oxide
Methylcyclohexane
108-87-2
Nitrogen Peroxide
11104-93-1 10102-44-0
61-33-6
Methylene Blue
61-73-4
Nitrogen Tetraoxide
10544-72-6
Penicillin G
Methylene Brom ide
74-95-3
Nitrogen Tetroxide
10544-72-6
Methylene Chloride
75-09-2
Nitrogen Trifluoride
7783-54-2
Pentachlorobenzam ide Pentachloroethane
Methylene Dianiline
101-77-9
Nitroglycerin
55-63-0
Pentach lorophenol
Methylene Dichloride
75-09-2
Nitroglycerol
55-63-0
Pentaerythritol
87-86-5 115-77-5
Pentaerythritol Tetranitrate Pentafluorophenol
771-61-9
Methylene Iodide Methylformamide
75-11-6 123-39-7
Nitroglycol Nitrophenol
Methylhydrazine
60-34-4
Methylisocyanate
624-83-9
Methylisovalerate Methylpyrrolidone
556-24-1 51013-18-4
Metolachlor
51218-45-2
Metoquinone
622-91-3
Nitromethane Nitrophenol (p-) Nitropropane Nitropropane (2-) Nitrosyl Chloride
628-96-6 75-52-5 25154-55-6 100-02-7 25322-01-4 79-46-9 2696-92-6 7782-78-7 1321-12-6 88-72-2
Molasses Molybdenum Disulfide
68476-78-8 1317-33-5
Nitrosylsulfuric Acid Nitrotoluene Nitrotoluene (0-)
Molybdenum Oxide
1313-27-5 11098-99-0
Nitrous Acid Nitrous Oxide
7782-77-6 10024-97-2
18868-43·4 1313-27-5
Nonane Nonyl Alcohol
111-84-2 143-08-8
Pentane Pentanedione (2,4-) Pentasodium Triphosphate Pentoxol Pentoxone Pentyl Pentanoate Pentylamine Peracetic Acid Perchloric Acid
Molybdic Acid Monofluorodichloromethane
7782-91-4 75-43-4
Noryl Noryl731
52439-05-1 39316-43-3
Perchloryl Fluoride
Mono'f1uorotrich loromethane Morpholine Mowilith
75-69-4 110-91-8 9077-36-5
NorylGFN2 NorylGFN3
53126-04-8 79586-58-6
Perclene Perfluorotriethylamine
Noryl N190 Noryl SE1
64060-06-6 9062-88-8 39316-44-4
Perfluoroxylene Perhydrol Permanganic Acid
MR-13031 Muriatic Acid
26951-08-6 7647-01-0
Mustard
505-60-2
Noryl SE100 Novocain
Mustard Gas
505-60-2
Nujol
© Plastics Design Library
51-05-8 8012-95-1
78-11-5 109-66-0 123-54-6 7758-29-4
253n-72-4
Pentene
Perchloroethane Perchloroethylene Perchloromethylmercaptan
Molybdenum Trioxide
29956-85-2 76-01-7
Persulfuric Acid
141-73-1 107-70-0 2173-56-0 110-58-7 79-21-0 7601-90-3 67-72-1 127-18-4 594-42-3 7616-94-6 127-18-4 359-70-6 27135-80-4 7722-84-1 13465-41-3 7722-86-3 13445-49-3
Methyl Chloroacetate · Persulfuric Acid
958 CAS Registry Numbers - Chemical Sort
Petrolatum
8009-03-8
Potassium Acid Sulfate
Propionitrile
107-12-0
Petrothene
9002-88-4
Potassium Alum
10043-67-1
Propyl Acetate
109-60-4
Potassium Alum inurn Alum
10043-67-1
Propyl Acetate (2-)
108-21-4
Potassium Alum inurn Sulfate
10043-67-1
Propyl Alcohol
15007-61-1
Propyl Alcohol (2-)
Phenacetin Phenol
62-44-2 108-95-2
Phenolsulfonic Acid
1333-39-7
Phenoxyacetic Acid
122-59-8
7646-93-7
Potassium Amyl Xanthate
2720-73-2
Phenoxyethanol (2-)
122-99-6
Potassium Antimonate
1333-78-4
Phenyl Acetate
122-79-2
Potassium Bicarbonate
298-14-6
71-23-8 67-63-0
Propyl Ether
111-43-3
Propyl Formate
110-74-7
Propyl Nitrate
627-13-4 106-36-5
Potassium Bichromate
7778-50-9
Propyl Propionate
92-52-4
Potassium Bifluoride
7789-29-9
Propylam ine
107-10-8
Phenyl Ether
101-84-8
Potassium Bisulfate
7646-93-7
Propylbenzene
103-65-1
Phenylacetic Acid
103-82-2
Potassium Bisulfite
7773-03-7
Propylene
115-07-1
Phenylacetonitrile
140-29-4
Potassium Bitartrate
868-14-4
7631-42-7 Phenyl Benzene
Phenylenediam ine
25265-76-3
Potassium Borate
1332-77-0
Propylene Chloride
78-87-5
Propylene Chlorohydrin
78-89-7
Phenylethanol (2-)
60-12-8
12712-38-8
Propylene Dibrom ide
78-75-1
Phenylethyl Alcohol
60-12-8
126755-38-2
Propylene Dichloride
78-87-5 57-55-6
Phenylethyl Ether
103-73-1
Potassium Bromate
7758-01-2
Propylene Glycol
Phenylhydrazine
100-63-0
Potassium Bromide
7758-02-3
Propylene Glycol Methyl Ether
1320-67-8
Phenylhydrazine Hydroch loride
59-88-1
Potassium Carbonate
Propylene Oxide
75-56-9
Phenylmercuric Acetate
62-38-4
Potassium Chlorate
3811-04-9
Propylene Oxide (1 ,2-)
75-56-9
92-69-3
Potassium Chloride
7447-40-7
Propylhexedrine
Potassium Chromate
7789-00-6
Protargol
Phenylphenol (p-) Phorone
504-20-1
Phosgene
75-44-5
Phosphine
7803-51-2
Potassium Crtrate
12768-82-0 Phosphoric Acid
7664-38-2
Potassium Cyanate
584-08-7
866-83-1
Pseudocum ene
866-84-2
Purifloc C41
101-40-6 9015-51-4 95-63-6 62887-81-4
7778-49-6
Pydraul 115E
66594-32-9
590-28-3
Pydraul50E
66594-31-8
Phosphoric Anhydride
1314-56-3
Pydraul A200
39346-05-9
Phosphoric Trich loride
10025-87-3
Potassium Dichromate
7778-50-9
Pyralene 1498
26914-33-0
Phosphorous Acid
10294-56-1
Potassium Diphosphate
7778-77-0
Pyranol
52673-62-8
13598-36-2
Potassium Ethyl Xanthate
140-89-6
Pyridine
110-86-1
Pyridine Sulfate
543-54-4
Phosphorous Trich loride
7719-12-2
Potassium Cyanide
151-50-8
Potassium Ferricyanide
13746-66-2 13943-58-3
Phthalic Acid
88-99-3
Potassium Ferrocyanide
Phthalic Anhydride
85-44-9
Potassium Fluoride
34114-35-7
7789-23-3
Pyridine Sulfonic Acid
34521-19-2 120-80-9
Phthaloyl Chloride
88-95-9
Potassium Hydroxide
1310-58-3
Pyrocatechol
Picric Acid
88-89-1
Potassium Hypochlorite
7778-66-7
Pyrogallic Acid
Potassium Iodate
7758-05-6
Pyrosulfuric Acid
7783-05-3
7681-11-0
Pyrosulfuryl Chloride
7791-27-7
Pine Oil
8002-09-3
87-66-1
Pine Tar
8011-48-1
Potassium Iodide
Pinene
1330-16-1
Potassium Manganate
10294-64-1
Pyrrole
109-97-7
110-85-0
Potassium Metasilicate
10006-28-7
Pyrrolidone
616-45-5
142-64-3
Potassium Nitrate
7757-79-1
Pyruvic Acid
127-17-3
Potassium Nitrite
7758-09-0
Quinidine
Piperazine Piperazine Hydrochloride
6094-40-2 Piperidine
110-89-4
Plastigen G
53801-28-8
Plastikator 88
14338-82-0
Plastomoll DOA
103-23-1
Potassium Oxalate Potassium Perborate Potassium Perchlorate
Plexiglas V
9011-14-7
Potassium Permanganate
Plexiglas V044
9011-14-7
Potassium Peroxide
Plexiglas V052
9011-14-7
Plexiglas V811
9011-14-7
Plexiglas V920 Plexiglas VM Pluronic Polyacrylam ide Polycast
130-95-0
10043-22-8
Quinine Bisulfate
549-56-4
12653-78-0
Quinine Hydrochloride
7722-64-7
130-89-2 7549-43-1
7778-74-7 Quinine Sulfate
804-63-7 81-64-1
17014-71-0
Quinizarin
Potassium Persulfate
7727-21-1
Quinoline
91-22-5
Potassium Phosphate
7778-53-2
Quinone
106-51-4
16068-46-5
9011-14-7
R 502
39432-81-0 8002-13-9
Potassium Pyrophosphate
7320-34-5
Rapeseed Oil
Potassium Pyrosulfate
7790-62-7
Red Copper Oxide
1317-39-1
9003-05-8
Potassium Silicate
1312-76-1
Red Oil
8002-33-3
9011-14-7
Potassium Silicofluoride
53148-92-8 106392-12-5
27791-72-6
Potassium Sodium Tartrate
68002-84-6
16871-90-2 304-59-6
Reny 1002
119574-49-1
Reny 1022
25805-74-7
25322-68-3
Potassium Stannate
12142-33-5
Polyethylene Glycol Distearate
9005-08-7
Potassium Stearate
593-29-3
Polyethylene Glycol Monolaurate
9004-81-3
Potassium Sulfate
PoIygIyceroI
25618-55-7
Potassium Sulfide
Polypropylene Adipate
25101-03-5
Polyethylene Glycol
56-54-2
Quinine
583-52-8
Resorcin
108-46-3
7778-80-5
Resorcinol
108-46-3
1312-73-8
Rhodium
37248-34-3
Riboflavin
7440-16-6 83-88-5 141-22-0
27941-08-8
Potassium Sulfite
10117-38-1
Ricinoleic Acid
26222-20-8
40968-90-9
Rongalit
149-44-0
333-20-0
Rose Oil
8007-01-0
Polysolvan 0
7397-62-8
Potassium Tartrate Potassium Thiocyanate
Polystyrene
9003-53-6
Potassium Thiosulfate
Polystyrol 168N
9003-53-6
Prevex
112871-57-5
Polyvinyl Acetate
9003-20-7
Prevex PQA
119314-84-0
Polyvinyl Alcohol
9002-89-5
Pro-Fax
9003-07-0
Polyvinyl Ch loride
9002-86-2
Pro-Fax PD-701
9003-07-0
52932-53-3
103-12-8
131274-04-9
Polypropylene Sebacate
Potash
584-08-7 1310-58-3
Potash Alum Potassium Potassium Acetate
Petrolatum - Rynite 555
Prontosil Propadrine
10294-66-3
14838-15-4 74-98-6
Rosin
8050-09-7 85026-55-7
Rouge
1309-37-1
RP 1
7500-55-2
Rulon J RX
81458-53-9 107120-21-8
12136-45-7
Propane
10043-67-1
Propargyl Alcohol
107-19-7
Rynite 530
25038-59-9
Propionaldehyde
123-38-6
Rynite 545
25038-59-9
79-09-4
Rynite 555
25038-59-9
7440-09-7 127-08-2
Propionic Acid
© Plastics Design Library
959 CAS Registry Numbers - Chemical Sort
Rynite 935 Ryton
86338-40-1 25212-74-2
Sodium Aluminum Sulfate Sodium Amalgam
Ryton R-10 7006A Ryton R-4
25212-74-2 25212-74-2
Sodium Antimonate
25212-74-2
Sodium Arsenate
133137-09-4
Sodium Arsenite
Ryton R-8 Ryton S
81-07-2 61840-52-6 12125-02-9 90-02-8 87-17-2 69-72-7
Sodium Sodium Sodium Sodium
Benzoate Bicarbonate Bifluoride Bisulfate
Salicylic Acid Methyl Ester Salicylic Aldehyde Sandalwood Oil SantaI Oil
119-36-8 90-02-8 8006-87-9 8006-87-9
Sodium Sodium Sodium Sodium
Bisulfide Bisulfite Bitartrate Borate
Santicizer 141
1241-94-7
Santicizer 8
8047-99-2
Saccharin Sagrotan Sal Ammoniac Salicylaldehyde Salicylanilide Salicylic Acid
Santicizer B16 Santicizer E15
85-70-1 84-72-0
Santicizer M17 Santoprene 101-55
85-71-2 121273-97-0
Santoprene 101-64 Santoprene 101-73
121273-98-1 121273-99-2
Santoprene 201-55 Santoprene 201-64 Santoprene 201-73 Santoprene 203-50
121274-00-8 124632-34-4
Sassafras Oil Sebacic Acid Sebacic Acid Dibutyl Ester Selar RB Selenic Acid Selenious Acid Selenium Chloride Sesame Oil
123138-94-3 121274-01-9 8006-80-2 111-20-6 109-43-3 119792-38-0 7783-08-6 7783-00-8 10026-03-6 37299-88-0 8008-74-0
Sodium Benzenesulfonate
Sodium Borohydride Sodium Bromate Sodium Brom ide Sodium Butyl Xanthate Sodium Carbonate Sodium Chlorate Sodium Sodium Sodium Sodium Sodium
Chloride Chloride Sulfate Chlorite Chloroacetate Chromate
Sodium Chromate Sodium Citrate Sodium Cyanamide Sodium Cyanate Sodium Cyanide Sodium Diacetate Sodium Diphosphate Sodium Disilicate Sodium Dithionite Sodium Dodecylbenzenesu Ifonate
9000-59-3
Silane Silastic
7803-62-5 63394-02-5
Sodium Ethyl Xanthate
Silicate
12627-13-3
Sodium Ethylate
Silicic Acid
1343-98-2 10193-36-9 7440-21-3 7783-61-1
Sodium Ferrocyanide Sodium Fluoride
39384-00-4 10026-04-7
Silicon Tetrachloride Silicon Tetrafluoride Silicones
7783-61-1 63148-53-8
11112-10-0
Sodium Palmitate
15593-75-6
Sodium Perborate
7631-89-2 7784-46-5
532-32-1 144-55-8 1333-83-1 7681-38-1 16721-80-5 7631-90-5 526-94-3 1333-73-9 16940-66-2 7789-38-0 7647-15-6 141-33-3 497-19-8 7775-09-9 7647-14-5 129195-70-6 7758-19-2 3926-62-3 7775-11-3 12680-48-7 68-04-2 994-36-5 19981-17-0 917-61-3 143-33-9 126-96-5 7722-88-5 13870-28-5 7775-14-6 140-90-9 141-52-6
Sodium Sodium Sodium Sodium Sodium Sodium
1344-09-8 1344-09-8 12058-66-1 7757-82-6
Sesquisilicate Silicate Stannate Sulfate Sulfhydrate Sulfide
16721-80-5 1313-82-2 7757-83-7 540-72-7
Sodium Sulfite Sodium Sulfocyanide Sodium Tartrate
868-18-8 14475-11-7
Sodium Tetraborate Sodium Tetraphosphate Sodium Tetrasulfide
1330-43-4 7727-67-5 12034-39-8 126220-07-3 126220-08-4 126220-09-5 127734-48-9
Sodium Thioarsenate
540-72-7
Sodium Thiocyanate
Sodium Tripolyphosphate
13573-18-7 7758-29-4
Sodium Glutamate
142-47-2 16177-21-2
Sodium Xylene Sulfonate Solvesso 100
Sodium Hexametaphosphate
68915-31-1 7646-69-7 144-55-8
Solvesso 150 Sorbic Acid
Sodium Hydride Sodium Hydrogen Carbonate
Sodium Hydrosu Ifite Sodium Hydroxide
50815-84-4 55962-27-1
Soamol D Soamol DC
25067-34-9 25067-34-9
Sodium Iodide
Soamol DT Soamol E Soamol ET Soda
25067-34-9 128282-74-6 25067-34-9 144-55-8 497-19-8 7542-12-3
© Plastics Design Library
61790-51-0 54-21-7
16893-85-9 141-53-7
Skydrol 500B4 Skydrol LD4
Sodium Sodium Sodium Sodium
Hypochlorite Hypophosphate Hypophosphite Hyposulfite
Lactate Lauryl Sulfate Lignosu Ifonate Metabisulfite
Sodium Metaphosphate
Sodium Sodium Sodium Sodium
Metasilicate Methylate Nitrate Nitrilotriacetate
Sodium Nitrite
1300-72-7 63231-51-6 63231-51-6 110-44-1
Soy Sauce
50-70-4 8031-68-3
7631-90-5 16721-80-5
Soybean Oil Sperm Oil
8001-22-7 8002-24-2
7775-14-6 1310-73-2
Spermaceti
8002-23-1 111-30-8
7681-52-9 15537-82-3 7681-53-0 7772-98-7 7775-14-6 7681-82-5 72-17-3 151-21-3 8061-51-6 7681-57-4 7757-74-6 7785-84-4 10361-03-2 50813-16-6
497-19-8 7440-23-5 127-09-3 7681-38-1 10102-71-3 1302-42-7 11138-49-1
Sodium Resinate Sodium Salicylate
Sodium Fluorosilicate Sodium Formate
Sodium Sodium Sodium Sodium
Acetate Acid Sulfate Alum Alum inate
9003-04-7 7681-57-4
Sodium Polyacrylate Sodium Pyrosulfite
650-51-1 7758-29-4
Sodium Hydrogen Sulfite Sodium Hydrosulfide
Sodium Sodium Sodium Sodium
7632-05-5 12034-30-9
Sodium Phenolate Sodium Phenoxide
Sodium Trichloroacetate Sodium Triphosphate
7783-90-6 7761-88-8
Soda Ash Sodium
Sodium Plumbite
Sodium Perchlorate Sodium Peroxide Sodium Persulfate
