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PEEK,导电PEEK,玻纤增强PEEK

发布时间:2025-05-22作者:小编

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PEEK(Polyether Ether Ketone),即聚醚醚酮,是一种高性能特种工程塑料。以下是关于全球PEEK塑料的描述:

特性

  • 耐高温性能卓越:PEEK具有极高的熔点,通常在330℃以上,能够在高温环境下保持良好的机械性能和尺寸稳定性。即使在极端温度条件下,如航空航天发动机舱等高温区域,也能正常工作,不会发生变形或性能下降。

  • 机械性能出色:它具有高强度、高模量,抗拉强度和抗压强度都很高,同时还具备良好的韧性和抗冲击性能。这使得PEEK塑料能够承受较大的机械负荷,可用于制造各种机械零部件,如齿轮、轴承等,即使在高应力和高磨损的环境下也能保持较长的使用寿命。

  • 耐化学腐蚀性强:PEEK对大多数化学物质都具有良好的耐受性,包括酸、碱、盐以及有机溶剂等。它在化学工业中被广泛应用,可用于制造耐腐蚀的管道、阀门、容器等设备,能够有效抵抗化学介质的侵蚀,减少设备的维护和更换成本。

  • 自润滑性能好:由于其分子结构的特殊性,PEEK塑料具有较低的摩擦系数,具有良好的自润滑性能。这意味着在没有外部润滑剂的情况下,PEEK制成的部件在相互运动时也能保持较低的摩擦阻力,减少磨损,提高设备的运行效率,常用于制造滑动部件,如滑块、导轨等。

  • 生物相容性良好:PEEK塑料还具有良好的生物相容性,对人体组织无毒、无刺激性,也不会引起免疫反应。因此,在医疗领域,它被广泛用于制造人工关节、脊柱植入物、牙科修复材料等医疗器械,能够与人体组织良好地相容,促进患者的康复。

应用领域

  • 航空航天领域:在航空航天工业中,PEEK塑料的应用非常广泛。由于其轻质、高强度、耐高温和良好的尺寸稳定性,可用于制造飞机的发动机部件、机翼结构件、座椅部件等。例如,PEEK制成的发动机叶片能够在高温、高压的环境下稳定运行,同时减轻飞机的重量,提高燃油效率,降低运营成本。

  • 汽车工业:在汽车制造中,PEEK塑料可用于制造发动机部件、变速器部件、传感器外壳等。它能够承受发动机舱内的高温和机械振动,同时减轻汽车零部件的重量,提高汽车的燃油经济性和动力性能。此外,PEEK塑料的耐化学腐蚀性使其能够抵抗汽车燃油、润滑油等化学物质的侵蚀,延长零部件的使用寿命。

  • 电子电气领域:PEEK塑料具有良好的绝缘性能和耐热性能,可用于制造电子设备的外壳、连接器、绝缘部件等。在电子电气设备中,PEEK能够承受高温和高电压,同时提供可靠的绝缘保护,确保设备的安全运行。例如,在高速电子设备中,PEEK制成的连接器能够在高频信号传输过程中保持稳定的电气性能,减少信号干扰和损耗。

  • 医疗器械领域:如前文所述,PEEK塑料在医疗器械制造中具有重要应用。除了人工关节和牙科修复材料外,它还可用于制造心脏支架、导管等医疗器械。PEEK塑料的生物相容性和耐化学腐蚀性使其能够满足医疗器械的严格要求,为患者提供安全、可靠的治疗方案。

  • 食品加工与包装领域:PEEK塑料的耐高温、耐化学腐蚀和良好的卫生性能使其适用于食品加工和包装行业。它可以用于制造食品加工设备的部件,如搅拌器、输送带等,以及食品包装容器。PEEK塑料能够承受食品加工过程中的高温杀菌和化学清洗,同时保证食品的安全和卫生,符合食品行业的严格标准。

