Product Data Sheets
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| Products & Applications - Overview | ||||
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| Grade Name | Description |
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| THERBANŽ 3406 |
Typical properties: ACN 34 % ML (1+4) 100 °C 63 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 3406-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ 3407 |
Typical properties: ACN 34 % ML (1+4) 100 °C 70 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 3407-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ 3446 |
Typical properties: ACN 34 % ML (1+4) 100 °C) 61 MU RDB max. 4.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ 3467 |
Typical properties: ACN 34 % ML (1+4) 100 °C 68 MU RDB max. 5.5 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ 3496 |
Typical properties: ACN 34 % ML (1+4) 100 °C 55 MU RDB max. 18.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. Optimal compromise between low temperature, compression set and oil swell resistance. |
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| THERBANŽ 3607 |
Typical properties: ACN 36 % ML (1+4) 100 °C 66 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 3607-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ 3627 |
Typical properties: ACN 36 % ML (1+4) 100 °C 66 MU RDB max. 2.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Special low RDB - type to increase crosslink density for high modulus and low compression set applications. While sulfur curing systems can be used for improved dynamic properties and adhesion to steel and textile reinforcing materials, peroxide/coagent systems are recommended. |
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| THERBANŽ 3629 |
Typical properties: ACN 36 % ML (1+4) 100 °C 87 MU RDB max. 2.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Special low RDB - type to increase crosslink density for high module and low compression set applications. While sulfur curing systems can be used for improved dynamic properties and adhesion to steel and textile reinforcing materials, peroxide/coagent systems are recommended. High molecular weight provides for capacity of high plasticizer and filler loads. |
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| THERBANŽ 3668 VP (Trial Product) |
Typical properties: ACN 36 % ML (1+4) 100 °C 83 MU RDB max. 6.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagentsystems can be used for improved resistance to heat and compression set. |
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| THERBANŽ 3669 VP (Trial Product) |
Typical properties: ACN 36 % ML (1+4) 100 °C 95 MU RDB max. 6.0 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagentsystems can be used for improved resistance to heat and compression set. |
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| THERBANŽ 3907 |
Typical properties: ACN 39 % ML (1+4) 100 °C 70 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 3907-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ 4307 |
Typical properties: ACN 42.5 % ML (1+4) 100 °C 63 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 4307-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ 4309 |
Typical properties: ACN 43 % ML (1+4) 100 °C 100 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban 4309-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. High molecular weight provides for capacity of high plasticizer and filler loads. |
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| THERBANŽ 4367 |
Typical properties: ACN 43 % ML (1+4) 100 °C 61 MU RDB max. 5.5 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ 4369 |
Typical properties: ACN 43 % ML (1+4) 100 °C 97 MU RDB max. 5.5 % A partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. High molecular weight provides for capacity of high plasticizer and filler loads. |
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| THERBANŽ 5008 VP (Trial Product) |
Typical properties: ACN 49 % ML (1+4) 100 °C 80 MU RDB max. 0.9 % A fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone. Due to extreme ACN - content maximum resistance to non - polar hydrocarbon fluids including those containing aggressive additives and flex - fuels. With this level of unsaturation, Therban 5008 VP-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. |
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| THERBANŽ AT 3404 |
Typical properties: ACN 34 % ML (1+4) 100 °C 39 MU RDB max. 0.9 % A low viscosity, fully hydrogenated, butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban AT 3404-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT 3443 VP (Trial Product) |
Typical properties: ACN 34 % ML (1+4) 100 °C 39 MU RDB max. 4.0 % A low viscosity, partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagentsystems can be used for improved resistance to heat and compression set. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT 3904 VP (Trial Product) |
Typical properties: ACN 39 % ML (1+4) 100 °C 39 MU RDB max. 0.9 % A low viscosity, fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone and excellent resistance to non - polar hydrocarbon fluids including those containing aggressive additives. With this level of unsaturation, Therban AT 3904 VP-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT 4364 VP (Trial Product) |