13601-19-9 7681-49-4
Silver Chloride Silver Nitrate
120038-15-5 50815-84-4
Sodium Phosphate
4452-58-8 15630-89-4 7601-89-0 1313-60-6 7775-27-1 15593-29-0 28831-12-1 139-02-6 139-02-6 7601-54-9
7772-98-7
7681-38-1
Skydrol500 Skydrol 500B
3313-92-6
Sodium Thiosulfate
Sodium Hydrogen Sulfate
10294-26-5
11138-47-9 Sodium Percarbonate
25155-30-0
563-63-3 7785-23-1
95660-51-8
408-35-5 7632-04-4
13464-37-4 515-42-4
Silver Acetate Silver Bromide
Silver Sulfate Skydrol
143-19-1 62-76-0
Sodium Oleate Sodium Oxalate
13840-56-7
Shellac
Silicon Silicon Fluoride
10102-71-3 11110-52-4
6834-92-0 124-41-4 7631-99-4 10042-84-9 7632-00-0
Sorbitol
Sporicidin SR10 Stannic Chloride Stannic Sulfate
11109-50-5 118478-10-7 7646-78-8 19307-28-9
Stannic Tetrachloride Stannous Bromide
7646-78-8 10031-24-0
Stannous Chloride Stannous Fluoride Stannous Sulfate Stanyl Stanyl TW300 Stearic Acid
7772-99-8 7783-47-3 7488-55-3 50327-22-5 50327-22-5 57-11-4
Stearin Stilbene Strontium Acetate Strontium Brom ide
11099-07-3 588-59-0 543-94-2 10476-81-0
Strontium Carbonate Strontium Chloride
14519-13-2 1633-05-2 10476-85-4
Rynite 935 - Strontium Chloride
960 CAS Registry Numbers - Chemical Sort
Strontium Hydroxide
18480-07-4
Tetrach lorom ethane
56-23-5
Strontium Nitrate
10042-76-9
Tetrach loropentane
12407-98-6
Strontium Salicylate Strychnine
526-26-1 57-24-9
Tetrach lorophenol (2,3,4,6-) Tetrach loropyridine
58-90-2 33752-16-8
Styrene
100-42-5
Styrolux
9003-53-6
Tetrafluoromethane
78-00-2 75-73-0
Styron Styron 484
9003-53-6
Tetrafluoropropanol
28106-65-2
9003-53-6
Tetrahydrofuran
Styron 6850
9003-53-6
Tetrahydrofurfuryl Alcohol
Succinic Acid
110-15-6
Succinon ttrile
110-61-2
Tetraethyllead
119-64-2
Tetralin
119-64-2
57-50-1
Tetramethylammonium Hydroxide
Sugar
57-50-1
Tetram ethyld ihydropyridine
Su Ifadiazine
Sulfinol Sulfolane
68-35-9 5329-14-6 121-57-3 63665-16-7 126-33-0
Tetramethylurea Tetraphosphoric Acid Tetrapotassium Pyrophosphate Tetrasodium Pyrophosphate Texin 480AR
Sulfonyl Chloride
7791-25-5
Textone
Sulfur
7704-34-9
Therminol55
Sulfur Chloride
Sulfur Dichloride
10025-67-9
Therm inol 66
10545-99-0
Thermocomp EF-1006
12771-08-3
Thiodiacetic Acid
10545-99-0 7446-09-5
7758-19-2
79-01-6
Trich lorofluoroethane Trich loro'fluorom ethane
27154-33-2 75-69-4
Trich 10 rom ethane
67-66-3
Trichloron itromethane
76-06-2 25167-82-2
Trich lorophenol Trichlorophenol (2,4,5-) Trichlorophenoxyacetic Acid (2,4,5-) Trich lorophenylsi lane
95-95-4 93-76-5 98-13-5 25735-29-9
Trich loropropane Trichloropropane (1,2,3-)
96-18-4
69522-75-4
Trichloropropene
35175-85-0
54578-28-8
Trich lorotrifluoroethane
26523-64-8
115682-41-2
1330-78-5
Tricresyl Phosphate
123-02-4 102-71-6
Triethanolamine Lauryl Sulfate
139-96-8
7719-09-7
7664-93-9
Th iophosphoryl Ch loride
Sulfuric Anhydride
7446-11-9
Thiourea Thorium Nitrate
110-02-1 3982-91-0 62-56-6 13823-29-5
78-40-0
Triethyl Phosphate
97-93-8
Triethylaluminum Triethylam ine
121-44-8
Triethylborane Triethylene Glycol
97-94-9 112-27-6
Triethylenetetram ine Trifluoroacetic Acid
112-24-3 76-05-1
Thyme Oil Thymol
8007-46-3 89-83-8
2699-79-8
Tin (II) Chloride
7772-99-8
Trifluoroch loroethylene
79-38-9
8001-21-6
Tin Chloride
1344-13-4
Trifluoromethane
75-46-7
7772-99-8
Trifluorotrich loroethane
Tin Tetrach loride
7646-78-8
Trifluorovinylch loride
Sulfurous Acid Sulfuryl Chloride
7782-99-2 7791-25-5
Sulfuryl Fluoride Sunflower Oil Surlyn
9078-96-0
Tall Oil
8002-26-4
Tallow
61789-97-7
12026-28-7
8007-45-2
12738-89-5
Trilene
69912-81-8
TriionA
91722-33-7
Titanium Dioxide
20338-08-3 13463-67-7
101316-83-0
Titanium Sulfate
13693-11-3
Trimethyl Borate
18130-44-4
Trimethyl Propane
87-69-4 26471-62-5
Titanium Tetrachloride TNT
Technyl A 216
32131-17-2
Tobias Acid
Tedlar
24981-14-4
Teflon
9002-84-0
Toluene Toluene Diisocyanate
Teflon 340
9002-84-0
Toluene-2,4-diisocyanate
Teflon FEP
25067-11-2
Toluenesulfonic Acid
Teflon FEP 160
25067-11-2
7550-45-0 118-96-7 81-16-3
64-02-8
Trilon B
121-43-7 38719-68-5 75-50-3
Trimethylam ine Trimethylam ine Hydrochloride
593-81-7 25551-13-7
Trimethylbenzene
56-93-9 100-85-6
584-84-9
Trimethylene Chlorobrom ide
109-70-6
104-15-4
Trimethylolpropane
26471-62-5
25231-46-3
Teflon PFA
26655-00-5
Toluenesulfonic Acid (p-)
104-15-4
Toluenesulfonyl Chloride
98-59-9
Tefzel
26655-00-5 25038-71-5
Tefzel HT2004
56731-13-6
Toluidine Tolylaldehyde
79-01-6 5064-31-3
Trimethylbenzylammonium Hydroxide
108-88-3
Teflon PFA 350
114602-77-6
26523-64-8 79-38-9 1582-09-8
Trifluralin
Titanic Acid
526-83-0
Trimethylbenzylammonium Chloride
77-99-6 29222-48-8
Trimethylpentane
78-42-2
Trioctyl Phosphate
1806-54-8
26763-71-3
Trioxane
110-88-3
26915-12-8 1334-78-7
Triphenyl Phosphate
115-86-6 101-02-0
Tripotassium Phosphate Tripropylene Glycol
24800-44-0 25498-49-1
Tenite 4231
9003-07-0
Tolylene Diisocyanate
Tenite 5020
9010-79-1
Torlon
26471-62-5 61970-49-8
Tenite Butyrate
Trich loroethylene
79-00-5 115-20-8
68-11-1
Sulfuric Acid
Tenite 9902
Trichloroethane (1,1,2-) Trichloroethanol
Thioglycolic Acid ThionYI Chloride
Tellus 33
79-00-5 25323-89-1
Triethanolam ine
Thiophene
TDI
7722-88-5 126041-06-3
71-55-6
75-08-1
7446-11-9
Tartaric Acid
632-22-4 13813-62-2 7320-34-5
120-82-1
Th ioethanol
2551-62-4
Tar
109111-55-9
Trichlorobenzene (1,2,4-) Trich loroethane
Tridecylbenzene
Sulfur Trioxide
60-29-7
75-59-2
76-02-8 12002-48-1
123-93-3
Sulfur Dioxide Su Ifur Hexafluoride
Sulfuric Ether
97-99-4
Tetrahydronaphthalene
Sucrose
Sulfamic Acid Su Ifanil ic Acid
109-99-9
Trichloroacetyl Chloride Trichlorobenzene
Triphenyl Phosphite
25038-59-9
Torlon 4203
27084-44-2
Tripropylene Glycol Methyl Ether
25038-59-9
Torlon 4203L
84683-57-8
Trisodium Phosphate
9004-36-8
Torlon 4275
70896-05-8
Tritium
7778-53-2
7601-54-9 10028-17-8 1330-78-5
100-21-0
Torlon 4301
59030-14-7
Tritolyl Phosphate
Torlon 5030
72993-99-8
Triton
Terpineol
3282-85-7 8000-41-7
Torlon 7130
109191-06-2
9083-53-8 12597-72-7
Terpinyl Acetate Tetra(2-Ethylbutyl) Silicate
8007-35-0 78-13-7
Toyolac 900 TPX Treflan
25053-09-2 25068-26-2
68012-64-6 136753-44-1
Terephthalic Acid Tergitol7
Tetrabrom oethane Tetrabromoethane (1,1,2,2-) Tetrabromomethane Tetrabutyl Titanate Tetrach lorodifluoroethane Tetrach loroethane Tetrachloroethane (1,1,2,2-) Tetrach loroethylene
Strontium Hydroxide - Tungstic Acid
25167-20-8 79-27-6 558-13-4 5593-70-4 28605-74-5 79-34-5 25322-20-7 79-34-5 127-18-4
Triacetin Tribromomethylbenzene Tributyl Citrate
1582-09-8 102-76-1
9002-93-1
Triton X100
25155-23-1
Trixylenyl Phosphate
2489-03-4
Trogamid T
9071-17-4
77-94-1
Trypaflavin
65431-33-6 54-12-6
Tributyl Phosphate
126-73-8
Tryptophan (dl-)
Tributylamine
102-82-9
Tung Oil
8001-20-5
Tributylphosphate Trich loroacetaldehyde
126-73-8 75-87-6
Tungsten Hexafluoride
7783-82-6
Trichloroacetic Acid
76-03-9
Tungstic Acid
1314-35-8 7783-03-1
© Plastics Design Library
961
CAS Registry Numbers - Chemical Sort
24937-16-4
11105-11-6
Vestamid
Turkey Red Oil
8002-33-3
Victrex 220G
27380-27-4
Tween 20
9005-64-5
Victrex 41 OOG
25667-42-9
Tween 80
9005-65-6
Victrex 41 ooP
25667-42-9
Tydex 12
9002-98-6
Vietrex 450G
31694-16-3
Tyril
9003-54-7
Victrex 450GL30
31694-16-3
Tyril1000B
9003-54-7
Victrex 4800G
25667-42-9
Victrex 4800P
25667-42-9
Ucon 50HB100
9038-95-3
Victrex PES 41 OOG
25667-42-9
Ucon 50HB260
9038-95-3
Vidden D
Ucon 50HB5100
9038-95-3
Vinyl Acetate
108-05-4
Ucon 50HB55
9038-95-3
Vinyl Acetylene
689-97-4
Ucon 50HB660
9038-95-3
Vinyl Benzene
100-42-5
Ucon LB1145
9003-13-8
Vinyl Chloride
75-01-4
54847-90-4
Vinyl Fluoride
75-02-5
Tyrosine (dl-)
Udel UDMH Ultem
556-03-6
57-14-7
Vinyl Methacrylate
61128-24-3
Vinyl Toluene
8003-19-8
4245-37-8 25013-15-4 75-35-4
Ultem 1000
61128-24-3
Vinylidene Chloride
Ultraform
58033-98-0
Vinylpyridine
1337-81-1 8024-07-5
UItraform N2320
25214-85-1
Violet Oil
UltramidA
32131-17-2
VitaminC
UltramidA3
32131-17-2
Viton
64706-30-5 74870-00-1
50-81-7
Ultramid A3WG7
32131-17-2
Voranol P 400
Ultramid B
25038-54-4
Walnut Oil
8024-09-7
25038-54-4
Water
7732-18-5
Ultram id B3G
25038-54-4
Water Glass
Ultram id B3G6
25038-54-4
WD40 Whale Oil
Ultramid B3K
25038-54-4
Ultramid B3S
25038-54-4
Whey Wintergreen Oil
1344-09-8 83764-86-7 136202-90-9 92129-90-3 119-36-8
UltramidS
9008-66-6
Ultrason E
25667-42-9
Xenoy 1102
142369-04-8
151127-83-2
Xenoy 6120
112628-05-4
9008-66-6 Ultrason E 2010 Ultrason S
25135-51-7
Ultrawet
37345-43-0
Xenon
XT
7440-63-3
39325-18-3 85389-70-4
Undecyl Alcohol
112-42-5
XT250
Undecylic Acid
112-37-8
XT375
Upilex R
26615-45-2
XTX800RG
Upilex S
32197-39-0
Xydar
Uran
15978-77-5
Xylene
95752-18-4
Xylene (m-)
Uranium
7440-61-1
Xylene (0-)
Uranium Hexa'f1uoride
7783-81-5
Xylenol
55353-89-4 9010-94-0 146105-10-4 31072-56-7 1330-20-7 108-38-3 95-47-6 1300-71-6
Urea
57-13-6
Xylidine
1300-73-8
Uric Acid
69-93-2
Zephiran Chloride
8001-54-5
Urotropin Uvex
100-97-0 9004-36-8
Zerex Zinc
107-21-1 7440-66-6
Valerie Acid
109-52-4
Zinc Acetate
557-34-6
Valine (dl-)
516-06-3
Zinc Brom ide
7699-45-8
Va lox
24968-12-5
Zinc Carbonate
3486-35-9
Valox 325
24968-12-5
Zinc Chloride
7646-85-7
Valox 420
24968-12-5
Zinc Chromate
Valox DR-48
24968-12-5
Zinc Cyanide
Vanadium Oxide
1314-62-1 11099-11-9
Vanadium Pentoxide Vanillin VectraA130
1314-62-1 121-33-5 85797-85-9
Zinc Diethyldithiocarbamate Zinc Dihydrogen Phosphate
13598-37-3 16871-71-9
Zinc Hydrosulfite
7779-86-4
Zinc Naphthenate
12001-85-3
Zinc Nitrate
7779-88-6
Zinc Phenolsu/fonate Zinc Phosphate
7779-90-0
81843-52-9
VectraA625 VectraA950
116440-01-8
Vectra B130
138362-27-3
Zinc Silicofluoride
Vectra B950
116440-02-9
Zinc Stearate
Vectra C130
115453-56-0
VectraC810
144114-03-4
Vectra C950
81843-52-9
Verbena Oil
8024-12-2
Vernam
1929-77-7
Zinc Sulfate Zinc Sulfide Zirconium Nitrate Zytel101 Zytel122L Zytel151 Zyte/151L Zytel158L Zytel408 Zytel 7OG33HRL Zytel 7OG33L Zytel ST 801
Versene Versilube F50
60-00-4 63148-53-8
Vespel
25036-53-7
Vespel SP1
25036-53-7
Vespel SP21
25036-53-7
Vespel SP22
25036-53-7
© Plastics Design Library
557-21-1 14324-55-1
Zinc Fluorosilicate
Vectra A515
81843-52-9
13530-65-9
127-82-2 16871-71-9 557-05-1 7733-02-0 1314-98-3 13746-89-9 32131-17-2 32131-17-2 24936-74-1 24936-74-1 24936-74-1 32131-17-2 32131-17-2 32131-17-2 89127-09-3
Turkey Red Oil - Zytel ST 801
962 CAS Registry Numbers - Numeric Sort
100-01-6
Nitroaniline (p-)
100-02-7
N ~rophenol (p-)
100-07-2
An isoyl Ch loride
100-21-0
Terephthal ic Acid
100-39-0 100-41-4
Benzyl Bromide
101-84-8 10101-53-8
Styrene
10102-43-9 10102-44-0
Benzyl Chloride
100-46-9
Benzylamine
Anethole
104-54-1
Cinnamic Alcohol
Chromic Sulfate
104-55-2
N~ric Oxide Nitrogen Monoxide
10102-71-3
Sodium Alum Sodium Aluminum Sulfate
Cinnamaldehyde Cinnam ic Aldehyde
104-76-7 10402-23-0
Nitrogen Dioxide Nitrogen Peroxide
Vinyl Benzene 100-44-7
104-46-1
Phenyl Ether Chrom ium Sulfate
Ethyl Benzene
100-42-5
Diphenyl Oxide
Ethylhexyl Alcohol (2-) Ammonium Iron Sulfate Iron Ammonium Sulfate
10402-29-6 104042-68-4
Copper N ~rate GTX910
10415-75-5
Mercurous Nitrate Ferric N~rate
100-47-0
Benzonitrile
10103-46-5
Calcium Phosphate
10421-48-4
100-51-6
Benzyl Alcohol
10108-64-2
Cadmium Chloride
104521-01-9
Benzylic Alcohol
10108-73-3
Cerous Nijrate
100-52-7
Benzaldehyde
10112-91-1
Mercurous Chloride
100-61-8
Methylaniline
10117-38-1
Methyl Cyanoacetate
Phenylhydrazine
10118-76-0
Potassium Sulfite Calcium Permanganate
105-34-0
100-63-0
105-36-2
Ethyl Bromoacetate
100-66-3
Anisole
10124-31-9
Am monium Orthophosphate
105-37-3
Ethyl Propionate
100-74-3
Ethylmorpholine
Ammonium Phosphate
105-39-5
Chloroacetic Acid Ethyl Ester
100-85-6
Trimethylbenzylammonium Hydroxide
10124-36-4
Cadm ium Sulfate
100-97-0
Hexam ethylenetetramine
10124-37-5
Calcium Dinitrate
105-45-3
Methyl Acetoacetate Butyl Acetate (sec-) Diethyl Malonate
10006-28-7
10476-81-0 10476-85-4
C-Flex Strontium Bromide Strontium Chloride
Ethyl Ch loroacetate
Urotropin
Calcium Dinitrate
105-46-4
Potassium Metasilicate
Calcium Nitrate
105-53-3
Amyl Nitrate
10124-43-3
Cobaltous Sulfate
105-54-4
Ethyl Butyrate
Hydrolubric 120B
10124-49-9
Iron Sulfate
105-56-6
Ethyl Cyanoacetate
10022-31-8
Barium N~rate
10124-55-7
Diethyl Carbonate
Aluminum Sodium Sulfate
Manganese Sulfate Tar