产品 产品说明
Ajedium™ Films -- High Mw PEEK High Mw PEEK film is thermoplastic film that is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in aerospace, electronics, chemical processing, healthcare, transportation, and other industrial uses.
AKROTEK® PEEK 8 natural (4447) AKROTEK® PEEK 8 natural (4447) is an unreinforced medium-viscosity polyetheretherketone. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require low friction and wear values in a temperature environment above 150°C.
AKROTEK® PEEK 8 natural (7342) AKROTEK® PEEK 8 natural (7342) is an unreinforced, very easy flowing polyetheretherketone. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require low friction and wear values in a temperature environment above 150°C.
AKROTEK® PEEK 8 natural (7343) AKROTEK® PEEK 8 natural (7343) is an unreinforced high-viscosity polyetheretherketone. Applications are mainly elements in the automotive-, aeronautical-, industrial- and medical engineering that require low friction and wear values in a temperature environment above 150°C.
AKROTEK® PEEK CF 10 TM black (7759) AKROTEK® PEEK CF 10 TM black (7759) is a 10% carbon fibre reinforced medium viscosity polyetheretherketone with high flexural strength and good sliding properties as well as good tribological properties Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength and high stiffness in a temperature environment above 150°C.
AKROTEK® PEEK CF 30 9 black (5569) AKROTEK® PEEK CF 30 9 black (5569) is a 30% carbon fibre reinforced process improved easy flowing polyetheretherketone with good sliding properties. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength and high stiffness in a temperature environment above 150°C.
AKROTEK® PEEK CF 30 black (5448) AKROTEK® PEEK CF 30 black (5448) is a 30% carbon fibre reinforced medium viscosity polyetheretherketone with high flexural strength and good sliding properties. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength and high stiffness in a temperature environment above 150°C.
AKROTEK® PEEK CF 40 9 black (5446) AKROTEK® PEEK CF 40 9 black (5446) is a 40% carbon fibre reinforced process improved easy flowing polyetheretherketone with high flexural strength and good sliding properties. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength and high stiffness in a temperature environment above 150°C.
AKROTEK® PEEK CF 40 black (5099) AKROTEK® PEEK CF 40 black (5099) is a 40% carbon fibre reinforced medium viscosity polyetheretherketone with high flexural strength and good sliding properties Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength and high stiffness in a temperature environment above 150°C
AKROTEK® PEEK GF 20 9 natural (7989) AKROTEK® PEEK GF 20 9 natural (7989) is a 20% glass fibre reinforced very easy flowing polyetheretherketone with average stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 30 9 TM natural (5568) AKROTEK® PEEK GF 30 9 TM natural (5568) is a 30% glass fibre reinforced process improved easy flowing polyetheretherketone with very high stiffness and strength as well as good tribological properties. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C
AKROTEK® PEEK GF 30 black (5822) AKROTEK® PEEK GF 30 natural (5822) is a 30% glass fibre reinforced medium viscosity polyetheretherketone with high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 30 natural (5047) AKROTEK® PEEK GF 30 natural (5047) is a 30% glass fibre reinforced medium viscosity polyetheretherketone with high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 30 natural (7938) AKROTEK® PEEK GF 30 natural (7938) is a 30% glass fibre reinforced high viscosity polyetheretherketone with high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 40 natural (5904) AKROTEK® PEEK GF 40 natural (5904) is a 40% glass fibre reinforced medium viscosity polyetheretherketone with very high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 50 9 black (5183) AKROTEK® PEEK GF 50 9 black (5183) is a 50% glass fibre reinforced process improved easy flowing polyetheretherketone with very high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 50 9 natural (5625) AKROTEK® PEEK GF 50 9 natural (5625) is a 50% glass fibre reinforced process improved easy flowing polyetheretherketone with very high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK GF 60 9 natural (5425) AKROTEK® PEEK GF 60 9 natural (5425) is a 60% glass fibre reinforced process improved easy flowing polyetheretherketone with very high stiffness and strength. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require high strength in a temperature environment above 150°C.
AKROTEK® PEEK TM black (5051) AKROTEK® PEEK TM black (5051) is a reinforced medium viscosity polyetheretherketone with good tribological properties. Elements in the automotive-, aeronautical-, industrial- and medical engineering that require low friction and wear values in a temperature environment above 150°C.
AKROTEK® PEEK TM natural (5069) AKROTEK® PEEK TM natural (5069) is an unreinforced medium viscosity polyetheretherketone with good tribological properties Elements in the automotive-, aeronautical-, industrial- and medical engineering that require low friction and wear values in a temperature environment above 150°C
Arlon® 1160 Arlon ® 1160 is a glass-reinforced version of Arlon ® 1000 featuring significantly higher tensile strength and increased shear strength. Arlon ® 1160 is often selected when the operating temperature exceeds 300°Fz (149°C). The addition of glass raises the HDT and reduces the coefficient of thermal expansion. Other benefits include a lower coefficient of friction and improved wear properties. Arlon ® 1160 and related grades are successfully being used as sealing components, valve seats, bearings, back-up rings, and high-temperature insulators.
Arlon® 1163  
Arlon® 1260 Greene Tweed offers precision plastic components for a variety of demanding semiconductor applications. These components are made from a full range of high performance plastic materials, including Arlon ® 1260, which is ideal for applications requiring high impact and wear and chemical resistance.
Arlon® 1263  
Arlon® 1286  
