Sulfuro de polifenileno (PPS) by Avient Corporation
Producto | Disponibilidad | Descripción del producto |
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Edgetek™ ET9200-5006 FD NATURAL | Europa |
The Edgetek® Engineering Thermoplastic Compounds portfolio covers a broad range of standard and custom-formulated high performance materials. This portfolio includes high-temperature materials for elevated service temperature environments, high-modulus / structural materials for load-bearing and high-strength applications and flame-retardant products. These compounds are based on select engineering thermoplastic resins that are compounded with reinforcing additives such as carbon fiber, glass fiber and glass beads.
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Edgetek™ SF 40GF/000L HS Natural 70 | Europa | |
Edgetek™ SF-20GF/000 RS BK | Asia-Pacífico |
20% glass fiber reinforced PPS compound
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Edgetek™ SF2-40CF/000 NATURAL | África y Oriente Medio |
The Edgetek® Engineering Thermoplastic Compounds portfolio covers a broad range of standard and custom-formulated high performance materials. This portfolio includes high-temperature materials for elevated service temperature environments, high-modulus / structural materials for load-bearing and high-strength applications and flame-retardant products. These compounds are based on select engineering thermoplastic resins that are compounded with reinforcing additives such as carbon fiber, glass fiber and glass beads.
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Edgetek™ SF-30GF/000 BK003 | Asia-Pacífico |
30% Glass Fiber Reinforced PPS Compound
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Edgetek™ SF-30GF/000 NC005 | Asia-Pacífico | |
Edgetek™ SF-30GF/000 RS NC | Asia-Pacífico |
30% Glass Fiber Reinforced PPS Compound
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Edgetek™ SF-30GF/15T BK006 | Asia-Pacífico |
PTFE lubricated
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Edgetek™ SF-40CF/000 | África y Oriente Medio |
The Edgetek® Engineering Thermoplastic Compounds portfolio covers a broad range of standard and custom-formulated high performance materials. This portfolio includes high-temperature materials for elevated service temperature environments, high-modulus / structural materials for load-bearing and high-strength applications and flame-retardant products. These compounds are based on select engineering thermoplastic resins that are compounded with reinforcing additives such as carbon fiber, glass fiber and glass beads.
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Edgetek™ SF-40GF/000 BLACK | Asia-Pacífico | |
Edgetek™ SF-40GF/000 NATURAL | Asia-Pacífico | |
Edgetek™ SF-40GF/000 RS BK001 (ISO) | Asia-Pacífico |
40% Glass Fiber Reinforced PPS Compound
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Edgetek™ SF-40GF/000 RS BK001 | Asia-Pacífico |
40% Glass Fiber Reinforced PPS Compound
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Edgetek™ SF-40GF/000 RS NC | Asia-Pacífico |
40% Glass Fiber Reinforced PPS Compound
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Edgetek™ SF-40GF/000L HS Black 70 | Europa | |
Edgetek™ SF-40GF/000L HS Black | África y Oriente Medio | |
Edgetek™ SF-40GF/000L HS Natural | África y Oriente Medio | |
Edgetek™ SF-40GF/000L HS RED | Europa | |
Edgetek™ SF-40GF-25MN/000 HS Black | Europa |
The Edgetek® Engineering Thermoplastic Compounds portfolio covers a broad range of standard and custom-formulated high performance materials. This portfolio includes high-temperature materials for elevated service temperature environments, high-modulus / structural materials for load-bearing and high-strength applications and flame-retardant products. These compounds are based on select engineering thermoplastic resins that are compounded with reinforcing additives such as carbon fiber, glass fiber and glass beads.
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Edgetek™ SF-65GM/000 RS BK001 | Asia-Pacífico |
65% glass fiber and mineral reinforced PPS compound
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Edgetek™ SF-65GM/000 RS BK002 | Asia-Pacífico |
65% glass fiber and mineral reinforced PPS compound
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Edgetek™ XP9242701 | Asia-Pacífico | |
LubriOne™ LB9200-8014 RS Black | Asia-Pacífico |
Aramid fiber and PTFE lubricated PPS compound
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LubriOne™ LB9220-5001 RS LB NATURAL 70 | África y Oriente Medio | |
LubriOne™ SF-000/25BZ-15T bronze | África y Oriente Medio |
LubriOne™ Lubricated and Wear-Resistant Compounds have been specifically formulated to be self-lubricating materials, offering low coefficient of friction and improved wear resistance properties. LubriOne compounds have been demonstrated to reduce friction, noise, vibration, heat buildup and improve product durability.