105-58-8
10024-42-7 10024-97-2
Nitrous Oxide
10137-74-3 10138-04-2
Ammonium Iron Sulfate
10141-00-1
Ferric Ammonium Sulfate Chrome Alum
1002-16-0 100215-18-7
10025-67-9
Sulfur Chloride
10025-73-7 10025-87-3
Chrom ic Chloride Phosphoric Trich loride
101316-83-0
Calcium Ch 10 rate
105-60-2 10544-72-6
Caprolactam Dinitrogen Tetroxide Nijrogen Tetraoxide
10545-99-0
Nitrogen Tetroxide Sulfur Chloride
105521-79-7
Sulfur Dichloride lupital F20-02
10553-31-8
Barium Brom ide
10025-91-9
Antimony Trichloride
10026-03-6
Selenium Chloride
10141-05-6
Chrom ium Potassium Sulfate Cobalt Nijrate
10026-04-7
Silicon Tetrachloride
10192-30-0
Ammonium Bisulfite
10028-15-6
Ozone
10193-36-9
Silicic Acid
106-18-3
10028-17-8
Tritium
10196-04-0
Ammonium Sulfite
106-22-9
C~ronellol
10028-22-5
Ferric Sulfate
102-09-0
Diphenylcarbonate
106-27-4
Isoamyl Butyrate
10031-22-8
Lead Bromide
102-71-6
10031-24-0
Stannous Brom ide Hydriodic Acid
Nitrilotriethanol Triethanolam ine
10034-85-2
102-76-1
Hydrogen Iodide Hydroiodic Acid
102-82-9
Butyl Laurate
106-31-0
Butyric Anhydride Propyl Propionate
Glycerol Triacetate
106-36-5 106-37-6
Dibromobenzene (p-)
Triacetin
106-43-4
Chlorotoluene (p-)
Tributylamine
106-44-5
Cresol (p-)
106-46-7
Dichlorobenzene (1.4-) Dichlorobenzene (p-)
10035-10-6
Hydrobrom ic Acid Hydrogen Brom ide
10257-55-3
Hydrazine Hydrate Calcium Sulme
10039-54-0
Hydroxylamine Sulfate
10279-63-7
Chrom ium Potassium Sulfate
10042-76-9
Strontium N~rate
10294-26-5
Silver Sulfate
106-48-9
Chlorophenol (p-)
10042-84-9 10043-01-3
Sodium Nitrilotriacetate Alum
10294-33-4
Boron Tribromide
10294-34-5
Boron Trich loride
106-51-4 106-89-8
Epichlorohydrin
106-93-4
Dibromoethane (1.2-)
10043-22-8
10217-52-4
Paradichlorobenzene Quinone
Alum inum Alum
10294-56-1
Phosphorous Acid
Aluminum Sulfate
10294-64-1
Potassium Manganate
Ethylene Bromide
Potassium Oxalate
10294-66-3
Potassium Thiosulfate
Ethylene Dibromide
10043-35-3
Boric Acid
103-09-3
Octyl Acetate
106-97-8
Butane
10043-52-4
Calcium Chloride Alum
103-12-8
Prontosil
106-99-0
Butadiene (1.3-)
103-23-1
Ethylhexyl Adipate (Di-2-)
10043-67-1
Aluminum Potassium Sulfate Potash Alum
Butadiene
Dioctyl Adipate Plastomoll DOA
106107-54-4
K Resin KR01
106255-03-2
Dibenzyl
106392-12-5
lupiace AH60 Pluronic
Potassium Alum
103-29-7
Potassium Alum inum Alum
103-33-3
Azobenzene
Potassium Aluminum Sulfate
103-50-4
Benzyl Ether Dibenzyl Ether
1066-33-7 107-02-8
Ammonium Bicarbonate Ammonium Hydrogen Carbonate Acrolein
10043-83-1
Magnesium Phosphate
10043-84-2
Manganese Hypophosph~e
103-65-1
Propylbenzene
107-05-1
Allyl Chloride
10045-86-0
Ferric Phosphate
103-69-5
Ethylaniline
107-06-2
Dichloroethane (1.2-)
Ammonium Iron Sulfate
103-73-1
Ferrous Ammonium Sulfate
103-82-2
Phenylethyl Ether Phenylacetic Acid
10045-89-3
Ethylene Chloride Ethylene Dichloride
10045-94-0
Mercuric Nitrate
107-07-3
Chloroethanol (2-)
10049-04-4
Chlorine Dioxide
10325-94-7
Cadmium Nitrate
Ch loroethanol
Genklene
10361-03-2
103-84-4
Acetanilide
Lead Nitrate
10361-37-2
Sodium Metaphosphate Barium Chloride
107-10-8
Ethylene Chlorohydrin Propylam ine
101-02-0
Triphenyl Phosphite
10361-44-1
Bismuth Nijrate
107-12-0
Propionitrile
101-40-6
Propylhexedrine
10361-65-6
Ammonium Phosphate
107-13-1
Acrylonijrile
101-41-7
Methyl Phenylacetate
10377-48-7
Lithium Sulfate
107-15-3
Magnesium Iodide Magnesium Nijrate
Diaminoethane (1.2-) Ethylenediam ine
100919-09-3 10099-74-8
101-68-8
MDI
10377-58-9
101-77-9
Methylene Dianiline
10377-60-3
101-83-7
Dicyclohexylamine
101-84-8
Diphenyl Ether
100-01-6 to 107-20-0
104-15-4
Allyl Alcohol
Toluenesulfonic Acid (p-)
107-18-6 107-19-7
Propargyl Alcohol
Toluenesu Ifonic Acid
107-20-0
Ch loroacetaldehyde
© Plastics Design Library
963 CAS Registry Numbers - Numeric Sort
107-21-1
Ethylene Glycol
109-89-7
Diethylamine
111-64-8
Zerex
109-94-4
Ethyl Formate
111-65-9
Octane
107-22-2
Glyoxal
109-95-5
Ethyl Nitrite
111-70-6
Heptyl Alcohol
107-30-2
Chloromethyl Methyl Ether
109-97-7
Pyrrole
111-71-7
Heptaldehyde
Methyl Chloromethyl Ether
109-99-9
Tetrahydrofuran
111-76-2
Butoxyethanol (2-)
Octanoyl Chloride
107-31-3
Methyl Formate
109111-55-9
Tetramethyldihydropyridine
107-41-5
Hexylene Glycol
109191-06-2
Torlon 7130
Butyl Glycol
107-70-0
Pentoxone
Furan
DowanolEB
107-87-9
Methyl Propyl Ketone
110-02-1
Thiophene
Ektasolve EB
107-88-0
Butanediol (1,3-)
110-05-4
di-tert-Butyl Peroxide
Ethylene Glycol Butyl Ether
110-00-9
Butyl Cellosolve
Butylene Glycol
110-12-3
Methyl Isoamyl Ketone
107-92-6
Butyric Acid
110-15-6
Succinic Acid
Ektasolve OM
107-98-2
Dowtherm 209
110-16-7
Maleic Acid
Methyl Carbitol
107120-21-8
111-77-3
Diethylene Glycol Methyl Ether
RX
110-17-8
Fumaric Acid
111-82-0
1072-35-1
Lead Stearate
110-19-0
111-84-2
Nonane
1072-53-3
Ethylene Sulfate
110-27-0
Isobutyl Acetate Isopropyl Myristate
111-85-3
Octyl Chloride
108-05-4
Vinyl Acetate
110-40-7
Diethyl Sebacate
111-86-4
Octylamine
108-10-1
Methyl-2-Pentanone (4-)
110-43-0
Methyl Amyl Ketone
111-87-5
Octyl Alcohol
111-90-0
Methyl Laurate
Hexone
110-44-1
Sorbic Acid
Isobutyl Methyl Ketone
110-46-3
Amyl Nitrite
Diethylene Glycol Ethyl Ether
Isopropylacetone
110-49-6
Methoxyethyl Acetate (2-)
Ektasolve DE
Carbitol
Methyl Isobutyl Ketone
Methyl Cellosolve Acetate
108-11-2
Methyl Isobutyl Carbinol
Methyl Glycol Acetate
108-20-3
Diisopropyl Ether
110-54-3
Hexane
Isopropyl Ether
110-58-7
Pentylamine
11104-93-1
Nitrogen Oxide
Propyl Acetate (2-)
110-61-2
Succinonitrile
11105-11-6
Tungstic Acid
Isopropyl Acetate
110-63-4
Butanediol (1,4-)
11109-50-5
108-21-4 108-24-7
Acetic Anhydride
Butylene Glycol
Ethyl Digol 111-92-2 111-96-6
Dibutylamine Diglyme
SR10
1111-74-6
Dimethylsilane
1111-78-0
Ammonium Carbamate
108-31-6
Maleic Anhydride
110-65-6
Butynediol
108-38-3
Xylene (m-)
110-66-7
Amyl Mercaptan
11110-52-4
Sodium Amalgam
108-39-4
Cresol (m-)
110-74-7
Propyl Formate
11112-10-0
Sodium Antimonate
Resorcin
110-80-5
108-46-3
Resorcinol
Cellosolve
11113-50-1
Boric Acid
Ektasolve EE
11113-59-0
Copper Fluoride Lead Chromate
108-47-4
Lutidine (2,4-)
Ethyl Cellosolve
11119-70-3
108-62-3
Metaldehyde
Ethylene Glycol Ethyl Ether
11129-13-8
Boron Hydride
108-77-0 108-82-7
Cyanuric Chloride Dimethyl-4-Heptanol (2,6-)
110-82-7
Cyclohexane Hexam ethylene
1113-38-8 11132-78-8
Ammonium Oxalate Manganese Chloride
Diisobutylcarbinol
110-83-8
Cyclohexene
11138-47-9
Sodium Perborate
108-83-8
Dimethyl-4-Heptanone (2,6-)
110-85-0
Piperazine
11138-49-1
Sodium Aluminate Ammonium Tungstate
Diisobutyl Ketone
110-86-1
Pyridine
11140-77-5
Isobutyl Ketone
110-88-3
Trioxane
111517-73-8
Isonel31
108-86-1
Bromobenzene
110-89-4
Piperidine
111744-64-0
Derakane 8084
108-87-2
Methylcyclohexane
110-91-8
Morpholine
112-07-2
108-88-3
Methylbenzene
110-94-1
Glutaric Acid
112-14-1
Oetyl Acetate
Toluene
110-97-4
Diisopropanolamine
112-15-2
Carbitol Acetate
Butyl Cellosolve Acetate
108-90-7
Chlorobenzene
110-99-6
Diglycolic Acid
112-16-3
Lauroyl Chloride
108-91-8
Cyclohexylam ine
11069-19-5
Dichlorobutene
112-24-3
Triethylenetetram ine
108-93-0
Cyclohexyl Alcohol
11070-67-0
Butynediol
112-27-6
Triethylene Glycol
108-94-1
Anon
110872-65-6
Halar 300
112-30-1
Decyl Alcohol
Halar 500
112-34-5
Butoxyethoxyethanol (2,2-)
Cyclohexanone 108-95-2
Carbolic Acid
11096-82-5
Aroclor 1260
Butyl Carbitol
Phenol
11096-99-4
Clophen A60
Diethylene Glycol Butyl Ether
108554-70-7
Geloy 1120
11097-69-1
Aroclor 1254
Dowanol DB
108771-80-8
Barex210
11098-84-3
Ammonium Molybdate
Ektasolve DB
109-21-7
Butyl Butyrate
11098-99-0
Molybdenum Oxide
112-36-7
109-43-3
Dibutyl Sebacate
11099-06-2
Ethyl Silicate
112-37-8
Undecylic Acid
Sebacic Acid Dibutyl Ester
11099-07-3
Stearin
112-42-5
Undecyl Alcohol
109-52-4
Valeric Acid
109-60-4
Propyl Acetate
109-65-9 109-66-0 109-69-3
Diethyl Carbitol
Vanadium Oxide
112-52-7
Laury! Ch Ioride
111-10-4
Methoxyethyl Oleate
112-53-8
Dodecyl Alcohol
Butyl Bromide
111-13-7
Methyl Hexyl Ketone
Pentane
111-14-8
Heptanoic Acid
112-55-0
Lauryl Mercaptan
Butyl Chloride
111-15-9
Ethoxyethyl Acetate (2-)
112-58-3
Hexyl Ether
Cellosolve Acetate
112-62-9
Methyl Oleate
11099-11-9
Chlorobutane
Lauryl Alcohol
109-70-6
Trimethylene Chlorobromide
111-20-6
Sebacic Acid
112-80-1
Oleic Acid
109-73-9
Butylamine
111-27-3
Hexyl Alcohol
112-86-7
Erucic Acid
109-78-4
Ethylene Cyanohydrin
111-30-8
112-92-5
Octadecyl Alcohol
109-79-5
Butanethiol
Glutaraldehyde
Butyl Mercaptan
Sporicidin
112098-60-9
Aktivin
111-40-0
Diethylenetriamine
112628-05-4
Xenoy6120
Ektasolve EM
111-42-2
Diethanolamine
112871-57-5
Prevex
Ethylene Glycol Methyl Ether
111-43-3
Propyl Ether
113055-64-4
Pebax 6312
Methyl Cellosolve
111-46-6
Diethylene Glycol
113552-63-9
Kinel4525
Methyl Glycol
111-61-5
Ethyl Stearate
113979-69-4
Hetron 980
Methylal
111-62-6
Ethyl Oleate
113979-70-7
Hetron FR992
109-86-4
Methoxyethanol (2-)
109-87-5
© Plastics Design Library
Cidex 7
1120-48-5
Dioctylamine
107·21·1 to 113979·70·7
964 CAS Registry Numbers - Numeric Sort
113979-72-9
Isoplast 201
12124-97-9
Ammonium Bromide
126-99-8
114602-77-6
Tellus 33
12124-99-1
Ammonium Bisulfide
126039-37-0
Delrin 500F
Ammonium Hydrosulfide
126041-06-3
Texin 480AR
Ch loroprene
115-07-1
Propylene
115-10-6
Dimethyl Ether
12125-01-8
Ammonium Fluoride
12612-47-4
Methyl Ether
12125-02-9
Ammonium Chloride
126220-07-3
Sal Ammoniac
126220-08-4
Sodium Thioarsenate
Santoprene 101-55
126220-09-5
Sodium Thioarsenate
Lead Chloride Sodium Thioarsenate
115-11-7
Isobutylene
115-20-8
Trichloroethanol
121273-97-0
115-25-3
Freon C318
121273-98-1
Santoprene 101-64
12626-49-2
115-77-5
Pentaerythritol
121273-99-2
Santoprene 101-73
12627-13-3
Silicate
115-86-6
Triphenyl Phosphate
121274-00-8 121274-01-9
Santoprene 201-55
12642-23-8
Aroclor 5442
115453-56-0
VectraC130
115682-41-2
Thermocomp EF-1006
Santoprene 203-50
12646-11-6
Lead Bromide
12133-28-7
Calcium Hydrosulfide
12653-78-0
Potassium Perborate
116-09-6
Acetol
12135-76-1
Ammonium Sulfide
116-16-5
Hexach loroacetone
12136-45-7
Potash
116-54-1
Dichloroacetic Acid Methyl Ester
12142-33-5
Potassium Stannate
Sodium Chromate Potassium Acetate
122-39-4
Diphenylam ine
127-09-3
Sodium Acetate
122-40-7
Amyl Cinnamaldehyde
127-17-3
Pyruvic Acid
bis(2-Ethylhexyl) Phthalate
122-59-8
Phenoxyacetic Acid
127-18-4
Perchloroethylene
Diisooctyl Phthalate
122-62-3
122-03-2
116440-01-8
Vectra A625
116440-02-9
Vectra B950
Dioctyl Phthalate Octyl Phthalate
122-79-2
Palatinol AH
122-99-6
Dioctyl Phthalate Octyl Phthalate Ixef 1022
Diethylhexyl Sebacate (2-)
Perclene
Bis(2-Ethylhexyl) Sebacate
Tetrach loroethylene
Dioctyl Sebacate
DOP
117079-63-7
12680-48-7
Aroclor 1248 Potassium Borate
127-08-2
Heptachlorobutene
117-84-0
12672-29-6 126755-38-2
Cumaldehyde
116188-72-8
117-81-7
Dowfax2A1
122782-45-0 12298-68-9
127-19-5
Dimethylacetam ide Dimethyl Acetamide (N,N-)
Phenyl Acetate
Methyl Abietate
Phenoxyethanol (2-)
127-25-3
Ethylene Glycol Phenyl Ether
127-65-1
Aktivin
Arcel
127-82-2
Zinc Phenolsulfonate
Iodine Potassium Iodide
127-83-3
Calcium Phenolsulfonate
118-58-1
Benzyl Salicylate
123-01-3
Dodecylbenzene
12712-38-8
Potassium Borate
118-61-6
Ethyl Salicylate
123-02-4
Tridecylbenzene
12738-89-5
Titanic Acid
118-74-1
Hexach lorobenzene
123-31-9
Hydroquinone
12768-82-0
118-92-3
Anthranilic Acid TNT
123-38-6
Propionaldehyde
123-39-7
Methylform amide
12771-08-3 127734-48-9
Copper Carbonate
123-42-2
Diacetone Alcohol
12777-38-7
SR10
123-51-3
Isoamyl Alcohol
Freon TWD602
123-54-6
Pentanedione (2,4-)
12789-03-6
Chlordane
12789-46-7
Amyl Acid Phosphate
Salicylic Acid Methyl Ester
123-63-7
Acetylacetone Paraldehyde
128-37-0
Wintergreen Oil
123-72-8
ButylaIdehyde
128282-74-6
Butyraldehyde
129-16-8 129195-70-6
118-96-7 1184-64-1 118478-10-7 118606-46-5 119-36-8
119-53-9
Methyl Salicylate
Benzoin
127795-79-3
119-61-9
Benzophenone
123-76-2
Levulinic Acid
119-64-2
Tetrahydronaphthalene
123-79-5
Dioctyl Adipate
130-89-2
Tetralin
123-86-4
Acetic Acid Butyl Ester
130-95-0
Soarnol E Mercurochrome Sodium Chloride Sulfate Quinine Hydrochloride Quinine
Dioxane (1,4-)
1300-41-0
Calcium Phenolsu Ifonate
Dioxane
1300-64-7
Anisoyl Chloride
Dioxane (p-)
1300-71-6
Xylenol
123-92-2
Isoamyl Acetate
1300-72-7
Sodium Xylene Sulfonate