Arlon® 1287 LI Greene Tweed offers precision plastic components for a variety of demanding semiconductor applications. These components are made from a full range of high-perfor-mance plastic materials, including Arlon ® 1287 LI, which is ideal for applications requiring exceptionally high physical properties, wear resistance, and chemical compatibility.
Arlon® 1330 Greene Tweed offers precision plastic components for a variety of demanding, semiconductor applications. These components are made from a full range of high-perfor-mance plastic materials, including Arlon ® 1330. Ideal for applications requiring exceptional wear resistance and chemical compatibility, Arlon ® 1330 provides good dimensional stability without the addition of carbon fibers.
Arlon® 1555  
Arlon® 2400 Arlon ® 2400, an extension of Greene Tweed’s Arlon product line, meets the harsh environment requirements necessary for performance in downhole appli-cations. Arlon ® 2400 provides the same broad chemical resistance of other Arlon ® materials but with higher temperature capabilities and increased dimensional stability. Arlon ® 2400 has the ability to replace metal parts in high-temperature applications due to its excellent strength-to-weight ratio.
Arlon® 3000 XT  
AuroraGuard™ PEEK-19450 AuroraGuard™ PEEK-19450 is an Unfilled, High Molecular Weight, Natural Polyethereketone (PEEK) Injection Molding Grade.
AUROtec® PEEK 150 GF30 black AUROtec® PEEK 150 black is a 30% glass fiber reinforced high end performance ReCompound, semi crystalline for injection molding with easy flow specifications. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Thin wall high heat applications, metal substitution
AUROtec® PEEK 450 black AUROtec® PEEK 450 black is a unfilled high end performance ReCmpound, semi crystalline for injection molding. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Gear wheels, high heat applications, metal substitution
AUROtec® PEEK 450 CF 30 black AUROtec® PEEK 450 black is a 30% carbon fiber reinforced high end performance ReCompound, semi crystalline for injection molding. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Gear wheels, high heat applications, metal substitution
AUROtec® PEEK 450 GF30 black AUROtec® PEEK 450 black is a 30% glass fiber reinforced high end performance ReCompound and, crystalline for injection molding. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Gear wheels, high heat applications, metal substitution
AUROtec® PEEK 450 natural AUROtec® PEEK 450 natural is a unfilled high end performance ReCompound, semi crystalline for injection molding. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Gear wheels, high heat applications, metal substitution
AUROtec® PEEK 90 black AUROtec® PEEK 90 black is a unfilled high end performance ReCompound, semi crystalline for injection molding with easy flow specifications. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Thin wall high heat applications, metal substitution
AUROtec® PEEK 90 natural AUROtec® PEEK 90 natural is a unfilled high end performance ReCompound, semi crystalline for injection molding with easy flow specifications. Contains sorted post-industrial plastic parts and sprues. Typical Applications: Thin wall high heat applications, metal substitution
BADATECH HT® PEEK 1110 GF20 20% glass fibre filled polyetheretherketone (PEEK), high viscosity, for thermally and chemically highly-stressed components
BADATECH HT® PEEK 1110 Polyetheretherketon (PEEK) for thermally and chemically stressed parts
BADATECH HT® PEEK 2111 CF10/GR10/TF10 10% carbon fibres filled Polyetheretherketon (PEEK) for tribological applications
BADATECH HT® PEEK 2111 CF10 10% carbon fibre filled polyetheretherketone (PEEK), for thermally and technically highly stressed components
BADATECH HT® PEEK 2111 CF20 S1 20% carbon fibre filled polyetheretherketone (PEEK), for thermally and/or chemically highly stressed components
BADATECH HT® PEEK 2111 CF20 20% carbon fibre filled polyetheretherketone (PEEK), for thermally and/or chemically highly stressed components
BADATECH HT® PEEK 3111 CF30 30% carbon fibre reinforced Polyetheretherketon (PEEK), high viscosity, for thermally and chemically stressed parts
BADATECH HT® PEEK 3111 GF30 30% glass fibre filled Polyetheretherketon (PEEK), high viscosity, for thermally and chemically stressed parts
Carbo-Rite™ A-1441 Carbo-Rite™ A-1441 is a compounded alloy based on polyetheretherketone (PEEK) high performance resin compounded with carbon fiber for added stiffness and dimensional stability. Features: High performance semi-crystalline thermoplastic PEEK-base compound available in granules/pellets for injection molding uses. It's suitable for applications requiring excellent dimensional stability with high stiffness property able to maintain extreme load during applications. Consistent electrical properties across complex molded shapes provides adequate protection to ESD-sensitive components. Uses: Suitable for use in aggressive environments that requires high stiffness and highest dimensional stability of molded products or trays.
Carbo-Rite™ F-1450 Carbo-Rite™ F-1450 is a Polyetheretherketone (PEEK) compound containing carbon fiber and carbon powder, available in pellet form. Carbo-Rite™ F-1450 solves a wide range of static decay, static shielding and electromagnetic shielding problems. FEATURES - Consistent conductive performance - Durable - High temperature ESD protection APPLICATIONS - Wafer cassettes - Hard disk drive component trays
ColorFast® PEEK-1000 STANDARD FLOW POLYETHERETHERKETONE (PEEK)
ColorFast® PEEK-2000 HIGH FLOW POLYETHERETHERKETONE (PEEK)
ColorFast® PEEK-2000MD HIGH FLOW POLYETHERETHERKETONE (PEEK) FOR HEALTHCARE APPLICATIONS
ColorRx® PEEK-3000RX PEEK-3000RX is a high flow injection molding grade of polyetheretherketone (PEEK) with excellent chemical resistance and radiation resistance. It is suitable for healthcare applications.
Comco PEEK Application examples: Parts that are exposed to high temperatures, strong mechanical loads and in addition, for example to X-rays or gamma rays.
Devlon PEEK  
DURAPEEK 10/10/10 DuraPEEK 10/10/10 is a standard bearing grade of PEEK with 10% Carbon Fiber, 10% Graphite, and 10% PTFE. It is black in color.