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LubriOne™ SF-20AF/10T BLACK | Asia-Pacífico |
Aramid fiber and PTFE lubricated PPS compound
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LubriOne™ SF2-30CF/15T Natural | África y Oriente Medio |
LubriOne™ Lubricated and Wear-Resistant Compounds have been specifically formulated to be self-lubricating materials, offering low coefficient of friction and improved wear resistance properties. LubriOne compounds have been demonstrated to reduce friction, noise, vibration, heat buildup and improve product durability.
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LubriOne™ SF-25GF/10T | África y Oriente Medio | |
LubriOne™ SF-25MN-15CF/10T BLACK | Asia-Pacífico |
LubriOne™ Lubricated and Wear-Resistant Compounds have been specifically formulated to be self-lubricating materials, offering low coefficient of friction and improved wear resistance properties. LubriOne compounds have been demonstrated to reduce friction, noise, vibration, heat buildup and improve product durability.
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LubriOne™ SF-30CF/15T BLACK | Asia-Pacífico |
PTFE lubricated
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LubriOne™ SF-30CF/15T | África y Oriente Medio |
LubriOne™ Lubricated and Wear-Resistant Compounds have been specifically formulated to be self-lubricating materials, offering low coefficient of friction and improved wear resistance properties. LubriOne compounds have been demonstrated to reduce friction, noise, vibration, heat buildup and improve product durability.
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LubriOne™ SF-30GF/15T NATURAL | Asia-Pacífico |
30% Glass Fiber Reinforced and 15% PTFE Lubricated PPS Compounds
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OnForce™ LF9200-5001 RS Natural | África y Oriente Medio |
Avient's Long Fiber Thermoplastic (LFT) compounds are formulated for demanding applications which require high stiffness and good impact such as metal replacement or other structural applications. These products exhibit enhanced physical and mechanical properties versus standard short fiber products. Benefits of LFT compounds include improved impact strength, elastic modulus, and material strength across wide temperature ranges from subambient to highly elevated. Furthermore, LFT compounds have been shown to offer improved performance in the areas of creep and fatigue performance, improved dimensional stability, and exhibit an exceptional surface finish when compared to traditional highly filled short fiber products.
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OnForce™ SF-40LCF/000 Black | África y Oriente Medio |
Avient's Long Fiber Thermoplastic (LFT) compounds are formulated for demanding applications which require high stiffness and good impact such as metal replacement or other structural applications. These products exhibit enhanced physical and mechanical properties versus standard short fiber products. Benefits of LFT compounds include improved impact strength, elastic modulus, and material strength across wide temperature ranges from subambient to highly elevated. Furthermore, LFT compounds have been shown to offer improved performance in the areas of creep and fatigue performance, improved dimensional stability, and exhibit an exceptional surface finish when compared to traditional highly filled short fiber products.
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OnForce™ SF-40LGF/001 Natural | África y Oriente Medio |
Avient's Long Fiber Thermoplastic (LFT) compounds are formulated for demanding applications which require high stiffness and good impact such as metal replacement or other structural applications. These products exhibit enhanced physical and mechanical properties versus standard short fiber products. Benefits of LFT compounds include improved impact strength, elastic modulus, and material strength across wide temperature ranges from subambient to highly elevated. Furthermore, LFT compounds have been shown to offer improved performance in the areas of creep and fatigue performance, improved dimensional stability, and exhibit an exceptional surface finish when compared to traditional highly filled short fiber products.
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Stat-Tech™ SF-10CF/000 BK001 | Asia-Pacífico | |
Therma-Tech™ TT9200-5001 EI White | África y Oriente Medio |
Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.
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Therma-Tech™ TT9200-5003 EC Anthracite | África y Oriente Medio |
Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.
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Therma-Tech™ TT9200-5003 EC Grey | África y Oriente Medio |
Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.
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Therma-Tech™ TT9200-5003 EC MID Anthracite | África y Oriente Medio |
Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.
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