Dimethyl Terephthalate
123-93-3
Thiodiacetic Acid
Indole
123-95-5
Butyl Stearate
119574-49-1
Reny 1002
119792-38-0
Selar RB
120-12-7
Anthracene
120-51-4
Benzyl Benzoate
120-61-6 120-72-9
Butyl Acetate 123-91-1
Catechol
123138-94-3
Santoprene 201-73
Pyrocatechol
123611-48-3
KamaxT-260
1300-73-8
Copper Gluconate
1302-42-7
Sodium Aluminate
130213-40-0
124-04-9
Adipic Acid
1303-33-9 1303-86-2
Cyclopentanone
124-05-0
Ethylene Chloroformate
Zinc Naphthenate
124-07-2
Caprylic Acid
12002-48-1
Trich lorobenzene
Xylidine
13005-35-1
Trichlorobenzene (1,2,4-)
12001-85-3
120-92-3
Butylated Hydroxytoluene
Dichloroethane
Prevex PQA
120-82-1
Arsenic Oxide Ammonium Arsenate
1300-21-6
119314-84-0
120-80-9
Phosphine Sulfur Chloride Sodium Thioarsenate
Calibre 302-6 Arsen ic Trisu Ifide Boric Oxide Boron Trioxide
Octanoic Acid
1304-28-5
Barium Oxide
120038-15-5
Skydrol500
124-09-4
Hexam ethylenediam ine
1304-29-6
Barium Peroxide
120249-93-6
Alcryn ALR-6386
124-17-4
Butyl Carb~ol Acetate
1304-56-9
Beryllium Oxide
120249-94-7
Alcryn ALR-6387
124-18-5
Decane
1304-85-4
Bism uth Subn~rate
12026-28-7
Titanic Acid
124-38-9
Carbon Dioxide
1305-62-0
Calcium Hydroxide
12027-06-4
Ammonium Iodide Fortron
124-40-3
Dimethylamine
124-41-4
Sodium Methylate
1305-78-8
Calcium Oxide
124-73-2
Calcium Peroxide
120299-91-4 12034-30-9
Sodium Plurnbite
12034-39-8
Sodium Tetrasulfide
12040-57-2
Iron Chloride
12058-66-1
Sodium Stannate
12063-27-3
Ferric Sulfide
121-33-5
Vanillin
121-43-7
Trimethyl Borate
121-44-8
Triethylamine
Freon 114B2
1305-79-9
Tetrach loropentane
1306-19-0
Cadm ium Oxide
Santicizer 141
1306-23-6
Cadmium Sulfide
124632-34-4
Santoprene 201-64
1308-14-1
Chromic Hydroxide
125053-40-9
Ecolan
1308-38-9
Chrom ic Oxide
125053-67-0
Hetron 99P
1309-33-7
Ferric Hydroxide
125544-53-8
Calcium Hydride
1309-37-1
Rouge
Triton
1309-42-8
Magnesium Hydroxide
1309-60-0
Lead Dioxide
Tributylphosphate
1309-64-4
Antimony Trioxide
131-11-3
12407-98-6 1241-94-7
12597-72-7
121-57-3
Sulfanilic Acid
126-33-0
Sulfolane
121-69-7
Dimethylaniline
126-73-8
Tributyl Phosphate
Dimethylaniline (N,N-) 121-75-5
Malathion
126-96-5
Sodium Diacetate
121-91-5
Isophthalic Acid
126-98-7
Methacrylon itrile
113979-72-9 to 131-11-3
Lime Water
Lead Oxide Dimethyl Phthalate Palatinol M
© Plastics Design Library
965 CAS Registry Numbers - Numeric Sort
1333-78-4 1333-82-0
Potassium Antimonate Chromic Anhydride
Diallyl Phthalate Amyl Phthalate Diamyl Phthalate Dowicide G
1333-83-1
131-74-8 1310-58-3
Ammonium Picrate Caustic Potash
1334-78-7 1335-25-7
Sodium Bifluoride Tolylaldehyde Lead Oxide
Potash
1336-21-6 1336-93-2
Ammonium Hydroxide Manganese Naphthenate
1310-65-2 1310-73-2
Potassium Hydroxide Lithium Hydroxide Caustic Soda
1337-81-1 1338-02-9
Vinylpyridine Copper Naphthenate
Sodium Hydroxide Ammonium Molybdate
1338-23-4 13397-24-5
131-17-9 131-18-0 131-52-2
13106-76-8 1312-73-8 1312-76-1 131274-04-9
Potassium Sulfide Potassium Silicate RP1
1313-13-9
Manganese Dioxide
1313-27-5
Molybdenum Oxide Molybdenum Trioxide
1313-60-6 1313-82-2
Sodium Peroxide Sodium Sulfide Nickel Nitrate Tungstic Acid Lead Oxide
13138-45-9 1314-35-8 1314-41-6 1314-56-3 1314-62-1
Phosphoric Anhydride Vanadium Oxide Vanadium Pentoxide Zinc Sulfide
13823-29-5 13825-86-0
Chrom ium Trioxide
134-20-3 134-72-5 134-81-6 134010-07-4 1341-24-8 1341-49-7 13424-46-9 13427-42-4 1343-98-2 1344-09-8
1344-13-4
Methyl Ethyl Ketone Peroxide Gypsum Methyl Anthranilate Ephedrine Sulfate Benzil
138362-27-3 13840-33-0 13840-56-7 13843-59-9 13870-28-5 139-02-6 139-12-8 139-96-8 13943-58-3 13952-84-6
Thorium Nitrate Chrom ium Sulfate Chromous Sulfate Vectra B130 Lithium Hypochlorite Sodium Borate Ammonium Bromate Sodium Disilicate Sodium Phenolate Sodium Phenoxide Aluminum Acetate Triethanolamine Lauryl Sulfate Potassium Ferrocyanide Butylamine (sec-)
Askarel
140-04-5 140-11-4
Butyl Acetyl Ricinoleate Benzyl Acetate
Ch loroacetophenone Ammonium BifJuoride
140-29-4 140-88-5
Phenylacetonitrile Acrylic Acid Ethy.I Ester
Ammonium Hydrogen Fluoride Lead Azide
140-89-6
Potassium Ethyl Xanthate Sodium Ethyl Xanthate Ferrous Nitrate Iron Nitrate Ferric Ferrocyanide
Lead Carbonate Silicic Acid Sodium Sesquisilicate Sodium Silicate Water Glass Tin Chloride
Ethyl Acrylate 140-90-9 14013-86-6 14038-43-8 1406-05-9 141-04-8
Penicillin Diisobutyl Adipate Diethylmaleate Ricinoleic Acid Butyl Acrylate
1344-28-1 1344-67-8 1344-70-3 1344-81-6
Aluminum Oxide Copper Chloride
141-05-9 141-22-0
Copper Oxide Lime Sulfur Calcium Silicate
Cuprous Oxide
1344-95-2 13445-49-3
141-32-2 141-33-3 141-43-5
Red Copper Oxide Methyl Styrene Butanetriol Cresol Cresylic Acid Dowicide Diphenylene Oxide
13446-46-3 13446-48-5 1345-05-7 13463-67-7 13464-37-4 13465-41-3 13473-90-0
Ammonium Metaphosphate Am monium Nitrite Lithopone
141-52-6 141-53-7 141-73-1
Titanium Dioxide Sodium Arsenite Perm angan ic Acid Aluminum Nitrate
141-75-3 141-78-6
1320-27-0 1320-31-6
Amyl Naphthalene Amyl Chloronaphthalene
13477-00-4
Barium Chlorate
141-82-2
Malonic Acid
Naphthol (P-)
141-97-9
1320-37-2
Dich lorotetrafluoroethane Difluoroethylene Dowanol PM
Ethyl Acetoacetate Iron Nitrate Aloin
1314-98-3 1317-33-5 1317-36-8 1317-38-0 1317-39-1
Molybdenum Disulfide Lead Oxide Copper Oxide Copper Oxide
1319-73-9 1319-74-0 1319-77-3 132-27-4 132-64-9
1320-41-8 1320-67-8
Propylene Glycol Methyl Ether 1321-11-5 1321-12-6
Am inobenzoic Acid Nitrotoluene
1321-23-9 1321-74-0
Chloroxylenol Divinylbenzene
1321-94-4
Methyl Naphthalene Amyl Phenol
1322-06-1 1322-51-6 1327-41-9 1327-53-3 13283-31-3 133-42-6 1330-16-1 1330-20-7 1330-43-4 1330-78-5
Benzyl Phenol Aluminum Chlorohydrate Alum inurn Oxychloride Arsenic Trioxide Boron Hydride Gluconic Acid Pinene Xylene
133136-65-9 133137-09-4 1332-77-0 1332-82-7 1333-39-7 1333-73-9
13510-49-1
Beryllium Sulfate
13530-65-9 13530-68-2
Zinc Chromate Chromic Acid
13537-32-1 13548-38-4 13568-33-7
Fluorophosphoric Acid Chromium Nitrate Lithium Nitrite
13573-18-7
Sodium Triphosphate
13598-36-2 13598-37-3
Phosphorous Acid Zinc Dihydrogen Phosphate
136-52-7 136-60-7 136-77-6 13601-19-9 136202-90-9 136753-44-1 13693-11-3 136958-86-6
Cobalt Octoate Butyl Benzoate Hexylresorcinol Sodium Ferrocyanide Whale Oil Triton Titanium Sulfate Bayblend T-85MN
137-05-3 137-09-7 13701-91-2
Eastman 910 Am idol Lead Bromide
Lindol Tricresyl Phosphate Tritolyl Phosphate Boron Phosphate
13718-50-8 13746-66-2
Barium Iodide Potassium Ferricyanide Zirconium Nitrate Calcium Chromate
Methyl Cyclohexanone Chloroethylbenzene lupiace AV60 Ryton S
13767-78-7 13770-92-8 13774-25-9 13780-03-5 13780-06-8 138-22-7
Sodium Tetraborate Fyrquel150
13308-51-5 1331-22-2 1331-31-3
135-19-3
Persulfuric Acid
1333-74-0
© Plastics Design Library
Potassium Borate Cobalt Chloride Phenolsulfonic Acid Sodium Borate Hydrogen
13746-89-9 13765-19-0
138-86-3 13813-62-2
Lead Sulfamate Calcium Sulfamate Magnesium Bisulfite Calcium Bisulfite Calcium Nitrite Butyl Lactate Lactic Acid Butyl Ester Dipentene Tetraphosphoric Acid
141-79-7
14104-77-9 1415-73-2 1415-93-6 141615-57-8 142-04-1 142-47-2
Sodium Butyl Xanthate Am inoethanol (2-) Ethanolam ine Sodium Ethylate Sodium Formate Pentoxol Butyryl Ch loride Acetic Acid Ethyl Ester Ethyl Acetate MesitylOxide
Humic Acids KamaxT-150 Aniline Hydrochloride Sodium Glutamate
142-62-1 142-64-3
Caproic Acid Piperazine Hydrochloride
142-71-2 142-77-8
Copper Acetate Butyl Oleate
142-82-5
Heptane Heptane (n-)
142-91-6 142-92-7 142-96-1
143-19-1 143-28-2
Isopropyl Palmitate Hexyl Acetate Butyl Ether Dibutyl Ether Cobalt Nitrate Xenoy 1102 Lauric Acid Nonyl Alcohol Sodium Oleate Ocenol
143-33-9
Oleyl Alcohol Sodium Cyanide
14216-74-1 142369-04-8 143-07-7 143-08-8
14307-35-8 14307-43-8 14324-55-1 14332-09-3 14338-82-0 143550-29-2 14380-61-1 144-23-0 144-55-8
Lithium Chromate Ammonium Tartrate Zinc Diethyldith iocarbamate Hypophosphorous Acid Plastikator 88 KamaxT-240 Hypochlorite Magnesium Citrate Soda
131-17-9 to 144-55-8
966 CAS Registry Numbers - Numeric Sort
144-55-8 144-62-7 144114-03-4 14475-11-7 14489-25-9 14519-13-2 145269-10-9 146105-10-4 146358-94-3 146479-85-8 146586-21-2 146586-22-3 146586-23-4 146701-81-7 146908-75-0 146909-05-9 146909-06-0 14727-56-1 14751-87-2 147881-85-4 14798-03-9 14838-15-4 14844-07-6 149-30-4 149-44-0 149-91-7 1490-04-6 149315-46-8 149315-47-9 14977-61-8 14987-04-3 149983-93-7 150-13-0 15007-61-1 15096-52-3 151-21-3 151-41-7 151-50-8 151-56-4 151-67-7 151127-83-2 15181-46-1 15347-57-6 154-23-4 15477-33-5 15537-82-3 15593-29-0 15593-75-6 156-62-7 15630-89-4 15699-18-0 15710-63-1 15739-80-7 1582-09-8 15855-70-6 15890-18-3 15905-81-4 1592-23-0 15972-60-8 15978-77-5 1600-27-7 16068-46-5 16177-21-2 1633-05-2 1634-04-4 1640-89-7 16508-95-5 16721-80-5
144-55-8 to 25167-82-2
Sodium Bicarbonate Sodium Hydrogen Carbonate Oxalic Acid Vectra C810 Sodium Tartrate Chromium Sulfate Strontium Bromide Flexel1010 XTX800RG Kadel E-1000 Mater-Bi Isoplast 202 Isoplast 101 LGF40 Isoplast 202LGF40 Fiberite FM-4065-50 Hercu les 8551-7A Lubricomp OCL-4036 Lubricomp OFL-4036 Decalin Cobalt Sa~s HyComp400 Ammonium Propadrine Hydrosulfite Mercaptobenzoth iazole Rongalit Gallic Acid Menthol Calgonit D Calgonit S Chromyl Chloride Magnesium Trisilicate DHDA--7704 Aminobenzoic Acid (p-) Aluminum Potassium Sulfate Potassium Aluminum Sulfate Cryolite Sodium Lauryl Sulfate Lauryl Sulfate Potassium Cyanide Ethyleneimine Fluothane Halothane Ultrason E 2010 Bisulfite Lead Acetate Catechol Aluminum Chlorate Sodium Hypophosphate Sodium Persulfate Sodium Antimonate Calcium Cyanam ide Sodium Percarbonate Nickel Ammonium Sulfate Aluminum Ammonium Sulfate Lead Sulfate Treflan Trifluralin Ammonium Tungstate Cyclohexylarn ine Laurate Nickel Sulfate Calcium Stearate Lasso Uran Mercuric Acetate Potassium Phosphate Sodium Glutamate Strontium Carbonate Methyl Tertiary Butyl Ether Butyl Methyl Ether (tert-) Ethylcyclopentane Bism uth Carbonate Sodium Bisulfide Sodium Hydrosulfide
16721-80-5 16789-31-4 16807-48-0 16871-71-9 16871-90-2 16887-00-6 16893-85-9 16919-19-0 16940-66-2 16949-65-8 16961-83-4 16984-38-6 16996-51-3 17014-71-0 1712-64-7 17135-66-9 17188-11-3 17194-00-2 17269-77-1 17375-37-0 1762-95-4 1806-54-8 18130-44-4 1834-30-6 18358-13-9 18400-34-5 18480-07-4 18624-44-7 1863-63-4 18868-43-4 19287-45-7 1929-77-7 19307-28-9 19351-18-9 1948-31-8 19981-17-0 2008-39-1 2009-83-8 20227-92-3 20305-50-4 20338-08-3 20461-54-5 2050-09-1 2050-60-4 2050-92-2 2051-76-5 20548-54-3 2055-00-7 20600-22-0 2074-87-5 2090-05-3 2090-64-4 2092-16-2 21109-95-5 21645-51-2 2173-56-0 2180-18-9 2223-93-0 2235-54-3 22690-73-9 23276-62-2 2432-87-3 2466-73-1 24800-44-0 2489-03-4 24936-68-3
Sodium Sulfhydrate Copper Hypochlorite Dehydroacetic Acid Zinc Fluorosilicate Zinc Silicofluoride Potassium Silicofluoride Chloride Sodium Fluorosilicate Ammonium Fluosilicate Borol Sodium Borohydride Magnesium Fluosilicate Fluosilicic Acid Lactose Lead Linoleate Potassium Peroxide Isopropyl Nitrate Chromium Nitrate Magnesium Chlorite Barium Hydroxide Cellulube 220 Manganese Carbonate Ammonium Thiocyanate Trioctyl Phosphate Titanium Sulfate Ferric Acetate Methacrylate Bism uth Carbonate Strontium Hydroxide Ferrous Hydroxide Am mon ium Benzoate Molybdenum Oxide Diborane Vernam Stannic Sulfate Dimethyl Thiazolidine (2,2-) Dialanine Sodium Cyanamide DMA4 Chlorohexanol (6-) Cyclohexylam ine Carbonate Aniline Sulfate Titan ic Acid Iodide Isoamyl Valerate Butyl Oxalate Diamylamine Acrylic Anhydride Calcium Sulfide PalatinolO Bromobenzylphenyl Ether (p-) Cyanogen Calcium Benzoate Magnesium Bicarbonate Calcium Thiocyanate Barium Sulfide Alum inum Hydroxide Pentyl Pentanoate Manganese Acetate Cadmium Stearate Ammonium Lauryl Sulfate Am monium Diphosphate Calcium Bisulfate Dioctyl Sebacate Isobutyl Phosphate Tripropylene Glycol Tribromom ethylbenzene Calibre 300-6 Lexan Lexan 100 Lexan 101 Lexan 141 Lexan 303 Makrolon
24936-68-3
24936-74-1
24936-97-8 24937-16-4 24937-79-9 24938-64-5 24968-12-5
24969-25-3 24981-14-4 24991-14-8 25013-15-4 25013-16-5 25034-86-0 25036-53-7
25038-54-4
25038-59-9
25038-71-5 25053-09-2 25067-11-2 25067-34-9