DURAPEEK 1000BG DURAPEEK 1000BG is a standard flow, lubricated, reinforced (graphite powder, carbon fiber, PTFE) PEEK. It is an equivalent to Victrex 450FC30. It is black in color. It is available in North America, Europe, and Pacific.
DURAPEEK 1000C DURAPEEK 1000C is a kind of special engineering plastic with high-temperature resistance, self-lubrication, easy processing, and high mechanical strength. It is available in North America, Europe, and APAC.
DURAPEEK 1000CC20 DURAPEEK 1000CC20 is a ceramic filled polyether ether ketone (PEEK). This grade is designed for injection molding. It is designed for use in very high temperature applications. It is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK 1000CC30 PEEK 1000CC30 is a 30% ceramic filled PEEK. It is natural in color, with a whiteish appearance. It is available in AMR, EUR, and APAC.
DURAPEEK 1000CF30 DURAPEEK 1000CF30 is a standard flow, 30% carbon fiber reinforced PEEK. It is an equivalent to Victrex 450CA30. It is black in black and custom color. It is available in AMR, EUR, and APAC
DURAPEEK 1000G DURAPEEK 1000G is a high viscosity grade of unfilled PEEK in granule form. Its viscosity and properties make it a good alternative to Victrex 450G. It is available in natural and black. This grade is available in AMR, EUR, and APAC.
DURAPEEK 1000GF15 DURAPEEK 1000GF15 is a 15% glass filled PEEK. It features good chemical resistance and is suitable for sterilization in medical and food contact applications. It is available in natural, black, and colors. This grade is available in AMR, EUR, and APAC.
DURAPEEK 1000GF30 DURAPEEK 1000GF30 is a standard flow, 30% glass fiber reinforced PEEK. It is an equivalent to Victrex 450GL30. This grade is available in natural. It is available in AMR, EUR, and APAC
DURAPEEK 1000HF DURAPEEK 1000HF is a high flow grade of PEEK. It is an equivalent to Victrex 150, Syensqo KT-880, and Evonik 2000G. It is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK 1000HFGF30 DURAPEEK 1000HFGF30 is a low viscosity grade of Polyether ether ketone (PEEK) with 30% glass fiber reinforcement by volume. It offers a combination of excellent stiffness, temperature resistance, inherent flame resistance, and chemical resistance. This grade is available in natural, black, and colors. It is available in AMR, EUR, and APAC.
DURAPEEK 1000HFP DURAPEEK 1000HFP is an unreinforced, medium-viscosity polyether ether ketone powder. This grade is available in natural. It is available in AMR, EUR, and APAC
DURAPEEK 1000IND PEEK1000G is a general purpose grade of unfilled PEEK in granule form. Its viscosity and properties make it a good alternative to Victrex 450G. It is available in natural.
DURAPEEK 1000SHF DURAPEEK 1000SHF is a super high flow grade of PEEK. It is an equivalent to Victrex 90G, and Evonik 1000G. This grade is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK 1000TF40 DURAPEEK 1000TF40 is a proprietary Polyether ether ketone (PEEK) based compound that uses a filler package that includes fluoropolymers to improve flexibility and chemical resistance. This grade is available in natural, black, and custom colors. It is available in AMR, EUR, and APAC.
DURAPEEK 1000U DURAPEEK 1000U is an unreinforced polyether ether ketone (PEEK). It has the world’s highest commercially available viscosity. It is used for injection molding, extrusion, and compression molding applications. This grade is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK 1000WC DURAPEEK 1000WC is a medium-viscosity, unreinforced polyether ether ketone (PEEK). It is used in injection molding and extrusion. It is used in high-speed wire and cable applications. This grade is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK 3000 DURAPEEK 3000 is an extrusion / injection PEEK resin that is a close alternative to Victrex 381G. This grade is available in natural color. It is available in AMR, EUR, and APAC.
DURAPEEK 3000IND DURAPEEK 3000IND is an extrusion PEEK resin that is an equivalent to Victrex 381G. This grade is available in natural color. It is available in AMR, EUR, and APAC.
DURAPEEK 8100G DURAPEEK 8100G is a prime grade of unfilled PEEK in granule form. It is a standard viscosity grade of PEEK that is suitable for injection molding or extrusion. It is also available with carbon fiber, graphite fiber, glass fiber, and/or PTFE if increased strength, heat, or wear properties are necessary. PEEK 8100G is available in natural. It is available in AMR, EUR, and APAC.
DURAPEEK GF30 DURAPEEK GF30 is a 30% Glass Fiber reinforced Polyether ether ketone. It is ideal for applications that require a strong/stiff material, as well as chemical and water resistance. This material is inherently flame retardant and offers a high continuous use temperature. It is available in natural. This grade is available in AMR, EUR, and APAC.
DURAPEEK LS30GF1 DURAPEEK LS30GF1 is a proprietary low stress formulation of 30% Glass Filled PEEK. It is designed for use in HPHT Oil & Gas applications. It is a specially formulated grade that includes glass and remains electrically insulative while providing a similar level of strength and stiffness to 450GL30. It provides improved performance regarding isotropic behavior, low internal stress, high temperature resistance, and improved elongation. It is brown in color. This grade is available in AMR, EUR, and APAC
DURAPEEK LS30GF2 DURAPEEK LS30GF2 is a proprietary low stress formulation of 30% Glass Filled PEEK. It is designed for use in HPHT Oil & Gas applications. It is specially formulated to reduce the spring effect present when using conventional glass filled PEEK grades in back up rings. It is tan in color. This grade is available in AMR, EUR, and APAC.
DURAPEEK PEEKLGF50 DURAPEEK PEEKLGF50 is a 50% long glass fiber filled PEEK compound. This product is made via pultrusion method, which retains properties better than long chopped fiber. It is an equivalent to RTP and LNP pultrusion compounds. It is available in natural color.
