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TPV 8191-55B100 CELANESE USA
156
Form:Granules | Grade:Injection grade
Properties:
dampingRecyclable materialsGood forming performanceOzone resistanceChemical resistanceOil resistant
Product Description
Certificates(0)
Datasheet
Product Description
| Properties: | damping | Recyclable materials | Good forming performance | Ozone resistance | Chemical resistance | Oil resistant |
Certificates
No Data...
Technical Data Sheet
| flammability | Test Condition | Test Method | Test Result | Test Unit |
|---|---|---|---|---|
| UL flame retardant rating | 3.0mm | UL 94 | HB | |
| 1.1mm | UL 94 | HB | ||
| elastomer | Test Condition | Test Method | Test Result | Test Unit |
| elongation | Break,23°C,Across Flow | ISO 37 | 600 | % |
| Break,23°C,Across Flow | ASTM D412 | 600 | % | |
| Permanent compression deformation | 125°C,70hr | ISO 815 | 55 | % |
| 125°C,70hr | ASTM D395B | 55 | % | |
| hardness | Test Condition | Test Method | Test Result | Test Unit |
| Shore hardness | ShoreA,15Sec,23°C | ISO 868 | 53 | |
| aging | Test Condition | Test Method | Test Result | Test Unit |
| Change rate of hardness (Shore) in the air | ShoreA,125°C,168hr | ASTM D573 | 8.0 | |
| ShoreA,100°C,168hr | ISO 188 | -4.0 | ||
| ShoreA,100°C,168hr | ASTM D573 | -4.0 | ||
| Tensile stress change rate | 125°C,168hr,Break | ISO 188 | -70 | % |
| 100°C,168hr,Break | ISO 188 | -14 | % | |
| Change rate of ultimate elongation in air | 125°C,168hr | ASTM D573 | -70 | % |
| 100°C,168hr | ASTM D573 | -14 | % | |
| Shore hardness | ShoreA,23°C,168hr,inWater | ISO 1817 | 5.0 | |
| ShoreA,23°C,168hr,inSodiumHydroxide,50% | ISO 1817 | 4.0 | ||
| ShoreA,23°C,168hr,inIRM903Oil | ISO 1817 | -33 | ||
| ShoreA,23°C,168hr,inHydrochloricAcid,10% | ISO 1817 | 4.0 | ||
| ShoreA,23°C,168hr,inEthanol,95% | ISO 1817 | 2.0 | ||
| Change rate of hardness (Shore) in the air | ShoreA,23°C,168hr,inWater | ASTM D471 | 5.0 | |
| ShoreA,23°C,168hr,inSodiumHydroxide,50% | ASTM D471 | 4.0 | ||
| Change rate of tensile strength in air | 100°C,168hr | ISO 188 | -28 | % |
| 125°C,168hr | ASTM D573 | -61 | % | |
| 100°C,168hr | ASTM D573 | -28 | % | |
| Change rate of hardness (Shore) in the air | ShoreA,125°C,168hr | ISO 188 | 8.0 | |
| Change rate of tensile strength in air | 23°C,168hr,inEthanol,95% | ASTM D471 | -17 | % |
| 23°C,168hr,inHydrochloricAcid,10% | ASTM D471 | -1.0 | % | |
| Change rate of ultimate elongation in air | 23°C,168hr,inIRM903Oil | ASTM D471 | -68 | % |
| 23°C,168hr,inSodiumHydroxide,50% | ASTM D471 | -7.0 | % | |
| 23°C,168hr,在水中 | ASTM D471 | -12 | % | |
| Tensile stress change rate | 23°C,168hr,inEthanol,95%,Break | ISO 1817 | -3.0 | % |
| 23°C,168hr,inHydrochloricAcid,10%,Break | ISO 1817 | -9.0 | % | |
| 23°C,168hr,inIRM903Oil,Break | ISO 1817 | -68 | % | |
| 23°C,168hr,inSodiumHydroxide,50%,Break | ISO 1817 | -7.0 | % | |
| 23°C,168hr,在水中,Break | ISO 1817 | -12 | % | |
| Change rate of hardness (Shore) in the air | ShoreA,23°C,168hr,inEthanol,95% | ASTM D471 | 2.0 | |
| ShoreA,23°C,168hr,inHydrochloricAcid,10% | ASTM D471 | 4.0 | ||
| Change rate of tensile strength in air | 23°C,168hr,inIRM903Oil | ASTM D471 | -85 | % |
| 23°C,168hr,inSodiumHydroxide,50% | ASTM D471 | 1.0 | % | |
| 23°C,168hr,在水中 | ASTM D471 | 2.0 | % | |
| 23°C,168hr,inEthanol,95% | ISO 1817 | -17 | % | |
| 23°C,168hr,在水中 | ISO 1817 | 2.0 | % | |
| Change rate of ultimate elongation in air | 23°C,168hr,inEthanol,95% | ASTM D471 | -3.0 | % |
| Change rate of tensile strength in air | 23°C,168hr,inHydrochloricAcid,10% | ISO 1817 | -1.0 | % |
| 23°C,168hr,inIRM903Oil | ISO 1817 | -85 | % | |
| 23°C,168hr,inSodiumHydroxide,50% | ISO 1817 | 1.0 | % | |
| Change rate of ultimate elongation in air | 23°C,168hr,inHydrochloricAcid,10% | ASTM D471 | -9.0 | % |
| Change rate of hardness (Shore) in the air | ShoreA,23°C,168hr,inIRM903Oil | ASTM D471 | -33 | |
| Change rate of tensile strength in air | 125°C,168hr | ISO 188 | -61 | % |
IMPORTANT NOTES: Plas.com collected the data in the data sheet from the material manufacturers. Plas.com makes the best effort to improve the accuracy of the data, but has no responsibility for the data. We strongly recommend verifying the validity of the data with the material manufacturers before making a final decision.