25068-26-2 25068-38-6 25085-50-1 25101-03-5 25101-45-5 25135-51-7 25154-42-1 25154-55-6 25155-19-5 25155-23-1 25155-30-0 25167-20-8 25167-67-3 25167-70-8 25167-80-0 25167-81-1 25167-82-2
Makrolon 2608 Makrolon 2800 Makrolon 3200 Merion M60 Zytel151 Zytel151L Zytel158L Palamoll646 Vestamid Foraflon Kevlar 29 Celanex Celanex 3210 Celanex 3300 Valox Valox 325 Valox 420 Valox DR-48 Celcon M270 Tedlar Astrel360 Methyl Styrene Vinyl Toluene Butylated Hydroxyanisole NAS10 NAS30 Kapton HN Vespel Vespel SP1 Vespel SP21 Vespel SP22 Capron Grilon Ultramid B U~ramid B3G Ultramid B3G6 Ultramid B3K Ultramid B3S U~ramid B Mylar Rynite 530 Rynite 545 Rynite 555 Tenite 9902 Tenite 9902 Tefzel Toyolac 900 Teflon FEP Teflon FEP 160 EvaI Eval EP-E Eval EP-F SoamolD Soarnol DC SoamoiDT SoamolET TPX Epon 828 F60 Polypropylene Adipate Halar Ultrason S Ch lorobutane Nitrophenol Naphthalenesulfonic Acid Trixylenyl Phosphate Sodium Dodecylbenzenesulfonate Tetrabrom oethane Butene Butylene Diisobutylene Chlorophenol Dichlorophenol Trichlorophenol
© Plastics Design Library
967 CAS Registry Numbers - Numeric Sort
25167-93-5
Ch loron itrobenzene
26545-61-9
Hexa'f1uoroxylene
30260-66-3
Dimethylhydrazine
25167-94-6
Diphenylpropane
26602-89-1
Bromobutane
30283-93-3
Chloronitroethane
25168-05-2
Chlorotoluene
26615-45-2
Upilex R
30350-73-3
25168-10-9
Naphthylamine
26635-63-2
Amyl Alcohol (sec-) Isooctane Dichloropropane
25212-74-2
Ryton
26635-64-3
Ryton R-10 7006A
26638-19-7
Ryton R-4
26655-00-5
Ryton R-8
Teflon PFA
Menthanol
304-59-6
Potassium Sodium Tartrate
30525-89-4
Paraformaldehyde Anthraquinonesulfonic Acid
30637-95-7 3089-55-2
Benzyl Octyl Adipate
Teflon PFA 350
30944-53-7
Hetron 197 Xydar Aluminum Citrate
25214-85-1
Ultraform N2320
26746-38-3
Dibutylphenol (tert-)
31072-56-7
25231-46-3
Toluenesulfonic Acid
26761-40-0
Diisodecyl Phthalate
31142-56-0
25264-93-1
Hexene
25265-71-8
Dipropylene Glycol
26761-81-9
Dichlorobutane
31291-60-8
Dibutylphenol (sec-)
25265-75-2
Butanediol Butylene Glycol
26763-71-3 26914-33-0
Toluenesulfonyl Chloride Pyralene 1498
31295-34-8 31533-76-3
Ammonium Salicylate OS 124
25265-76-3
Phenylened iam ine
26915-12-8
Methylaniline
25321-09-9
Diisopropyl Benzene
Palatinol Z
Toluidine
25321-14-6
Dinitrotoluene
25321-22-6
Dichlorobenzene
26951-08-6 26952-21-6 26952-23-8
25322-01-4
Nitropropane
25322-20-7
Tetrach loroethane
25322-68-3
Carbowax Polyethylene Glycol
2696-92-6 2699-79-8
MR-13031
3115-39-7
31627-70-0 3164-29-2 31694-16-3
Isooctyl Alcohol
Dioctyl Phosphate
Butylbenzoic Acid Ammonium Tartrate Victrex 450G Victrex 450GL30
Dich loropropene
31807-55-3
Isododecane
Dich loropropylene
32033-80-0
Kadel E-1140
Nitrosyl Ch loride Sulfuryl Fluoride
32131-17-2
Technyl A 216 U~ramid
A
25323-24-4
Hexanetriol
27082-31-1
GIyceryl Phosphate
U~ramid A3
25323-30-2
Dichloroethylene
27084-37-3
Palamoll644
Ultramid A3WG7
25323-89-1
27084-44-2
25334-23-0
Trich loroethane Nicotinam ide Hydroch loride
Torlon 4203 Chloroaniline
Zytel122L
27134-26-5
Zytel101
25339-17-7
Isodecyl Alcohol
27134-27-6
Dich 10 roan iline
Zytel408
25339-57-5
Butadiene
27135-80-4
Perfluoroxylene
Zytel 7OG33HRL
25340-17-4
Diethyl Benzene
25377-72-4
Pentene
27154-33-2 27157-85-3
Trich lorofluoroethane Mercaptobenzoth iazole
25377-83-7
Octene Dodecene
27176-87-0 27178-83-2
Dodecylbenzenesu Ifonic Acid
25378-33-0 25495-91-4 25497-28-3
Ferrous Ammonium Citrate Bromohexane
2720-73-2 27213-78-1
Potassium Amyl Xanthate Butyl Catechol (tert-)
Difluoroethane
27380-27-4
Victrex 220G
25497-29-4 25498-49-1
Chlorodifluoroethane Tripropylene Glycol Methyl Ether Sulfur Hexafluoride
27458-94-2 27554-26-3
Isononyl Alcohol Diisooctyl Phthalate
27598-85-2
Am ina Phenol
Lead Carbonate
27753-54-4
Dichlorodiethyl Ether
3344-18-1 33703-08-1
Magnesium Citrate Diisononyl Adipate
25551-13-7
Trimethylbenzene
27791-72-6
Polycast
33752-16-8
Tetrach loropyridine
25567-67-3
Din itroch lorobenzene
27837-76-9
Hetron 92
25618-55-7
Polyglycerol
27941-08-8
Polypropylene Adipate
34114-35-7
Pyridine Sulfate
25620-59-1
Am inoanthraquinone
27985-75-7
Acetotolu id ide
34521-19-2
Pyridine Sulfonic Acid
25378-22-7
2551-62-4 25510-11-6
Nitrobenzoic Acid
32197-39-0
Zytel 70G33L Upilex S
3282-85-7 32849-69-7
Lead Sulfamate
TergitoI 7
3313-92-6
Sodium Percarbonate
3323-53-3 333-20-0
Hexamethylene Diammonium Adipate Potassium Thiocyanate
333-41-5 334-48-5
338-84-1
Diazinon Capric Acid
Fluorinert FC 70
Ammonium Citrate
25620-62-6
Dibromoethane
28088-64-4
Am inosalicylic Acid
3458-72-8
25639-42-3
Methyl Cyclohexanol
28106-65-2
Tetrafluoropropanol
34590-94-8
Dipropylene Glycol Methyl Ether
25639-68-3 25640-14-6
ArdelD100
28514-45-6
Dibromophenol
34612-78-7
Nicotinamide Hydrochloride
EktarGN001
28519-06-4
Chlorodecane
3486-35-9
Kodar 6763
28519-07-5
Ch lorododecane
35175-85-0
Trich loropropene
28553-12-0
Diisononyl Phthalate
35249-89-9
Ammonium Glycolate
25641-61-6
Dihydroxydiphenylsulfone
25655-41-8
Betadine
25667-42-9
Ultrason E
Palatinol ON
353-59-3
Freon 12B1
28554-00-9
Chloropropionic Acid
356-18-3
Dichlorohexafluorocyclobutane (1,2-)
Victrex 4100G
28605-74-5
Tetrach lorodifluoroethane
359-70-6
Perfluorotriethylam ine
Victrex 41 OOP
28631-77-8
Ethyl Pyridine
35913-09-8
Victrex 4800G Victrex 4800P
287-92-3 28805-86-9
Cyclopentane
36653-82-4
Victrex PES 4100G
Chlorobenzaldehyde Cetyl Alcohol Hexadecyl Alcohol
Butyl Phenol Bromotoluene
25735-29-9
Trich loropropane
28807-97-8 28831-12-1
Sodium Persulfate
3687-31-8
25805-74-7
Reny 1022
29106-32-9
Chau Imoogric Acid
372-09-8
Acridine
29154-12-9
Ch loropyridine
29222-48-8
260-94-6
Zinc Carbonate
Palmityl Alcohol Lead Arsenate Cyanoacetic Acid
37210-98-3
Boric Acid Methyl Ester Nickel Chloride
Trimethylpentane
37211-05-5
2944-65-2
Ferrous Tartrate
37220-82-9
Olein
Butylene Oxide
29757-24-2 29797-40-8
3724-65-0 37248-34-3
Crotonic Acid
Hexyl Alcohol (tert-)
Nitroaniline Dichlorotoluene Ethylhexyl Orthophosphoric Acid (Di-2-) Ethylhexyl Phosphate (Di-2-)
37262-48-9
Potassium Bicarbonate Calcium Gluconate
37273-87-3
Delrin 500
37273-91-9
Metaldehyde
37299-88-0
Selenium Chloride
26140-67-0
Kinel5504
26222-20-8
Polypropylene Sebacate
26249-20-7 26401-20-7 26444-49-5 26445-02-3
Cresyldiphenyl Phosphate Dichloropropionic Acid
298-07-7
26445-05-6
Am inopyridine
298-14-6
26446-76-4
Chloropropane
299-28-5
26447-28-9
Furoic Acid TDI
29956-85-2 301-04-2
Pentach lorobenzam ide
26471-62-5
Toluene Diisocyanate Tolylene Diisocyanate
3012-65-5 30179-49-8
Ammonium Citrate Aminobenzenesulfonic Acid
37325-37-4 37345-43-0
302-01-2
Hydrazine
Trich lorotrifluoroethane
302-17-0
Chloral Hydrate
37380-64-6 37809-02-2
Chloron itropropane
Trifluorotrich Joroethane
30237-26-4
3811-04-9
Potassium Chlorate
2652-65-5 26523-64-8
Benzoyl
© Plastics Design Library
Lead Acetate
Fructose
37265-60-4
373-02-4
Potassium Sulfide Flit Kinel
Nickel Acetate Elon U~rawet
Freon BF
25167-93-5 to 3811-04-9
968
CAS Registry Numbers - Numeric Sort
38719-68-5
Trimethyl Propane
3882-06-2
Dicyclohexylammonium Nitrate
3926-62-3
Sodium Chloroacetate Noryl731
39316-43-3 39316-44-4 39319-93-2 39320-19-9 39325-18-3 39346-05-9 39377-49-6 39384-00-4 39392-92-2
Noryl SE100 Baydur Cellulose Tripropionate XT Pydraul A200 Copper Cyanide Silicon Fluoride Hylene T
51-05-8 51-43-4 51013-18-4 51218-45-2
Novocain Adrenalin Methylpyrrol idone
513-37-1
Dual Metolachlor Isocrotyl Chloride
513-77-9 513-85-9
Barium Carbonate Butanediol (2,3-)
51312-24-4 514-10-3 515-42-4 515-84-4
546-93-0 547-64-8 5470-11-1 548-62-9 54847-90-4 549-56-4 54972-97-3 55-21-0
Mercury Chloride Abietic Acid
55-31-2 55-48-1
Sodium Benzenesulfonate Ethyl Trich loroacetate
55-55-0 55-63-0
Magnesium Carbonate Methyl Lactate Hydroxylam ine Hydroch loride Gentian Violet Udel Quinine Bisulfate Methyl Amyl Alcohol Benzamide Adrenalin Hydrochloride Atropine Sulfate Elon Nitroglycerin Nitroglycerol
39432-81-0
Freon 502
515-98-0 516-06-3 51653-08-8 51848-31-8
Ammonium Lactate Valine (dl-)
39437-98-4 3982-91-0
R502 Ch lorobutene Thiophosphoryl Ch loride Calcium Bicarbonate Calcium Propionate
520-45-6 52276-51-4
Dehydroacetic Acid Celcon M25
554-13-2 555-75-9
Lithium Carbonate Aluminum Ethylate
52439-05-1 526-26-1
Noryl Strontium Salicylate
556-03-6 556-24-1
Methylisovalerate
526-83-0 526-94-3 526-95-4
Tartaric Acid Sodium Bitartrate Gluconic Acid
556-52-5
Glycidol
557-05-1 557-21-1
Zinc Stearate Zinc Cyanide Zinc Acetate
3983-19-5 4075-81-4 408-35-5 40968-90-9 4109-96-0 4121-13-5 41237-22-3 4170-30-3 4180-12-5 420-04-2 4245-37-8 42739-38-8 4452-58-8 460-19-5
Sodium Pa.lmitate Potassium Tartrate Dichlorosilane Benzyl Butyl Adipate Ch lorobenzenesuIfonic Acid Crotonaldehyde
52673-62-8
Pyranol
Copper Acetate Cyanamide
52683-08-6 52683-10-0
Kinel5505 Kinel5511
Vinyl Methacrylate Ammonium Valerate
52683-11-1 528-94-9
Kinel5514 Ammonium Salicylate
Sodium Percarbonate Cyanogen
52932-53-3 53126-04-8 53148-92-8 53148-95-1
RP 1 NorylGFN2 Plexiglas VM Kydex 100
462-06-6 463-04-7
Fluorobenzene Amyl Nitrite
463-73-0
Chlorocarbonic Acid
463-79-6
Carbonic Acid
464-41-5
Bornyl Ch loride
470-82-6
Cineol
471-34-1 4845-99-2 497-19-8
499-12-7 50-00-0 50-21-5
Derakane 470 Derakane 411
532-27-4 532-32-1
Calcium Carbonate Brucine Sulfate Soda
557-34-6 557-40-4 558-13-4 55818-86-5 5593-70-4 55957-10-3 55962-27-1 56-23-5
Ch loroacetophenone Mace
53241-37-5 5329-14-6
552-38-5 55353-07-6 55353-89-4
Sodium Benzoate
56-38-2 56-40-6
Genal 4300 56-54-2
5341-61-7 53469-21-9
Sulfamic Acid Hydrazine Dihydrochloride Aroclor 1242
Soda Ash Sodium Carbonate
5350-03-8 53801-28-8
Amyl Laurate Plastigen G
56-84-8 56-86-0
Aconitic Acid Forma.ldehyde
53858-53-0 539-82-2
Loctite Ethyl Valerate
56-93-9
50-29-3
Lactic Acid DDT
50-70-4 50-78-2
Sorbitol Acetol
5394-83-2 54-11-5 54-12-6 54-21-7
Cam phoric Acid Nicotine Tryptophan (dl-) Sodium Salicylate
56-81-5
50-81-7
Ascorbic Acid Vitamin C
540-69-2 540-72-7
Ammonium Formate Sodium Sulfocyanide
565-80-0 56631-01-7
50-98-6 50-99-7
Ephedrine Hydrochloride Corn Sugar
540-82-9
Sodium Thiocyanate Ethyl Sulfate
56690-31-4 56731-13-6
Ethylsulfuric Acid Isooctane
56748-27-7 56977-47-0
504-20-1 505-60-2 506-30-9 506-77-4 506-87-6 506-96-7 5064-31-3 50641-63-9 507-70-0 50813-16-6 50815-84-4 50820-24-1 50864-67-0
38719-68-5 to 57762-32-0
Stanyl TW300 Diisopropylidene Acetone Phorone Mustard Mustard Gas Arachidic Acid Cyanogen Chloride Ammonium Carbonate
541-50-4 542-16-5 542-62-1 542-83-6 542-92-7 5421-46-5 543-49-7 543-54-4
Tetrabutyl Titanate Fyrquel220 Skydrol LD4 Carbon Tetrachloride Tetrach loromethane Parathion Am inoacetic Acid Glycine Quinidine Glycerin Glycerol Aspartic Acid Glutamic Acid Benzyltrimethylammonium Chloride Trimethylbenzylammonium Chloride
Silver Acetate Ferrous Carbonate Methyl Isopropyl Ketone Bismuth Chloride
563-80-4 56452-11-0
Isovaleric Acid Stanyl
Tetrabromomethane Fyrquel GT
563-63-3 563-71-3
Merthiolate Dichloroethylene (1 ,2-)
503-74-2 50327-22-5
Dia.llyl Ether Carbon Tetrabromide
Ethyl Alum inum Dichloride Methallyl Chloride
54-64-8 540-59-0
540-84-1 541-41-3
Tyrosine (dl-)
563-43-9 563-47-3
Acetylsalicylic Acid Aspirin
Dextrose Glucose
Lithium Salicylate Atlac711 XT250
Diisopropyl Ketone Hexach lorobutene Coolanol35 Tefzel HT2004 Flit Hydrofluosilicic Acid Glycerophosphoric Acid Glyceryl Phosphate
Ethyl Chlorocarbonate Ethyl Chloroformate
57-03-4
Acetoacetic Acid Aniline Sulfate
57-06-7 57-10-3
Allyl Mustard Oil Palmitic Acid
Barium Cyan ide Cadmium Cyanide Cyclopentadiene Ammonium Thioglycolate Heptyl Alcohol (2-) Pyridine Sulfate
57-11-4 57-13-6 57-14-7 57-24-9 57-48-7 57-50-1
Stearic Acid Urea UDMH Strychnine Fructose Cane Sugar Sucrose Sugar
Acetyl Bromide Trilon A
543-59-9 543-80-6
Amyl Chloride Barium Acetate
Magnum
543-90-8
Borneol
543-94-2
Cadm ium Acetate Strontium Acetate
Sodium Metaphosphate
544-01-4 544-63-8
Isoamyl Ether Myristic Acid
57-88-5 57158-54-0
Cholesterol Freon TES
544-76-3 544-92-3
Cetane Copper Cyanide Therm inol 66
57308-10-8
Calcium Hydride Freon TMC Freon TM
Skydrol 500B Skydrol500B4 Ferrous Sulfite Barium Polysulfide
54578-28-8
57-55-6
Dihydroxypropane (1 ,2-) Propylene Glycol
5n62-31-9 5n62-32-0
© Plastics Design Library