DURAPEEK XL1000 DURAPEEK XL1000 is a high viscosity, unreinforced, unlubricated polyether ether ketone for injection molding and extrusion and can be cross-linked after processing by heat treatment. The semi-crystalline polymer features superior property retention at elevated temperatures vs standard PEEK, while keeping the same chemical resistance. This grade offers very high resistance to creep. It is a reactive system and should be processed at low melt temperatures and short cycle times.
DynaMix Lite™ 3244-GB Glass Bead Filled PEEK Features: - Excellent Processability - Low Density - Good Dimensional Stability - Excellent Chemical Resistance Applications: - Gears & Bearings - Industrial - Small Appliances
DynaMix Lite™ 3244-GHIL Glass Filled Impact Modified PEEK Features: - High Impact Strength - Low Density - Good Dimensional Stability - Excellent Chemical Resistance Applications: - Automotive - Industrial - Small Appliances
DynaMix™ 3200-H High Viscosity PEEK Features: - Excellent Chemical Resistance - Low Temperature Impact Resistance - Good Dimensional Stability Applications: - Automotive - Industrial - Military - Aerospace
DynaMix™ 3200-L Low Viscosity PEEK Features: - Excellent Chemical Resistance - Low Temperature Impact Resistance - Good Dimensional Stability Applications: - Automotive - Industrial - Military
DynaMix™ 3201-HF High Flow PEEK Features: - Excellent Chemical Resistance - Ideal for Thin Wall Molding - Good Dimensional Stability Applications - Automotive - Industrial - Military
DynaMix™ 3201-L Modified PEEK Features: - Excellent Chemical and Radiation Resistance - Low Temperature Flexibility - Good Dimensional Stability Applications: - Automotive - Industrial - Military/Aerospace
DynaMix™ 3204-HF Modified PEEK Features: - Excellent Chemical Resistance - Low Temperature Impact Resistance - Good Dimensional Stability Applications: - Automotive - Industrial - Military - Aerospace
DynaMix™ 3216-HF High Flow PEEK Features: - Excellent Chemical Resistance - Ideal for Thin Wall Molding - Good Dimensional Stability Applications: - Automotive - Industrial - Military
DynaMix™ 3230- GF-B Modified PEEK Features: - Great Chemical Resistance - Good Dimensional Stability - Excellent Processability Applications: - Aviation - Chemical Processing - Industrial
DynaMix™ 3244-G Modified PEEK Features: - Excellent Chemical Resistance - Excellent Processability - Good Dimensional Stability - Low Density Applications: - Gears and Bearings - Small Appliances - Industrial
DynaMix™ 3331 Modified PEEK Features: - Great Chemical Resistance - Excellent Processability - Good Dimensional Stability - High Flow Applications: - Aviation - Electronics - Industrial
DynaMix™ 3334 30% Glass Filled PEEK Features: - Great Chemical Resistance - Excellent Processability - Good Dimensional Stability Applications: - Aviation - Industrial - Electronics
DynaPath™ 3225-SS Static Dissipative Polyetheretherketone Features: - Radio Frequency Shielding (RFI) - Electromagnetic Shielding (EMI) - Sloughing, Non - Excellent Processability Applications: - Automotive - Industrial - Electrical/Electronic Applications
DynaPath™ 3230-CF 30% Carbon Fiber Filled Polyetheretherketone (PEEK) Features: - Conductive - Good Dimensional Stability - Excellent Processability Applications: - Aerospace - Industrial - Electrical/Electronic Applications
DynaPath™ 3265-E High Temperature Static Dissipative Polyetheretherketone (PEEK) Compound Features: - Conductive - Good Dimensional Stability - Permanently Static Dissipative Applications: - Aerospace - Industrial - Electrical/Electronic Applications
Edgetek™ PK-000/000 EM Natural High flow un-filled PEEK resin
Edgetek™ PK-000/000 Natural Middle Viscosity Un-filled PEEK Resin
Edgetek™ PK-10GF/000 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.
Edgetek™ PK-30GF/000 BK 30% Glass Fiber Reinforced PEEK Compound with Standard Flowability
Edgetek™ PK-30GF/000 EM BK 30% Glass Fiber Reinforced PEEK Compound with High Flowability
Edgetek™ PK-30GF/000 EM NC 30% Glass Fiber Reinforced PEEK Compound with High Flowability
Edgetek™ PK-30GF/000 FCR BK 30% Glass Fiber Reinforced PEEK Compound with Ultra-High Flowability
Edgetek™ PK-30GF/000 FCR NC 30 % Glass Fiber Reinforced PEEK Compound with Ultra High Flowability
Electrafil® 1105-10819  
Electrafil® PEEK 11002 BK  
EMI 2261 Stainless Steel Fiber - Electrically Conductive - EMI/RFI Shielding
EMI 2262 Stainless Steel Fiber - Electrically Conductive - EMI/RFI Shielding
EMI 2263 Stainless Steel Fiber - Electrically Conductive - EMI/RFI Shielding
ESD 2281 Carbon Fiber - ESD Protection - Preliminary Datasheet
ESD 2283 HF (ISO) Carbon Fiber - Electrically Conductive - High Flow
ESD 2285 HF Carbon Fiber - Electrically Conductive - High Flow
EverGlide® SG3204P Lubricated PEEK Features: - Excellent Chemical Resistance - Low Temperature Flexibility - Excellent Processability Applications: - Automotive - Aerospace - Industrial
EverGlide® SG3208T Lubricated PEEK Features: - Excellent Chemical Resistance - Low Temperature Flexibility - Excellent Processability Applications: - Automotive - Aerospace - Industrial
EverGlide® SG3212 Lubricated PEEK Features: - Excellent Chemical Resistance - Low Temperature Flexibility - Excellent Processability Applications: - Automotive - Aerospace - Industrial
EverGlide® SG3220 Lubricated PEEK Features: - Excellent Flow Properties - Good Dimensional Stability - Excellent Toughness Applications Applications: - Automotive - Small Appliances - Industrial
EverGlide® SG3264 Lubricated PEEK Features: - Excellent Chemical Resistance - Low Temperature Flexibility - Excellent Processability Applications: - Automotive - Aerospace - Industrial
EverGlide® SG5708T Lubricated PEEK Features: - Excellent Chemical Resistance - Low Temperature Flexibility - Excellent Processability Applications: - Automotive - Aerospace - Industrial
Generic PEEK - Carbon Fiber This data represents typical values that have been calculated from all products classified as: Generic PEEK - Carbon Fiber This information is provided for comparative purposes only.
Generic PEEK - Glass Fiber This data represents typical values that have been calculated from all products classified as: Generic PEEK - Glass Fiber This information is provided for comparative purposes only.