Typical properties: ACN 43 % ML (1+4) 100 °C 39 MU RDB max. 5.5 % A low viscosity, partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone and non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT 5005 VP (Trial Product) |
Typical properties: ACN 49 % ML (1+4) 100 °C 55 MU RDB max. <0.9 % Ultra high ACN, low viscosity, fully hydrogenated butadiene acrylonitrile copolymer (less than 1% residual doublebonds), which provides vulcanizates with superior resistance to heat, ozone. Due to extreme ACN - content maximum resistance to non - polar hydrocarbon fluids including those containing aggressive additives and flex - fuels. With this level of unsaturation, Therban AT 5005 VP-based compounds can only be vulcanized with peroxides or high-energy radiation. The incorporation of a crosslinking co-agent is recommended for optimized physical properties of both unaged and aged vulcanizates. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT 5065 VP (Trial Product) |
Typical properties: ACN 49 % ML (1+4) 100 °C 55 MU RDB max. 6.0 % Ultra high ACN, low viscosity, partially hydrogenated butadiene acrylonitrile copolymer designed primarily for dynamic applications requiring excellent resistance to heat, ozone. Due to extreme ACN - content maximum resistance to non - polar hydrocarbon fluids including those containing aggressive additives and flex - fuels. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ AT LT 2004 VP (Trial Product) |
Typical properties: ACN 21 % ML (1+4) 100 °C 39 MU RDB max. 0.9 % A low viscosity, fully hydrogenated hydrocarbon acrylonitrile ter-polymer (less than 1% residual doublebonds), with low mould fouling properties, designed for applications requiring good flexibility at low temperature, superior resistance to heat, ozone and good resistance to non - polar hydrocarbon fluids. Low viscosity AT - technology provides a broad processing window, low mould fouling and the potential for higher filler loads compared to standard viscosity HNBR types. |
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| THERBANŽ LT 2007 |
Typical properties: ACN 21 % ML (1+4) 100 °C 74 MU RDB max. 0.9 % A fully hydrogenated hydrocarbon acrylonitrile ter-polymer (less than 1% residual doublebonds) with low mould fouling properties, designed for applications requiring good flexibility at low temperature, superior resistance to heat, ozone and good resistance to non - polar hydrocarbon fluids. |
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| THERBANŽ LT 2057 |
Typical properties: ACN 21 % ML (1+4) 100 °C 67 MU RDB max. 5.5 % A partially hydrogenated butadiene acrylonitrile ter-polymer for applications requiring good flexibility at low temperature featuring particularly low mould fouling properties. Designed primarily for dynamic applications requiring excellent resistance to heat, ozone and good resistance to non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ LT 2157 |
Typical properties: ACN 21 % ML (1+4) 100 °C 70 MU RDB max. 5.5 % A partially hydrogenated butadiene acrylonitrile ter-polymer for applications requiring good flexibility at low temperature. Designed primarily for dynamic applications requiring excellent resistance to heat, ozone and good resistance to non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ LT 2568 |
Typical properties: ACN 25 % ML (1+4) 100 °C 80 MU RDB max. 5.0 % A partially hydrogenated butadiene acrylonitrile ter-polymer for applications requiring good flexibility at low temperature featuring particularly low mould fouling properties. Designed primarily for dynamic applications requiring excellent resistance to heat, ozone and increased resistance to non polar hydrocarbon fluids. Sulfur curing systems are used for improved dynamic properties and adhesion to steel and textile reinforcing materials. However, peroxide/coagent systems can be used for improved resistance to heat and compression set. |
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| THERBANŽ VP KA 8796 (Trial Product) |
Typical properties: ACN 34 % ML (1+4) 100 °C 22 MU RDB max. 5.5 % Therban VP KA 8796 is a masterbatch of Therban 3467 with zinc diacrylate monomers and proprietary viscosity modifiers and scorch retardants. The rubber hydrocarbon content isapproximately 50% and the zinc diacrylate content is approximately 39.1%. Compounds prepared from Therban VP KA 8796 mixed with Therban 3467 must be vulcanized by peroxide curing systems. Peroxide curing systems are recommended if an optimum balance of compression set behavior and improved heat resistance is desired. CAUTION: Unsaturated carboxylic acid salts as compounding ingredients, whether preformed or produced in-situ, will bond directly to mild steel and clean aluminum surfaces. PTFE mold lubricants or permanent PPS/PTFE resin coatings on mold surfaces are recommended. |
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| THERBANŽ XT VP KA 8889 (Trial Product) |
Typical properties: ACN 33 % ML (1+4) 100 °C 77 MU RDB max. 3.5 % Partially hydrogenated carboxylated butadiene acrylonitrile ter-polymer. TherbanŽ XT VP KA 8889 yields compound vulcanizates with particularly enhanced abrasion resistance, tear strength and adhesive properties. |
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