969 CAS Registry Numbers - Numeric Sort
57762-33-1 58-08-2 58-89-9
Freon TE
61789-97-7
Tallow
Caffeine Benzene Hexachloride
61790-51-0
Sodium Resinate Sagrotan
66455-31-0 66525-75-5
Torlon
66594-31-8
Benzene Hexach loride (y-) Hexach lorocyclohexane Lindane 58-90-2 58033-98-0
Celanex Tetrachlorophenol (2,3,4,6-) Ultraform
5813-49-0 583-52-8
Acetyl Nitr~e Potassium Oxalate
584-02-1 584-08-7
Amyl Alcohol (sec-) Potash
584-84-9 58481-77-9
Potassium Carbonate Toluene-2,4-diisocyanate Freon TC
61840-52-6 61970-49-8 62-23-7 62-38-4 62-44-2 62-53-3 62-54-4 62-56-6 62-57-7 62-73-7
66-25-1
Nitrobenzoic Acid (p-)
66594-32-9
Phenylmercuric Acetate
66676-34-4
Hexaldehyde Delrin Hercoflex 600 Pydraul50E Pydraul115E Axion
Acetophenetidin Phenacetin Aminobenzene Aniline
67-56-1 67-63-0
Methyl Alcohol Propyl Alcohol (2-) Dimethyl Carbinol Isopropyl Alcohol
Calcium Acetate Thiourea Aminoisobutyric Acid (2-) Dimethyldichlorovinyl Phosphate
67-64-1
Acetone Dimethyl Formaldehyde
67-66-3
Chloroform Trichloromethane
67-68-5 67-72-1
Dimethyl Sulfoxide Hexach loroethane
62-76-0 621-82-9
Sodium Oxalate Cinnamic Acid
58481-78-0
Freon TA
622-45-7
Cyclohexyl Acetate
58718-66-4
Halowax 1000
622-91-3
Metoquinone
68-04-2
Sodium Citrate
58798-93-9
Atlac 4010 Stilbene
Aropol7240 Hetron 700
68-11-1
Mercaptoacetic Acid Thioglycolic Acid
68-12-2
Dimethylformamide Dimethylformamide (N,N-)
588-59-0 59-67-6 59-88-1
Nicotinic Acid Phenylhydrazine Hydroch loride
623-42-7 624-24-8
Methyl Butyrate Methyl Valerate
Potassium Cyanate Torlon 4301 Methyl Butyl Ketone Allyl Acetate
624-54-4 624-83-9 624-92-0 627-13-4
Amyl Propionate Methylisocyanate Dimethyl Disulfide Propyl Nitrate
68-35-9 680-31-9 68002-84-6 68012-64-6
Calcium Cyanide Mercuric Cyanide
627-58-7 628-63-7
Dimethyl-1,5-Hexadiene (2,5-) Amyl Acetate
Hexene
628-86-4
Mercury Fulminate
68131-30-6 6834-92-0 68476-78-8
Butyl Hypochlor~e
628-96-6
Ethylene N~rate
590-28-3 59030-14-7 591-78-6 591-87-7 592-01-8 592-04-1 592-41-6 5923-22-8
Calgon
59299-44-4 593-29-3
Potassium Stearate
593-45-3 593-70-4
Octadecane Freon 31
593-81-7
Trimethylamine Hydrochloride
59316-88-0 594-42-3 59694-78-9 598-62-9 598-63-0
60-12-8
62887-81-4 629-14-1 63-42-3 630-08-0
Diethyl Ether Ethyl Ether
60-29-7
Sodium Metasilicate Molasses Vinyl Acetylene
Nitroglycol Purifloc C41
68915-31-1
Calgon Sodium Hexametaphosphate
Diethyl Cellosolve Lactose Carbon Monoxide
6899-03-2 6899-05-4 68993-61-3
Aspartic Acid Glutam ic Acid Alum inum Potassium Sulfide Caffeine Citrate Mannitol
69-72-7 69-93-2
Salicylic Acid Uric Acid
63148-56-1
Silicones Versilube F50 Dow Coming FS1265
69028-37-1
63148-58-3
Dow Coming 710
Neoprene Neoprene W
632-22-4 63231-48-1
Tetramethylurea Amines
63231-51-6
Solvesso 100 Solvesso 150
63283-80-7 63394-02-5
Dich loroisopropyl Ether Silastic
63148-53-8
Ethylenediam inetetraacetic Acid Versene Phenylethanol (2-) Phenylethyl Alcohol
Red Oil Triton Green Liquor
69-22-7 69-65-8
Manganese Carbonate Lead Carbonate Limonene (d-) Cumylphenol (p-)
689-97-4
Sulfadiazine Hexamethylphosphoric Triamide
Hypophosphorous Acid Ammonium Acetate
6303-21-5 631-61-8
Freon TMS Perch loromethylmercaptan Cosmic
5989-27-5 599-64-4 60-00-4
62229-36-1 62229-52-1
Perchloroethane
63428-84-2 63665-16-7
6904-78-5 6915-15-7 69522-75-4 69912-81-8 70-30-4 7058-14-2
Manganese Linoleate Malic Acid Therm inol 55 Tar Hexach lorophene Armeen
Cadon
70816-49-8
Sulfinol Manganese Acetate
70896-05-8
Kalwall Sunlite Torlon 4275
71-23-8
Propyl Alcohol
60-33-3
Sulfuric Ether Linoleic Acid
60-34-4
Methylhydrazine
64-02-8
Trilon B
71-36-3
Butyl Alcohol
60-35-5
Acetamide
64-17-5 64-18-6
Ethyl Alcohol Formic Acid
71-41-0 71-43-2
Amyl Alcohol Benzene
64-19-7
Acetic Acid Diethyl Sulfate
71-48-7 71-50-1
Cobaltous Acetate Acetate
Ethyl Sulfate Noryl N190 Aluminum Linoleate Dioxolane
71-55-6
64060-06-6 645-17-0 646-06-0 64664-26-2 64706-30-5
LPH Viton
Methyl Chloroform Trichloroethane Isocyanate Sodium Lactate Methoxychlor Dich lorodiphenyldich loroethane
O-Syl Ammonium Nitrate
Dieldrin Amyl Alcohol (sec-)
60-57-1 6032-29-7 60646-36-8 60649-28-7 609-31-4 6094-40-2
Arsenic Trichloride Atlac 382 Nitrobutanol (2-) Piperazine Hydrochloride
61-33-6 61-73-4 61128-24-3
Penicillin G Methylene Blue Ultem
638-38-0
64-67-5
615-65-6
Ultem 1000 Chloro-p-Toluidine (2-)
64726-60-9 6484-52-2
616-02-4 616-21-7 616-38-6
Citraconic Anhydride Dichlorobutane (1,2-) Methyl Carbonate
6485-39-8 65-30-5 65-49-6 65-85-0 650-51-1
616-45-5 6164-98-3 61673-52-7 617-84-5 617-94-7
Pyrrolidone Galecron Delrin 900 Diethylformamide Dimethyl Phenyl Carbinol Dimethyl Phenyl Methanol
61789-00-2 61789-91-1
© Plastics Design Library
DutralCO Jojoba Oil
6505-86-8 65072-01-7 65431-33-6 65589-70-0 66-25-1
71000-82-3 72-17-3 72-43-5 72-54-8 72146-92-0 72231-10-8
Manganese Gluconate Nicotine Sulfate Aminosalicylic Acid (p-) Benzoic Acid
72711-12-7
Sodium Trichloroacetate Nicotine Sulfate
7349-78-2 7360-53-4
Amino Acids Trypaflavin
7397-62-8
72993-99-8 7320-34-5
Atlac 580 Torlon 5030 Potassium Pyrophosphate Tetrapotassium Pyrophosphate Dimethionine Alum inum Formate Butyl Glycolate Glycolic Acid Butyl Ester Polysolvan
Acriflavine Caproaldehyde Caproic Aldehyde
Hetron 700C Derakane 51 ON
0
74-82-8
Methane
74-83-9
Bromomethane
57762-33-1 to 74-83-9
970
CAS Registry Numbers - Numeric Sort
74-83-9
Methyl Bromide
75-20-7
Calcium Carbide
74-84-0
Ethane
75-21-8
Ethylene Oxide
74-85-1
Ethylene Acetylene
75-25-2 75-28-5
Bromoform
Chloromethane
75-29-6
Chloropropane (2-)
Freon TF
Isopropyl Chloride
Genetron 113
74-86-2 74-87-3
Methyl Chloride 74-88-4
Methyl Iodide
74-89-5
Methylamine
74-90-8
Hydrocyanic Acid Hydrogen Cyanide
74-95-3
Methylene Bromide
74-96-4
Bromoethane
74-97-5
Bromoch 10 rom ethane
74-98-6
Chlorobromom ethane Propane
Nitroch loroform Trich loron itromethane
76-12-0 76-13-1
Freon 112 Freon 113
Isopropyl Am ine
76-14-2
Freon 114
Isopropylam ine
76-15-3
Freon 115
75-35-4
Vinylidene Chloride
76-16-4
75-36-5 75-43-4
Acetyl Chloride
75-31-0
Freon 116 Hexafluoroethane
Dich lorofluoromethane Freon 21
76-19-7 76-22-2
Freon 218 Camphor
Monofluorodich loromethane Phosgene
76-39-1
Nitro-2-Methylpropanol (2-)
75-44-5
76-44-8
Heptachlor
75-45-6
Ch lorodifluoromethane
76-49-3 76-93-7
Bornyl Acetate
Ethyl Bromide
74315-78-9
Isobutane
76-06-2
Di'fIuoroch loromethane Freon 22
Hetron 72
7601-54-9
Benzilic Acid Sodium Phosphate Trisodium Phosphate
Genetron 22
7439-92-1
Lead
7439-97-6 7440-09-7
Mercury Potassium
7440-16-6 7440-21-3
Rhodium Silicon
7440-23-5
Sodium
7440-37-1
Argon
75-56-9
7440-38-2
Arsenic
7440-43-9
Cadmium
75-59-2
Tetramethylammonium Hydroxide
7631-99-4
7440-44-0
Carbon
75-61-6
7632-00-0
Sodium Nitrite
7440-59-7
Helium
Difluorodibrom omethane Freon 12B2
7632-04-4
Sodium Perborate
7440-61-1
Uranium
75-63-8
Freon 13B1
7632-05-5
Sodium Phosphate
7440-63-3
Xenon
75-64-9
Butylamine (tert-)
7632-50-0
Ammonium Citrate
7440-66-6
Zinc
75-65-0
Butyl Alcohol (tert-)
7637-07-2
Boron Trifluoride
7446-09-5
Sulfur Dioxide
75-66-1
Butyl Mercaptan (tert-)
7645-25-2
Lead Arsenate
7446-11-9
Sulfur Trioxide
75-68-3
Freon 142B
7646-69-7
Sodium Hydride
Sulfuric Anhydride Lead Sulfate
75-69-4
Freon 11
7646-78-8
7446-14-2 7446-70-0 7447-39-4 7447-40-7 7447-41-8 74564-77-5
7601-89-0
Trifluoromethane
7601-90-3
Perchloric Acid
75-47-8
Iodoform
Perchloryl Fluoride
75-50-3
Trimethylamine
7616-94-6 7631-42-7
75-52-5
Nitromethane
7631-89-2
Sodium Arsenate
Propylene Oxide (1 ,2-)
7631-90-5
Stannic Chloride Tin Tetrachloride Cobalt Chloride
Dich lorodifluoromethane
7646-85-7
Cobaltous CHloride Zinc Chloride
Difluorodich loromethane Freon 12
7646-93-7
Potassium Acid Sulfate Potassium Bisulfate
Genetron 12
7647-01-0
Hydrochloric Acid Hydrogen Chloride
Trich lorofluoromethane
Barbitol
Sodium Nitrate
7646-79-9
Genetron 11 Monofluorotrich loromethane
Potassium Ch loride Lithium Chloride
Sodium Bisulfite
Stannic Tetrachloride
Freon MF
75-71-8
Phenyl Acetate
Sodium Hydrogen Sulfite
Propylene Oxide
Aluminum Chloride Aluminum Trichloride Copper Chloride Cupric Chloride
Sodium Perch lorate
Freon 23
75-46-7
7487-88-9
Epsom Salts
75-72-9
Chlorotrifluoromethane
7487-94-7
Magnesium Sulfate Mercuric Chloride
75-73-0
Freon 14 Tetrafluoromethane
7647-15-6
Sodium Brom ide
Mercury Chloride
75-75-2
Methanesulfonic Acid
7647-18-9
Antimony Pentachloride
Freon 13
Mercury (II) Chloride 74870-00-1 7488-55-3
7647-14-5
Muriatic Acid Sodium Chloride
Voranol P 400
75-77-4
Ch lorotrimethylsilane
7664-38-2
Phosphoric Acid
Stannous Sulfate
75-78-5
Dich lorodimethylsilane
7664-39-3
Hydrofluoric Acid Hydrogen Fluoride
Mylar92A
75-79-6
Methyl Trichlorosilane
7492-41-3
Bornyl Formate
75-85-4
Amyl Alcohol (tert-)
7664-41-7
Ammonia
7492-68-4 75-00-3
Copper Carbonate Ch loroethane
75-86-5 75-87-6
Acetone Cyanohydrin Chloral
7664-93-9 7681-11-0
Sulfuric Acid Potassium Iodide
Trich loroacetaldehyde
7681-38-1
74913-57-8
Ethyl Chloride 75-01-4
Chloroethylene
Methyl Sulfate Methyl Sulfuric Acid
Sodium Bisulfate
75-99-0
Sodium Hydrogen Sulfate 7681-49-4 7681-52-9
Sodium Fluoride Clorox Sodium Hypochlorite Sodium Hypophosphite
Vinyl Chloride 75-04-7
Ethylamine
7500-55-2
Dichloropropionic Acid (2,2-) RP 1
75-05-8
Acetonitrile
7542-12-3
Soda
75-07-0
Methyl Cyanide Acetaldehyde
75-02-5
Vinyl Fluoride
75-08-1
75-09-2
75-10-5 75-11-6
Niter Cake Sodium Acid Sulfate
75-93-4
75432-60-9
Hostapal
7546-30-7
Mercurous Chloride
7681-53-0 7681-57-4
Sodium Metabisulfite Sodium Pyrosulfite Sodium Iodide Nitric Acid
Ethaneth iol
7549-43-1
Quinine Hydrochloride
Ethyl Mercaptan
7550-35-8
Lithium Bromide Titanium Tetrachloride Iodine
7681-82-5 7699-45-8
Thioethanol
7550-45-0
Dichloromethane
7553-56-2
Methylene Chloride
7558-79-4
Methylene Dichloride
75602-80-1
Disodium Phosphate Magnifloc 837A
Freon 32
757-58-4 75757-07-2
Hexaethyl Tetraphosphate Acrylite H-15
7697-37-2
Zinc Bromide
77-47-4
Hexachlorocyclopentadiene
77-73-6 77-78-1
Dicyclopentadiene Dimethyl Sulfate Methyl Sulfate Citric Acid
75-12-7
Methylene Iodide Form amide
76-01-7
Pentachloroethane
75-15-0
Carbon Bisulfide
76-02-8
Trichloroacetyl Chloride
77-92-9
Carbon Disulfide Dimethyl Sulfide
76-03-9
Trichloroacetic Acid
77-94-1
Tributyl Citrate
75-18-3
Trimethylolpropane
Cyclopropane
Trifluoroacetic Acid Chloropicrin
77-99-6
75-19-4
76-05-1 76-06-2
74-83-9 to 7704-34-9
7704-34-9
Colloidal Sulfur
© Plastics Design Library
971 CAS Registry Numbers - Numeric Sort
7704-34-9 7705-08-0
n1-03-9 771-61-9 n18-54-9 7719-09-7 7719-12-2 n20-78-7 n22-64-7 n22-76-1 n22-84-1
7722-86-3 7722-88-5 n26-95-6 7727-15-3 7727-21-1 n27-37-9 7727-43-7 n27-54-0 n27-67-5 n32-18-5 77323-44-5 7733-02-0 7757-74-6 7757-79-1 7757-82-6
7757-83-7 7757-88-2 n58-01-2 n58-02-3 n58-05-6 n58-09-0 n58-11-4 7758-19-2 n58-29-4
n58-87-4 n58-88-5 n58-89-6 n58-94-3
7758-95-4 7758-97-6 7758-98-7 7761-88-8 7772-98-7 7772-99-8
7773-01-5 7773-03-7 n73-06-0 n74-29-0 n75-09-9 n75-11-3 7775-14-6
n75-27-1 n78-18-9 7778-39-4
Sulfur Ferric Chloride Iron {III} Chloride Iron Chloride Iron Perchloride Dehydroacetic Acid Penta'f1uorophenol Nickel Chloride Thionyl Chloride Phosphorous Trichloride Ferrous Sulfate Iron {II} Sulfate Potassium Perm anganate Ammonium Phosphate Hydrogen Peroxide Perhydrol Persutfuric Acid Sodium Diphosphate Tetrasodium Pyrophosphate Bromine Aluminum Bromide Potassium Persulfate Nitrogen Barium Sulfate' Ammonium Persu Ifate Sodium Tetraphosphate Water Korad Zinc Sulfate Sodium Metabisulfite Potassium Nitrate Disodium Sulfate Sodium Sulfate Sodium Sulfite Magnesium Sulfite Potassium Bromate Potassium Bromide Potassium Iodate Potassium Nitrite Dipotassium Phosphate Sodium Chlorite Textone Pentasodium Triphosphate Sodium Triphosphate Sodium Tripolyphosphate Calcium Phosphate Cerous Fluoride Copper Chloride Cuprous Chloride Ferrous Chloride Iron (II) Chloride Lead Chloride Lead Chromate Copper Sulfate Cupric Sulfate Silver Nitrate Sodium Hyposulfite Sodium Thiosulfate Stannous Chloride Tin (II) Chloride Tin Chloride Manganese Chloride Manganous Chloride Potassium Bisulfite Ammonium Sulfamate Mercuric Iodide Sodium Chlorate Sodium Chromate Sodium Dithionite Sodium Hydrosutfite Sodium Hyposulfite Sodium Persulfate Calcium Sulfate Arsenic Acid