Generic PEEK - Graphite Fiber This data represents typical values that have been calculated from all products classified as: Generic PEEK - Graphite Fiber This information is provided for comparative purposes only.
Generic PEEK - Nano, Carbon This data represents typical values that have been calculated from all products classified as: Generic PEEK - Nano, Carbon This information is provided for comparative purposes only.
Generic PEEK - PTFE Fiber This data represents typical values that have been calculated from all products classified as: Generic PEEK - PTFE Fiber This information is provided for comparative purposes only.
Generic PEEK - PTFE This data represents typical values that have been calculated from all products classified as: Generic PEEK - PTFE This information is provided for comparative purposes only.
Generic PEEK - Unspecified This data represents typical values that have been calculated from all products classified as: Generic PEEK - Unspecified This information is provided for comparative purposes only.
Generic PEEK This data represents typical values that have been calculated from all products classified as: Generic PEEK This information is provided for comparative purposes only.
HiFill® 150 A  
HiFill® 4150 A  
HiFill® 450 A  
HiFill® PEEK 0145 B  
HiFill® PEEK 0162 T1 L MB  
HiFill® PEEK 2150 A YAG BK107  
HiFill® PEEK 2150 A  
HiFill® PEEK 4500 BK  
HiFill® PEEK CF10 A HF  
HiFill® PEEK CF10 A  
HiFill® PEEK CF15 A  
HiFill® PEEK CF30 A 002  
HiFill® PEEK CF30 A NAT  
HiFill® PEEK CF30 HF  
HiFill® PEEK CF40 HF  
HiFill® PEEK G/CF25 A  
HiFill® PEEK GF10  
HiFill® PEEK GF15 HF  
HiFill® PEEK GF15  
HiFill® PEEK GF20 A  
HiFill® PEEK GF20 LSB NAT PEKM117223
HiFill® PEEK GF30 A 008 1301118 Low Spring Formulation for Back up Rings
HiFill® PEEK GF30 A 2020  
HiFill® PEEK GF30 A HR 102  
HiFill® PEEK GF30 A NAT  
HiFill® PEEK GF30 HF  
HiFill® PEEK GF30 HT011A  
HiFill® PEEK GF30 LSB NAT PEKM117241
HiFill® PEEK GF33  
HiFill® PEEK GF40 A HF  
HiFill® PEEK LCF40 2000  
InElec® PEEKCF10HF 10% CARBON FIBER REINFORCED HIGH FLOW POLYETHERETHERKETONE
InElec® PEEKCF30HF 30% CARBON FIBER REINFORCED HIGH FLOW POLYETHERETHERKETONE
InElec® PEEKCNT5 5% CARBON NANO-TUBE FILLED PEEK
INFINAM® PEEK 9359 F INFINAM® PEEK 9359F is a filament extruded from natural colored VESTAKEEP® polyether ether ketone (PEEK) resin. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from INFINAM® PEEK 9359F are of low flammability. Appropriate application fields include aerospace, automotive and other industries. Using INFINAM® PEEK 9359F with FDM technology will benefit our customers, for example less material consumption, superior mechanical properties of printed parts, and more freedom of design.
InLube® PEEKCF15TF15 15% CARBON FIBER REINFORCED, 15% PTFE LUBRICATED PEEK
InLube® PEEKCF15TF15HF 15% CARBON FIBER REINFORCED, 15% PTFE LUBRICATED, HIGH FLOW PEEK
InLube® PEEKCF20TF15 20% CARBON FIBER REINFORCED, 15% PTFE LUBRICATED PEEK
InLube® PEEKCF30TF15 30% CARBON FIBER REINFORCED, 15% PTFE LUBRICATED PEEK
InLube® PEEKGF15TF15HF 15% GLASS FIBER REINFORCED, 15% PTFE LUBRICATED HIGH FLOW PEEK
InLube® PEEKGF20TF10 20% GLASS FIBER REINFORCED, 10% PTFE LUBRICATED PEEK
InLube® PEEKGF20TF15HF 20% GLASS FIBER REINFORCED, 15% PTFE LUBRICATED HIGH FLOW PEEK
InLube® PEEKGF30TF10 30% GLASS FIBER REINFORCED, 10% PTFE LUBRICATED PEEK
InLube® PEEKGF30TF15 30% GLASS FIBER REINFORCED, 15% PTFE LUBRICATED PEEK
InLube® PEEKGF30TF15HFMD 30% GLASS FIBER REINFORCED, 15% PTFE LUBRICATED HIGH FLOW PEEK LOCKED FORMULATION FOR MEDICAL USAGE
InLube® PEEKTF10HF 10% PTFE LUBRICATED HIGH FLOW PEEK
InStruc® PEEKBS6 6% BARIUM SULFATE FILLED POLYETHERETHERKETONE (PEEK)
InStruc® PEEKCF30 30% CARBON FIBER REINFORCED POLYETHERETHERKETONE
InStruc® PEEKCF30HF 30% CARBON FIBER REINFORCED HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKCF40HF 40% CARBON FIBER REINFORCED, HIGH FLOW, POLYETHERETHERKEYTONE
InStruc® PEEKGB20HF 20% GLASS BEAD FILLED, HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKGF10HF 10% GLASS FIBER REINFORCED, HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKGF13HFMD 13% GLASS FIBER REINFORCED HIGH FLOW POLYETHERETHERKETONE FOR HEALTHCARE APPLICATIONS
InStruc® PEEKGF15 15% GLASS FIBER REINFORCED POLYETHERETHERKETONE
InStruc® PEEKGF15HF 15% GLASS FIBER REINFORCED, HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKGF15HFMD 15% GLASS FIBER REINFORCED, HIGH FLOW POLYETHERETHERKETONE FOR HEALTHCARE APPLICATIONS.
InStruc® PEEKGF20HF 20% GLASS FIBER REINFORCED, HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKGF30 30% GLASS FIBER REINFORCED POLYETHERETHERKEYTONE
InStruc® PEEKGF30HF 30% GLASS FIBER REINFORCED, HIGH FLOW POLYETHERETHERKETONE
InStruc® PEEKGF30HFMD 30% GLASS FIBER REINFORCED HIGH FLOW POLYETHERETHERKEYTONE LOCKED FORMULATION FOR MEDICAL USAGE
i-OnComp™ PEEK GF30 30% glass fiber reinforced PEEK
KEBAPEAK® PEEK XC1730 PEEK; 30 % carbon fiber reinforced
KEBAPEAK® PEEK XF1730 PEEK, 30 % glass fiber reinforced
KEBAPEAK® PEEK XS1700 PEEK, unreinforced
KetaSpire® CF10 HC AM Filament Ketaspire® CF10 HC AM Filament incorporates 10% carbon fiber reinforcement into a PEEK matrix for increased strength offered for use in high-performance healthcare applications. This material provides long-term performance up to 240 °C, including exceptional chemical resistance. These properties make it particularly suited for metal replacement.
KetaSpire® CF10 LS1 AM Filament Ketaspire® CF10 LS1 AM Filament incorporates 10% carbon fiber reinforcement into a PEEK matrix for increased strength. This material provides long-term performance up to 240 °C, including exceptional chemical resistance. These properties make it particularly suited for metal replacement in critical applications in severe end-use environments, such as Oil & Gas, Aerospace and Automotive.
KetaSpire® KT-1211FP KetaSpire® KT-1211FP is a low melt flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural color fine powder form for compression molding and compounding uses in the health care industry. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. KetaSpire® PEEK also complies with the ISO 10993 standard for use in medical applications. KetaSpire® KT-1211FP is well-suited as a raw material or material of construction for a variety of healthcare applications.
