System Message
Advertise with MatWeb!
Data sheets for over
180,000
metals, plastics, ceramics, and composites.
HOME
•
SEARCH
•
TOOLS
•
SUPPLIERS
•
FOLDERS
•
ABOUT US
•
FAQ
•
LOG IN
Recently Viewed Materials (most recent at top)
Login
to see your most recently viewed materials here.
Or if you don't have an account with us yet, then
click here to register.
Searches:
Advanced
|
Category
|
Property
|
Metals
|
Trade Name
|
Manufacturer
|
Recently Viewed Materials
Eneos N239SV Nitrile Rubber
Categories:
Polymer
;
Thermoset
;
Rubber or Thermoset Elastomer (TSE)
Material Notes:
Characteristics: Easy processing, Good balance of oil resistance and cold resistance
Application: Packing, gasket, hoses
ENEOS has acquired the elastomer product lines from JSR Corporation.
Vendors:
No vendors are listed for this material. Please
click here
if you are a supplier and would like information on how to add your listing to this material.
Printer friendly version
Download as PDF
Download to Excel (requires Excel and Windows)
Export data to your CAD/FEA program
Add to Folder:
My Folder
Physical Properties
Metric
English
Comments
Specific Gravity
0.980
g/cc
0.980
g/cc
Mooney Viscosity
30
@Temperature 100 °C
30
@Temperature 212 °F
ML1+4
39
@Temperature 100 °C
39
@Temperature 212 °F
ML1+4, Compound (non-vulcanized)
29
@Temperature 125 °C,
Time 54000 sec
29
@Temperature 257 °F,
Time 15.0 hour
Scorch Test, ML1, Compound (non-vulcanized)
Mechanical Properties
Metric
English
Comments
Hardness, Shore A
69
69
69
69
Compound (vulcanized)
52
@Temperature 40.0 °C,
Time 173000 sec
52
@Temperature 104 °F,
Time 48.0 hour
Fuel Oil B, Compound (non-vulcanized)
55
@Temperature 120 °C,
Time 252000 sec
55
@Temperature 248 °F,
Time 70.0 hour
IRM903, Compound (vulcanized)
68
@Temperature 120 °C,
Time 252000 sec
68
@Temperature 248 °F,
Time 70.0 hour
IRM901, Compound (vulcanized)
74
@Temperature 120 °C,
Time 252000 sec
74
@Temperature 248 °F,
Time 70.0 hour
Air heat Aging, Compound (non-vulcanized)
Tensile Strength
17.8
MPa
2580
psi
17.8
MPa
2580
psi
Compound (vulcanized)
7.832
MPa
@Temperature 40.0 °C,
Time 173000 sec
1136
psi
@Temperature 104 °F,
Time 48.0 hour
Fuel Oil B, Compound (non-vulcanized)
16.02
MPa
@Temperature 120 °C,
Time 252000 sec
2324
psi
@Temperature 248 °F,
Time 70.0 hour
IRM903, Compound (vulcanized)
18.156
MPa
@Temperature 120 °C,
Time 252000 sec
2633.3
psi
@Temperature 248 °F,
Time 70.0 hour
IRM901, Compound (vulcanized)
18.868
MPa
@Temperature 120 °C,
Time 252000 sec
2736.6
psi
@Temperature 248 °F,
Time 70.0 hour
Air heat Aging, Compound (non-vulcanized)
Elongation at Break
470 %
470 %
470 %
470 %
Compound (vulcanized)
225.6 %
@Temperature 40.0 °C,
Time 173000 sec
225.6 %
@Temperature 104 °F,
Time 48.0 hour
Fuel Oil B, Compound (non-vulcanized)
310.2 %
@Temperature 120 °C,
Time 252000 sec
310.2 %
@Temperature 248 °F,
Time 70.0 hour
Air heat Aging, Compound (non-vulcanized)
324.3 %
@Temperature 120 °C,
Time 252000 sec
324.3 %
@Temperature 248 °F,
Time 70.0 hour
IRM901, Compound (vulcanized)
394.8 %
@Temperature 120 °C,
Time 252000 sec
394.8 %
@Temperature 248 °F,
Time 70.0 hour
IRM903, Compound (vulcanized)
100% Modulus
3.60
MPa
522
psi
Compound (vulcanized)
300% Modulus
13.3
MPa
1930
psi
13.3
MPa
1930
psi
Compound (vulcanized)
Resilience
37
37
[%], Rebound, Compound (vulcanized)
Tear Strength
51.0
kN/m
291
pli
Compound (vulcanized)
Compression Set
13 %
@Temperature 100 °C,
Time 252000 sec
13 %
@Temperature 212 °F,
Time 70.0 hour
Compound (vulcanized)
19 %
@Temperature 120 °C,
Time 252000 sec
19 %
@Temperature 248 °F,
Time 70.0 hour
Compound (vulcanized)
Thermal Properties
Metric
English
Comments
Brittleness Temperature
-35.0
°C
-31.0
°F
Descriptive Properties
Acrylonitrile Content (%)
34
Delta;V
100
(%)
15
IRM903 70 hrs at 120°C, Compound (vulcanized)
2
Distilled Water 70 hr at 40°C, Compound (non-vulcanized)
-3
IRM901 70 hrs at 120°C, Compound (vulcanized)
34
Fuel Oil B 48 hrs at 40°C, Compound (non-vulcanized)
58
Fuel Oil C 48 hrs at 40°C, Compound (non-vulcanized)
91
Fuel Oil C/Ethanol 48 hrs at 40°C, Compound (non-vulcanized)
Extrusion Test
293 cc/min
80°C, 25 rpm, Extrusion Volume
341 cm/min
80°C, 25 rpm, Extrusion Length
69
80°C, 25 rpm, Die Swell %
Flex Test
14
Growth 2 to 15 mm (Thousand Times)
20
Occurrence(Thousand Times)
Flow Rate
370
Q×10
4
, 80°C, 100 kg, Kokahiki Flow tester
JSR Mold Curast Test 160°C, Minutes
2
t
c(10)
5
t
c(90)
Low-Temperature Torsion Test
-20°C
t10
-29°C
t100
Mill Contraction 50°C (%)
31
Ozone Degradability Test
C-3
Static 20% Elongation, 50 ppm 5 Hours at 40°C
C-3
Dynamic 0 to 20% Elongation, 50 ppm 5 Hours at 40°C
Product form
Bale
Product Stain
NS
Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's
terms of use
regarding this information.
Click here
to view all the property values for this datasheet as they were originally entered into MatWeb.
PJSRC8064 / 295380
Subscribe to Premium Services
Searches:
Advanced
•
Composition
•
Property
•
Material Type
•
Manufacturer
•
Trade Name
•
UNS Number
Other Links:
Advertising
•
Submit Data
•
Database Licensing
•
Web Design & Hosting
•
Trade Publications
Supplier List
•
Unit Converter
•
Reference
•
Links
•
Help
•
Contact Us
•
Site Map
•
FAQ
•
Home
Follow @MatWeb
Please read our
License Agreement
regarding materials data and our
Privacy Policy
. Questions or comments about MatWeb? Please contact us at
webmaster@matweb.com
. We appreciate your input.
The contents of this web site, the MatWeb logo, and "MatWeb" are Copyright 1996-2024 by MatWeb, LLC. MatWeb is intended for personal, non-commercial use. The contents, results, and technical data from this site may not be reproduced either electronically, photographically or substantively without permission from MatWeb, LLC.