© Plastics Design Library
7n8-44-1 7778-49-6 7n8-50-9 7n8-53-2
7778-54-3 7778-66-7 7n8-74-7 7778-77-0 7n8-80-5 7779-25-1 7n9-86-4 7779-88-6 7n9-90-0 7782-41-4 7782-42-5 7782-44-7 7782-50-5 7782-68-5 7782-77-6 7782-78-7 7782-91-4 7782-99-2 7783-00-8 7783-03-1 7783-05-3 7783-06-4 7783-07-5 7783-08-6 7783-18-8 7783-20-2 7783-28-0 7783-35-9 7783-47-3 7783-54-2 7783-56-4 7783-61-1 7783-66-6 7783-70-2 7783-81-5 7783-82-6 7783-86-0 7783-90-6 7784-18-1 7784-25-0 7784-26-1 7784-30-7 7784-34-1 7784-40-9 7784-42-1 7784-46-5 7785-23-1 7785-84-4 7785-87-7 7786-30-3 7786-81-4 7787-39-5 7787-47-5 7787-49-7 7787-59-9 7787-60-2 7787-69-1 7787-71-5 7789-00-6 7789-04-0 7789-09-5 7789-19-7 7789-21-1
Calcium Arsenate Potassium Citrate Potassium Bichromate Potassium Dichromate Potassium Phosphate Tripotassium Phosphate Calcium Hypochlorite Lime Chloride Potassium Hypochlorite Potassium Perchlorate Potassium Diphosphate Potassium Sulfate Magnesium Citrate Zinc Hydrosulfite Zinc Nitrate Zinc Phosphate Fluorine Graphite Oxygen Chlorine lodic Acid Nitrous Acid Nitrosylsulfuric Acid Molybdic Acid Sulfurous Acid Selenious Acid Tungstic Acid Pyrosulfuric Acid Hydrogen Sulfide Hydrogen Selenide Selenic Acid Ammonium Thiosulfate Ammonium Sulfate Diammonium Phosphate Mercuric Sulfate Stannous Fluoride Nitrogen Trifluoride Antimony Trifluoride Silicon Fluoride Silicon Tetrafluoride Iodine Pentafluoride Antimony Pentafluoride Hexafluorouranium Uranium Hexafluoride Tungsten Hexafluoride Ferrous Iodide Silver Chloride Aluminum Fluoride Ammonium Alum Ammonium Aluminum Sulfate Ammonium Alum Alum inum Phosphate Arsenic Trichloride Lead Arsenate Arsine Sodium Arsen ite Silver Bromide Sodium Metaphosphate Manganese Sulfate Manganous Sulfate Magnesium Chloride Nickel Sulfate Barium Sulfite Beryllium Ch loride Beryllium Fluoride Bismuth Oxychloride Bismuth Chloride Cesium Bromide Bromine Trifluoride Potassium Chromate Chrom ic Phosphate Ammonium Dichromate Cupric Fluoride Fluosulfonic Acid
7789-23-3 7789-29-9 7789-30-2 7789-31-3 7789-38-0 7789-41-5 7789-42-6 7789-48-2 7789-61-9 7789-75-5 7789-78-8 7789-79-9 7790-62-7 7790-69-4 7790-75-2 7790-86-5 7790-91-2 7790-92-3 7790-93-4 7790-94-5 7790-98-9 7791-03-9 7791-25-5 7791-27-7 78-00-2 78-11-5 78-13-7 78-40-0 78-42-2 78-59-1 78-75-1 78-78-4 78-82-0 78-83-1 78-84-2 78-87-5
78-89-7 78-92-2 78-93-3
78-95-5 7803-49-8 7803-51-2 7803-57-8 7803-62-5 7803-63-6 78244-98-1 79-00-5 79-01-6
79-04-9 79-06-1 79-08-3 79-09-4 79-10-7 79-11-8 79-14-1 79-20-9 79-21-0 79-22-1 79-24-3 79-27-6 79-31-2
Potassium Fluoride Potassium Btfluoride Bromine Pentafluoride Bromic Acid Sodium Bromate Calcium Bromide Cadmium Bromide Magnesium Bromide Antimony Tribrom ide Calcium Fluoride Calcium Hydride Calcium Hypophosphite Potassium Pyrosulfate Lithium Nitrate Calcium Tungstate Cerous Chloride Chlorine Trifluoride Hypochlorous Acid Chloric Acid Chlorosulfonic Acid Ammonium Perchlorate Lithium Perchlorate SuIfonyl Ch loride SUlfuryl Chloride Pyrosulfuryl Chloride Tetraethyllead Pentaerythritol Tetranitrate Coolanol25 Tetra{2-Ethylbutyl} Silicate Triethyl Phosphate Trioctyl Phosphate Isophorone Dibromopropane (1 ,2-) Propylene Dibromide Isopentane Isobutyronitrile Isobutyl Alcohol Isobutyraldehyde Dichloropropane (1 ,2-) Propylene Chloride Propylene Dichloride Propylene Chlorohydrin Butyl Alcohol (sec-) Butanone (2-) Butanone Methyl Ethyl Ketone Ch loroacetone Hydroxylamine Hydrogen Phosphide Phosphine Hydrazine Hydrate Silane Ammonium Bisulfate Korsolin Trichloroethane (1,1 ,2-) Trichloroethane Ethylene Trichloride Trich loroethylene Trilene Chloroacetyl Chloride Acrylamide Bromoacetic Acid Propionic Acid Acrylic Acid Chloroacetic Acid Glycolic Acid Hydroxyacetic Acid Methyl Acetate Peracetic Acid Methyl Chloroformate Nitroethane Tetrabromoethane (1,1 ,2,2-) Acetylene Tetrabromide Isobutyric Acid
7704-34-9 to 79-31-2
972
CAS Registry Numbers - Numeric Sort
79-34-5
79-38-9
Tetrach loroethane (1,1 ,2,2-)
8013-32-9
Cherry Syrup
868-14-4
Acetylene Tetrachloride
8013-76-1
Bitter Almond Oil
868-18-8
Potassium Bitartrate Sodium Tartrate
Tetrach loroethane
8014-19-5
Palmarosa Oil Oleum
869-29-4 87-17-2
Allylidene Diacetate Salicylanilide
Ch lorotrifluoroethylene
8014-95-7
Trifluoroch loroethylene
8015-61-0
Aloin
87-66-1
Pyrogallic Acid
Trifluorovinylchloride
8015-63-2
Amyl Nitrate
87-68-3
Hexachloro-1,3-Butadiene Hexach lorobutadiene
Methacrylic Acid
8015-64-3
Angelica Seed Oil
Methyl Acrylic Acid
8015-91-6
Cinnamon Oil
87-69-4
79-43-6
Dichloroacetic Acid
8024-07-5
Violet Oil
87-78-5
Mannitol
79-46-9
Nitropropane (2-)
8024-09-7
Walnut Oil
87-86-5
Pentachlorophenol
79-92-5
Camphene
8024-12-2
Verbena Oil
Hexene
8026-70-8
Green Soap
79-41-4
79390-45-7
87805-55-8 88-04-0
Tartaric Acid
Baydur726 Ch loroxylenol
NorylGFN3
8028-89-5
Caramel
88-09-5
Ethylbutyric Acid (2-)
80-15-9
Cumene Hydroperoxide
8028-98-6
88-69-7
Isopropylphenol (0-)
80-58-0
Bromobutyric Acid (2-)
8029-31-0
Acetol Beer
88-72-2
Nitrotoluene (0-)
80-62-6
Methyl Methacrylate
8029-34-3
Butter
88-89-1
Picric Acid
8000-27-9
Cedar Wood Oil
8029-43-4
Corn Syrup
88-95-9
Phthaloyl Ch loride
8000-28-0
Lavender Oil
8030-30-6
Naphtha
88-99-3
Phthalic Acid
8000-41-7
Terpineol
8031-68-3
Soy Sauce
8000-48-4
Eucalyptus Oil
8032-32-4
Ligroin
79586-58-6
88161-21-1
Dylark 350
89-55-4
Bromosalicylic Acid (5-)
8001-20-5
Tung Oil
Quinine Sulfate
89-72-5
Butylphenol (o-sec-)
8001-21-6
Sunflower Oil
8044-71-1
Cetavlon
89-78-1
Menthol
8001-22-7
Soybean Oil
8047-99-2
Santicizer 8
89-83-8
8001-26-1
Linseed Oil
8050-09-7
Rosin
8001-29-4
Cottonseed Oil
8050-76-8
Cold Cream
8001-30-7
Corn Oil
8052-42-4
Bitumen
8001-31-8
Coconut Oil
8061-51-6
Sodium Lignosulfonate
Benzalkonium Chloride
8061-53-8
Ammonium Lignosulfonate
90-64-2 9000-01-5
Mandelic Acid
8001-54-5
Zephiran Chloride
8063-89-6 8068-44-8
BioborJF
9000-11-7
804-63-7
89127-09-3 90-02-8
Thymol Zytel ST 801 Salicyla Idehyde Salicylic Aldehyde Gum Acacia
8001-58-9
Creosote
Clophen A50
9000-59-3
Carboxymethyl Cellulose Shellac
8001-69-2
Cod Liver Oil
81-07-2
Saccharin
9000-65-1
Gum Tragacanth
8001-75-0
Ceresin
81-16-3
Tobias Acid
9000-69-5
Pectin
8001-79-4
Castor Oil
81-64-1
Quinizarin
9002-83-9
Aclar22A
8001-85-2
Bone Oil
814-80-2
Calcium Lactate
8002-09-3
Pine Oil
814-87-9
Alum inurn Oxalate
8002-13-9
Rapeseed Oil
81458-53-9
Rulon J
8002-23-1
Spermaceti
81624-06-8
Hexene
8002-24-2
Sperm Oil Tall Oil
81843-52-9
8002-26-4 8002-31-1 8002-33-3
Cocoa Butter Red Oil
82-05-3
Turkey Red Oil
824-35-1
8002-64-0
Neats Foot Oil
83-40-9
8002-74-2
Johnsons wax 111 Palm Oil
8002-75-3
83-88-5 83764-86-7
Aclar 33C Kel-F81 9002-84-0
Fluon Fluon VG15
Vectra A515
Teflon
Vectra A950 Vectra C950 Benzanthrone
Teflon 340
Calcium Salicylate Cresotinic Acid (0-)
9002-86-2 9002-88-4
Polyvinyl Chloride Geon 8700A DFD-6005 HRSN 8907
Riboflavin
HiFax
WD40
Hostalen GUR Petrothene
8003-19-8
Vidden D
84-65-1
Anthraquinone
8004-13-5
Dowtherm
84-66-2
Diethyl Phthalate
9002-89-5
Polyvinyl Alcohol
Palatinol A
9002-91-9
Metaldehyde
8006-54-0
Lanolin
84-69-5
Oiisobutyl Phthalate
9002-92-0
Marlipal MG
8006-80-2
Sassafras Oil
84-72-0
Santicizer E15
9002-93-1
Triton X100
8006-87-9
Sandalwood Oil
84-74-2
Butyl Phthalate
9002-98-6
Tydex 12
Dibutyl Phthalate
9003-01-4
Goodrite K702 Sodium Polyacrylate Polyacrylam ide
Dowtherm A
SantalOil
Goodrite K732
Palatinol C
8007-01-0
Rose Oil
8007-12-3
Nutmeg Butter Nutmeg Oil
84-75-3
Dihexyl Phthalate
9003-04-7
84-76-4
Dinonyl Phthalate
9003-05-8
8007-20-3
Cedar Leaf Oil
84-77-5
9003-07-0
8007-35-0
Terpinyl Acetate
Didecyl Phthalate Torlon 4203L
8007-45-2
Coal Tar Tar
8007-46-3 8007-56-5
Aqua Regia Carbolineum Almond Oil
8007-80-5
Phthalic Anhydride
85-68-7
Benzyl Butyl Phthalate 9003-20-7
Polyvinyl Acetate
85-70-1
Santicizer B16
9003-53-6
85-71-2
Santicizer M17 Rosin XT
Polystyrene Lustrex
85389-70-4
Cassia Oil
85797-85-9
Nutmeg Oil Sesame Oil
8009-03-8 8011-48-1
Petrolatum Pine Tar
8012-95-1 8012-99-5
Nujol Cherry Juice
8013-03-4
Ethereal Oil
Tenite 4231 Ucon LB1145
85026-55-7
8008-74-0
Pro-Fax PD-701 9003-13-8
Anise Oil
8008-45-5
Fortilene Pro-Fax
Butyl Benzyl Phthalate Butylbenzyl Phthalate
Aniseed Oil Cinnamon Oil
79-34-5 to 9003-56-9
85-44-9
Thyme Oil
8007-65-6 8007-69-0 8007-70-3
84683-57-8
86-74-8
Polystyrol 168N Styrolux Styron
Vectra A130 Carbazole
Styron 484
Diphenylenimine 86338-40-1
Rynite 935
9003-54-7
Styron 6850 Tyril Tyril1000B
866-81-9
Cobalt Citrate
866-83-1
Potassium Citrate
866-84-2 86675-35-6
Potassium Citrate Dylark700
Cycolac KJM
Cream of Tartar
Cycolac KJU
868-14-4
9003-56-9
Cycolac Cycolac KJB
© Plastics Design Library
973 CAS Registry Numbers - Numeric Sort
9003-56-9 9004-10-8 9004-32-4 9004-35-7 9004-36-8
9004-42-6 9004-53-9 9004-57-3 9004-67-5 9004-70-0 9004-81-3 9005-08-7 9005-25-8 9005-64-5 9005-65-6 9005-81-6 9008-08-6 9008-66-6 9010-75-7 9010-79-1 9010-94-0 9011-13-6
9011-14-7
9015-51-4 9016-45-9
9017-80-5 9038-95-3
9062-88-8 90622-57-4 9071-17-4 9077-21-8 9077-36-5 9078-96-0 9080-17-5 90803-58-0 9083-53-8 91-17-8
91-20-3 91-22-5 91-64-5 91-66-7 91-67-8 917-61-3 91722-33-7 919-16-4 92-04-6 92-52-4 92-69-3
Cycolac L Cycolac T Insulin Carboxym ethyl Cellulose Cellulose Acetate Cellulose Acetate Butyrate Tenite Butyrate Uvex Carboxyethyl Cellulose Dextrin Ethyl Cellulose Methyl Cellulose Cellulose Nitrate Nitrocellulose Polyethylene Glycol Monolaurate Polyethylene Glycol Distearate Corn Starch Tween 20 Tween 80 Cellophane Hypalon Hypalon 40 Ultramid S Ultramid S Aclar 22 Tenite 5020 XT375 Dylark 132 Dylark 332 Dylark 378P20 Acrylite Acrylite H-12 Diakon Plexiglas V Plexiglas V044 Plexiglas V052 Plexiglas V811 Plexiglas V920 Polycast Protargol Marlophen 810 Marlophen 83 Marlophen 89 ECR34 Ucon 50H B100 Ucon 50H B260 Ucon 50HB5100 Ucon 50HB55 Ucon 50H B660 Noryl SE1 Isopar G Isopar H Trogamid T Fluon VG25 Mowilith Surlyn Ammonium Polysulfide Lexan 153 Triton Decahydronaphthalene Decalin Dekalin Naphthalene Quinoline Coumarin Diethylan i1ine Diethyl-m-Toluidine (N,N-) Sodium Cyanate Tar Lithium Citrate Chloro-4-phenylphenol (2-) Diphenyl Phenyl Benzene Phenylphenol (p-)
© Plastics Design Library
92-87-5 920-66-1 92091-76-4 92129-90-3 93-15-2 93-58-3 93-76-5 93-89-0 94-36-0 94-75-7
94-96-2 94148-82-0 94947-58-7 95-13-6 95-47-6 95-48-7 95-50-1 95-63-6 95-73-8 95-75-0 95-76-1 95-92-1 95-95-4 95327-43-8 95507-65-6 95660-51-8 95752-18-4 96-05-9 96-18-4 96-22-0 96-24-2 96-32-2 96-33-3 96-34-4 96-37-7 96-48-0 96-49-1 97-00-7 97-53-0 97-54-1 97-63-2 97-64-3 97-65-4 97-88-1 97-93-8 97-94-9 97-99-4 98-00-0 98-01-1 98-07-7 98-08-8 98-11-3 98-13-5 98-54-4 98-59-9 98-82-8 98-83-9 98-86-2 98-88-4 98-92-0 98-95-3 980-21-2 98444-09-8 98499-64-0 98824-21-6 99-71-8 99-87-6 99-89-8 994-36-5
Benzidine Hexafluoroisopropyl Alcohol Electrosol Whey Methyl Eugenol Methyl Benzoate Trichlorophenoxyacetic Acid (2,4,5-) Ethyl Benzoate Benzoyl Peroxide Dichlorophenoxyacetic Acid (2,4-) Dichlorophenoxyacetic Acid DMA6 Ethyl-1 ,3-Hexanediol (2-) Avimid K Delrin 100 Indene Xylene (0-) Cresol (0-) Dichlorobenzene (1,2-) Dichlorobenzene (0-) Pseudocumene Dich lorotoluene (2,4-) Dichlorotoluene (3,4-) Dichloroaniline (3,4-) Ethyl Oxalate Trichlorophenol (2,4,5-) Celcon M90 Hetron 922 Skydrol Uran Allyl Methacrylate Trichloropropane (1,2,3-) Diethyl Ketone Chlorohydrin Methyl Bromoacetate Methyl Acrylate Methyl Ch loroacetate Methyl Cyclopentane Butyrolactone Ethylene Carbonate Din itrochlorobenzene Eugenol Isoeugenol Ethyl Methacrylate Ethyl Lactate Itaconic Acid Butyl Methacrylate Triethylaluminum Triethylborane Tetrahydrofurfuryl Alcohol Furfuryl Alcohol Furaldehyde (2-) Furfural Benzotrich loride Benzotrifluoride Benzenesulfonic Acid Trich lorophenylsilane Butylphenol (p-tert-) Toluenesulfonyl Chloride Cumene Isopropyl Benzene Methyl Styrene Acetophenone Benzoyl Ch lorida Nicotinamide Nitrobenzene Dityrosine Geon 85856 Alum inum Phosphate Baydur 724 Butylphenol (p-sec-) Cymene (p-) Isopropylphenol (p-) Sodium Citrate
90003-56-9 to 994-36-5
974 Abbreviations used in this book AASC
methyl methacrylate n-butylacrylate
abras
abrasion
cont.