KetaSpire® KT-810 KetaSpire® KT-810 is an ultra-high molecular weight natural PEEK resin having a melt viscosity ranging from 0.51-0.65 kPa-s as compared to 0.38-0.50 kPa-s for standard high-viscosity PEEK grades such as KT-820. KetaSpire PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to organics, acids and bases; exceptional retention of mechanical properties up to 240°C (464°F); best-in-class fatigue resistance; excellent wear resistance; ease of melt processing; and high purity. The KT-810 grade achieves a greater level of mechanical toughness than previously possible with PEEK, yet it is still processable by conventional methods including extrusion, injection molding, and compression molding. KetaSpire® KT-810 is particularly suited for compression molding applications such as machined parts and stock shapes wherein the inherent slow cooling rates of the process limit PEEK's toughness and often result in brittleness due to the higher crystallinity levels. The grade is available in two forms: fine powder with average particle size of approximately 50 micrometers (µm) for compression molding, and pellet form for extrusion and injection molding. The fine powder grade is designated KT-810FP while the pelletized product is available as KT-810 NT. - Fine Powder: KT-810 FP - Natural Pellet: KT-810 NT
KetaSpire® KT-810FP KetaSpire KT -820是低流动级未增强聚醚醚酮(PEEK),呈润滑颗粒状。KetaSpire PEEK按照行业最高标准加工,以兼具不同的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。KetaSpireKT -820可以很容易地使用常规注塑成型和挤出工艺进行加工。有本色粗粉末牌号KetaSpire KT- 820P供配混。 粒状KT- 820微量喷洒了润滑剂硬脂酸钙( 0.01 % ),方便颗粒在塑化螺杆中的输送。有类似于非润滑本色低流量牌号KetaSpire KT -820 NL可供 。 - 黑色:KT-820 BK 95
KetaSpire® KT-820 CF30 KetaSpire KT -820 CF30是低流量、30 %碳纤增强聚醚醚酮(PEEK) 。在温度接近300℃时,碳纤增强 KetaSpire PEEK 的机械性能达到行业最高水平,并且,具有KetaSpire 产品系列最低的线性热膨胀系数。KetaSpire PEEK按照行业最高标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。
KetaSpire® KT-820 GF13 KetaSpire KT-820是一种低流动性、 13%玻纤增强聚醚醚酮( PEEK) 。优化了玻纤含量,以便在强度、刚度和与韧性相关的性能如抗冲击性和断裂伸长率之间取得平衡。与30%玻纤增强配方相比,低玻纤含量使树脂改进了外观、减少了各向异性。 KetaSpire PEEK按照行业最高标准生产,以兼具一流抗疲劳性、易于熔融加工、高纯度、优异的耐受有机、酸、碱等化学物质等突出性能为特征。 这些特性使该树脂材料非常适用于石油和天然气回收、半导体制造、汽车、航空航天、医疗、化学处理及其它工业用途。 该树脂在自然状态下,不透明,呈米色至浅棕色。 - 米色:KT-820 GF13 BG20
KetaSpire® KT-820 GF15 KetaSpire® KT-820 GF15 is a low flow, 15% glass-fiber reinforced grade of polyetheretherketone (PEEK). This resin offers higher strength and stiffness properties relative to unreinforced KetaSpire® PEEK resin. The glass fiber content is optimized to provide a balance of strength and stiffness with toughness-related properties, such as impact resistance and elongation at break. The low fiberglass loading gives the resin improved surface aesthetics and reduced anisotropy over comparable 30% glass reinforced formulations. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in oil & gas, healthcare, transportation, electronics, chemical processing and other industrial uses. - Natural: KT-820 GF15 NT
KetaSpire® KT-820 GF30 KetaSpire KT- 820 CF30是中等流动性、 30 %玻纤增强聚醚醚酮( PEEK)。 该树脂的强度和刚度高于未增强KetaSpire PEEK树脂。玻纤增强树脂赋予结构性产品更高的机械强度,特别是工作温度接近300℃时。 KetaSpire PEEK按照最行业最高标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。 -米色:KetaSpire KT-820 GF30 BG20 Black: KetaSpire KT-820 GF30 BK95
KetaSpire® KT-820 NL KetaSpire KT -820 NL是低流动未增强聚醚醚酮(PEEK ),以非润滑本色颗粒状供应。 KetaSpire PEEK按照行业最高标准生产,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。 该树脂也有本色粗粉末状牌号KetaSpire KT- 820P供混合用。 也有本色(NT)或黑色(BK 95)润滑性树脂KT-820 可供。润滑牌号微量喷洒了硬脂酸钙( 0.01 % ),以帮助塑料颗粒在塑化螺杆中输送。
KetaSpire® KT-820 SL10 Ketaspire KT-820 SL10是一种聚醚醚酮(PEEK)化合物。与标准PEEK相比,该牌号专门设计用于改善润滑性、减少摩擦。与其它耐磨损牌号相比,这一牌号不仅具有高润滑性、出色的延展性和韧性优于未改性的高粘度PEEK。此外,该产品具有高流动性,可以注塑复杂、难成型的薄壁件。 除了这些与众不同的特征外,该树脂还具有PEEK公认的超高性能,包括:即使在高温下也具有高机械强度和刚度、长期热氧化稳定性、耐疲劳性以及优异的耐化学性,能耐受包括酸、碱、有机物等各种苛刻化学环境。 这些有吸引力的性能组合使Ketaspire KT-820 SL10适用于运输、电子、化学处理和工业用途,包括石油和天然气勘探和生产用品。
KetaSpire® KT-820 SL30 KetaSpire® KT-820 SL30 is a polyetheretherketone (PEEK) compound designed to provide a balance of excellent mechanical properties, wear resistance and low coefficient of friction in both dry and externally lubricated applications. The resin is formulated with a ternary anti-friction/anti-wear additive system comprised of carbon fiber, graphite, and polytetrafluoroethylene (PTFE). KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in transportation, electronics, chemical processing, and industrial uses including oil and gas exploration and production. The resin is black in color in its natural state.
KetaSpire® KT-820 SL45 KetaSpire KT- 820 SL45是基于聚醚醚酮的树脂,专门设计用于需要极低磨损率和良好机械性能的需要使用外部润滑剂的产品。
KetaSpire® KT-820 KetaSpire KT -820是低流动级未增强聚醚醚酮(PEEK),呈润滑颗粒状。KetaSpire PEEK按照行业最高标准加工,以兼具不同的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。KetaSpireKT -820可以很容易地使用常规注塑成型和挤出工艺进行加工。有本色粗粉末牌号KetaSpire KT- 820P供配混。 粒状KT- 820微量喷洒了润滑剂硬脂酸钙( 0.01 % ),方便颗粒在塑化螺杆中的输送。有类似于非润滑本色低流量牌号KetaSpire KT -820 NL可供 。 - 黑色:KT-820 BK 95
KetaSpire® KT-820FP KetaSpire® KT-820FP is the low-flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color fine powder form suitable for compression molding. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing, and other industrial uses. The resin is also available as KetaSpire® KT-820 NT in a natural-color pellet form for injection molding and extrusion.
KetaSpire® KT-820P KetaSpire® KT-820P is a low flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color coarse powder form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing, and other industrial uses. KetaSpire® KT-820P is intended for extrusion compounding. This powder is also available as KT-820NT in a natural-color pellet form for injection molding.
KetaSpire® KT-820SFP KetaSpire® KT-820SFP is the low flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-colored, super-fine powder form. This super-fine PEEK powder is suitable for water-borne coatings, electrostatically driven powder coatings, and resin pre-impregnation of continuous fiber composites. This super-fine powder is produced to a median particle size D50 of about 30 micrometers. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to acids, bases and a broad range of aggressive organic chemicals, best in class fatigue resistance, high thermal resistance, high purity and ease of melt processing. These properties make KT-820SFP well-suited for applications in health care, transportation, electronics, chemical processing and other industrial uses. The resin is also available in a natural-colored pellet form under the grade name KT-820 NT for injection molding and extrusion