continuous
FVMQ
copol.
copolymer
GE
absorp
absorption
corr
accep
acceptable
CP
acrylon. copol. Adv. Elast. AEC Alkyd Resin
acrylonitrile copolymer
craz
corrosion Cellulose Propionate crazing
gen.purp gener. Geon Co
Methylvinylfluorosilicone GE Plastics general purpose generally Geon Company
Advanced Elastomer Systems
cryst.
crystalline
gl.lmin
glass fiber / mineral filler
aromatic polyester estercarbonate
CSM
Chlorosulfonated Polyethylene Rubber
gl./min
mineraVglass
Alkyd
dacron
gl.fib
glass fiber
Allied Sig
Allied Signal
DAP
Diallyl Phthalate Resin
gl.fib
glass fiber/sphere
alpha eel.
alpha cellulose
dark
darkened
Amoco amor Ans. Edm
Amoco Performance Products amorphous Ansell Edmont
dac
decom p degrad diam
gl.fib
mixed glass fiber
decom position
gl.fib.lmisc
glass fiber / complex filler
degradation
gl.fib.rrFE
glass fiber / TFE fiber
diameter
glass filler
antioxidant
dimen
appear
appearance
direc
applic
applications
discolor
discoloration
graph.lasb
graphite/asbestos fiber
disint.
disintegrates
graph.lfluoro
graphite / fluorocarbon
aq arom. pOlyam AS-4 fib
aqueous aromatic polyamide AS-4 fiber
dissolving
distort
distortion
Dow
asbestos
b.p
boiling point
Dow Corn
BF Goodrich
DuPont Can
bideg
biodegradable
EACM
BIP
BIP Chern icals
Eastman
bl.pig
black pigment
black
blackened
blist. BP Chern
blistered
elev elong EPDM
carbon/glass fiber
carbon black
carbofib
carbon fiber
cel.fib
CTMP aspen cellulosic fiber
cel.fib
wood flour fiber
chalk
chalking
chg Chlorinated TPO CO comm
change Chlorinated Polyolefin Ethylene Interpolymer Alloy Chlorohydrin Rubber
compatibility
cone
concentration
IM-6 fiber
elongation
immers
immersion
Ethylene Propylene Diene Methylene Terpolymer
imp.str
impact strength injection molded
Ethylene Propylene Copolymer lsophthalate Polyester
Epoxy Resin Japan Synthetic Rubber Company
Ethylene Propylene Rubber laboratory
environmental stress crack resistance Lenzing AG
excellent
ext
extensive
LLDPE Ing.gl.
light linear low density polyethylene Iong glass
extrusion Ing.gl.fib
long glass fiber
fabric LNP
LNP Engineering Plastics
lube
Iubricating
fertilizer
FFKM Tetrafluoroethylene Perfluoromethyl Vinyl Ether Copolymer
max
maximum
FKM
MBS
methyl methacrylate butadiene styrene
med
medium
Vinylidene Fluoride Hexafluoropropylene Copolymer
FKMrrFE ..... Vinylidene Fluoride Hexafluoropropylene Tetrafluoroethyl
Melam ine
FMQ
Meth
Methylfluorosilicone
Melam ine Resin
formulation Fluorosilicone
MF MI
Methanol meltflow melt index
Concept Polymer FTPE
Fluorinated Thermoplastic Elastomer
mil.gl.
milled glass
mineral
mineral filler
conditions Furane
Furan Resin
considerable misc
Abbreviations
Isobutylene Isoprene Rubber
IM-6 fib
exposure
FQ
consid
IIR
elevated
expos
formul.
condit
hour
commercial
compo
Cone. PoL
Eastman Performance Plastics
Lenzing
fertil.
Hoechst Celanese
Huls AG
Igt.
fab
hardness
Huls America
lab
extrus
graphite filler
Huls
Isopolyester
exc carb.bl.
Hoechst Cel. hr
Jap. Synth ESCR
carbon fiberrrFE fiber
hard
Huls
carbon fiber/woven cloth
carb.lgl.fib
graph.fib
graphite/aramid fiber
DuPont Canada
Cellulose Acetate Butyrate
carb.rrFE
graph.laram
graphite
Ethylene Acrylate Rubber
Cellulose Acetate EPR
carb.lcloth
Dow Corning
graph
inj. mold Epoxy
CAB
Dow Chem ical
BP Chern icals EPM
CA
direction
dissolv
asb
BF Good
dimension
gl.fil.
antiox
unknown filler
© Plastics Design Library
975 Abbreviations used in this book Mitsubishi
Mitsubishi Gas Chemical
retard
Mitsui Toa
Mitsui Toatsu Chem icals
Rhone Pou
mod
modified
moder
moderate
moist.
moisture
retardant Rhone Poulenc
VA
vinyl alcohol
var
variable
RIM PU......... Polyurethane Reaction Injection Molding System
VDF/CTFE Vinylidene Fluoride Chlorotrifluoroethylene Copolymer
RIM PU......... Polyurethane Reaction Injection Molding System
Vinyl Ester vise
mol
molecular
rot.mold
molecular weight
S2 fab
Methylsilicone
mths
months
NBR
Nitrile Rubber
S2 gl.
S-2 glass tape
sap
saponification
SBR
Styrene Butadiene Rubber
Network Pol.
Network Polymers
Nippon Goh
Nippon Gohsei
SEP
styrene ethylene/propylene
Novacor Chem icals
Shell
Shell Chern ical
sht.gl.
short glass fiber
Novacor NR
Natural Rubber
Occiden Orthopolyester
Occidental
PABM
SEBS
SI signif
significant
sil.fil.
silica filler
Polyam inobismaleimide
Parker Han
Parker Hannifin partially
sl. soft
soften ing solution
PC
polycarbonate polyethylene
stabiliz
perm
permeability
stain
perm
permeation Peroxide Curable Fluoroelastomer
Phenolic
Phenolic Resin
phys
physical
Pl
stab
str
sup.tgh
Polyamide TPE
Polyamide Thermoplastic Elastomer
Polyester TPE
Polyester Thermoplastic Elastomer
polyol.
poIyolefin
T
Polysulfide Rubber
temp
temperature
tens.str
tensile strength
terpol.
terpolymer
TFP copol. ..Tetrafluoroethylene Propylene Copolymer TFP terpol. Tetrafluoroethylene Propylene Terpolymer
possible
Ti02
prop
property
Ti02lfluoro
pts PU
titanium dioxide Ti02/ fluorocarbon
properties
Toray
Toray Industries
points
TPAU
Thermoplastic Polyester Urethane Elastomer
Polyurethane
PVA
Polyvinyl Alcohol
TPE TPEU
Thermoplastic Elastomer Thermoplastic Polyether Urethane Elastomer
PVC Polyol
Polyvinyl Chloride Polyol
TPO
Olefinic Thermoplastic Elastomer
PVMQ
Methylphenylvinylsilicone
TPU
Urethane Thermoplastic Elastomer
question
questionable
recom
recommended
resist.
resistant
resorc
resorcinol
ret.
© Plast ics Design Library
retained
years.
surface
poss
props
wollastonite filler
super tough
surf
swelling
polyallomer
yrs
weight white pigment
Styrenic Thermoplastic Elastomer
synthetic
Methylphenylsilicone
woll.fil.
weather resistant
strength
Styrenic TPE
synth
PMQ
white pig
with
staining
swell.
polyal.
weath.res wgt.
volume
stabilized
Polyimide
plasticizer
w/
stabilization
Pioneer Inductrial Products
plast.
vol.
Methylvinylsilicone Methylvinylfluorosilicone Alloy
slight
sol'n
PE
Pioneer
Silicone
oxidizer
part
Perox. Cur
styrene ethylenelbutylene styrene
Orthophthalate Polyester
oxid
Methylvinylsilicone
woven S2 glass fabric VMQ/FVMQ
MQ
viscosity
rotational molding VMQ
mol.wgt.
Vinyl Ester Resin
UF unidir. Union Car unsatisf. UTS
Urea Resin unidirectional Union Carbide unsatisfactory ultimate tensile strength
Abbreviations
976 Trade Name Index
Fluorel (3M)
Aflas (3M) Fluoroelastomer (TFP)
280
Fluoroelastomer (FKM)
Neoprene (Du Pont) 190
Fluorel II (3M)
Alcryn (Du Pont) Olefinic TPE
29
Fluoroelastomer (TFP)
Polyimide
707
Phenolic Resin
Polyester (Isophthalate)
659
Olefinic TPE
Polyester (Bisphenol A) Polyester (Chlorendic) Polyester Terephthalate Vinyl Ester Resin
561 621 703 716
Polyester
Ethylene Propylene Rubber ..... 141
Urethane TPE
Polyamide TPE
1
Pellethane (Dow) 29
Urethane TPE (TPAU) Urethane TPE (TPEU)
60 60
GP-N (DuPont)
Baydur (Miles) Polyurethane
710
Olefinic TPE
29
PF-B (Du Pont) Olefinic TPE
29
Hercules (HerCUles)
Beetle (Am. Cyan.) Urea Resin
711
Epoxy Resin
521
Pibi'flex (EniChem) Polyester TPE
11
Hetron (Ashla.nd)
C-Flex (Cone. Pol.) Styrenic TPE
25
Canners and Handlers (Ans. Edm.) Natural Rubber
60
Pebax (Atochem) 558
GP-B (DuPont) Olefinic TPE
312
Parker (Parker Han.) 29
Glastic (Glastic)
Atlac (Reichhold)
Neoprene Rubber
Nordel (DuPont) 538
Geolast (Adv. Elast.)
Aropol (Ashland)
312
Neox (Ans. Edm.) 280
Genal (GE)
Apical (Allied Sig.)
Neoprene Rubber
:
285
Furane Resin Polyester (Bisphenol A) Polyester (Chlorendic) Polyester (Isophthalate) Vinyl Ester Resin
530 561 621 659 716
PRF2 (Indspec) Phenolic Resin
538
PVA (Ans. Edm.) Polyvinyl Alcohol
414
Colo-Fast LM (Recticel) Polyu rethane
405
Pylox (Pioneer)
HyComp (Dexter) Epoxy Resin
521
PVC Polyol
81
Cosmic (Cosmic) Diallyl Phtha.late Resin
508
Hypalon (DuPont) Chlorosulfonated PE Rubber .... 118
RX (Rogers) Diallyl Phthalate Resin
508
Cymel (Am. Cyan.) Melamine Resin
537
Santoprene (Adv. Elast.)
Hytrel (Du Pont) Polyester TPE
11
Ole'finic TPE
29
Derakane (Dow) Vinyl Ester Resin
716
Silastic (Dow Corn.)
IM-B (DuPont) Olefinic TPE
29
Durimid (Rogers) Polyimide
707
Olefinic TPE
29
Polybutadiene
101
SP-B (DuPont) Olefinic TPE
Ethylene Propylene Rubber ...... 141
Fluoroelastomer (FFKM)
255
Stansolv (Pioneer) Nitrile Rubber
Fluoroelastomer (VDF/CTFE) ... 190
Stanzoil (Pioneer) Neoprene Rubber
Polyaminobismaleimide
709
Texin (Miles) Urethane TPE (TPAU)
521
Styrenic TPE
25
Upilex (Ube) Polyimide
81
Polyester TPE
11
Upimol (Ube) Polyimide
Trade Name Index
707
707
Monkey Grip (Ans. Edm.)
Fiberite (Fiberite) Phenolic Resin
60
Lomod (GE)
Ever-Flex (Ans. Edm.) PVC Polyol
312
Kinel (Rhone Pou.)
Kraton (Shell)
Epon (Shell) Epoxy Resin
252
Kel-F (3M)
Elastollan (BASF) 60 60
29
Kalrez (DuPont)
Ecdel (Eastman) 11
252
JSR (Jap. Synth.)
Dutral TER (Ausimont)
Urethane TPE (TPAU) Urethane TPE (TPEU)
Sol-Vex (Ans. Edm.) Nitrile Rubber
Ethylene Propylene Rubber ...... 141
460 419
IM-N (DuPont)
Dutral CO (Ausimont)
Polyester TPE
Fluorosilicone Silicone
538
PVC Polyol
81
© Plastics Design Library
977 Trade Name Index
Vamac (DuPont) Ethylene Acrylate Rubber Vestamid (Huls) Polyamide TPE
139
1
Vibrin (Owens Corn.) Polyester (Bisphenol A) Polyester (I sophthalate) Vinyl Ester Resin
561 659 716
Viton (Du Pont) Fluoroelastomer Fluoroelastomer (FKM) Fluoroelastomer (FKM/TFE)
190 190 190
Vyram (Adv. Elast.) Olefinic TPE
29
Wet-Wear (Ans. Edm.) PVC Polyol
81
Xycon (Amoco) Polyester Zytel FN (Du Pont) Polyamide TPE
© Plastics Design Library
558
1
Trade Name Index