KetaSpire® KT-820UFP KetaSpire® KT-820UFP is the low flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-colored, ultra-fine powder form. This ultra-fine PEEK powder is suitable for water-borne coatings, electrostatically driven powder coatings and resin pre-impregnation of continuous fiber composites. This ultra-fine powder is produced to a median particle size D50 of about 10 micrometers. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to acids, bases and a broad range of aggressive organic chemicals, best-in-class fatigue resistance, high thermal resistance, high purity and ease of melt processing. These properties make KT-820UFP well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses. The resin is also available in a natural-colored pellet form under the grade name KT-820 NT for injection molding and extrusion.
KetaSpire® KT-850 KetaSpire® KT-850 is the intermediate-flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color pellet form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses. - Natural: KT-850 NT
KetaSpire® KT-850P KetaSpire® KT-850P is the intermediate-flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color coarse powder form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing, and other industrial uses. KetaSpire® KT-850P can be easily processed using typical injection molding and extrusion processes. The resin is also available as KetaSpire® KT-850 NT in a natural-color pellet form.
KetaSpire® KT-851 NL SP KetaSpire® KT-851 NL SP resin is a depth-filtered grade of polyetheretherketone (PEEK) supplied in non-lubricated, natural-color pellet form and is specially designed for use in extruded wire insulation coating. KT-851 NL SP offers the needed balance of properties and processability for applying thin insulation coatings onto copper or other conducting wire using a continuous extrusion process to achieve a robust insulation coating that is capable of withstanding the harsh use environments of many industrial applications. The SP suffix denotes small pellets (2.25 mm diameter on average), which contributes to improved feeding and conveying in small extruders and other processing equipment. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to organics, acids and bases, best in class fatigue resistance, excellent wear resistance, ease of melt processing and high purity. A lubricated form of this resin is available as KT-851 in natural color (NT). The pellets in the lubricated versions are supplied with a very light dusting (0.01%) of calcium stearate to aid with conveying through single screw extruder-based processing equipment.
KetaSpire® KT-851 NL KetaSpire® KT-851 NL resin is a depth-filtered grade of polyetheretherketone (PEEK) supplied in non-lubricated, natural-color pellet form and is specially designed for use in extruded wire insulation coating. KT-851 NL offers the needed balance of properties and processability for applying thin insulation coatings onto copper or other conducting wire using a continuous extrusion process to achieve a robust insulation coating that is capable of withstanding the harsh use environments of many industrial applications. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to organics, acids and bases, best in class fatigue resistance, excellent wear resistance, ease of melt processing and high purity. A lubricated form of this resin is available as KT-851 in natural color (NT). The pellets in the lubricated versions are supplied with a very light dusting (0.01%) of calcium stearate to aid with conveying through single screw extruder-based processing equipment.
KetaSpire® KT-851 KetaSpire® KT-851 resin is a depth-filtered grade of polyetheretherketone (PEEK) specially designed for use in extruded wire insulation coating. KT-851 offers the needed balance of properties and processability for applying thin insulation coatings onto copper or other conducting wire using a continuous extrusion process to achieve a robust insulation coating that is capable of withstanding the harsh use environments of many industrial applications. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to organics, acids and bases, best in class fatigue resistance, excellent wear resistance, ease of melt processing and high purity. The pellets are supplied with a very light dusting (0.01%) of calcium stearate to aid with conveying through single screw extruder-based processing equipment. Natural: KetaSpire® KT-851 NT
KetaSpire® KT-880 ACF30 KetaSpire® KT-880 CF30 ACF30 is a 30% chopped carbon fiber-reinforced polyetheretherketone (PEEK) product designed for demanding structural engineering applications in a wide range of industries. The product enjoys an attractive combination of high performance properties including, very high strength and stiffness, very high heat deflection temperature along with long term heat aging resistance. Additionally, this material exhibits exceptional chemical resistance and fatigue resistance. The resin offers low melt viscosity for ease of injection molding fabrication. Injection molding processing can be carried out on standard injection molding equipment. The resin is supplied in pellet form. The pellets are dusted with 0.01% (ppm) calcium stearate to aid with feeding and conveying in the screws of injection molding equipment.
KetaSpire® KT-880 CF30 KetaSpire® KT-880 CF30 is a high flow, 30% carbon fiber reinforced grade of polyetheretherketone (PEEK). Carbon-fiber reinforcement of KetaSpire® PEEK provides the maximum levels of mechanical properties at temperatures approaching 300°C and the lowest coefficient of linear thermal expansion within the KetaSpire® product family. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include very high strength and stiffness, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses.
KetaSpire® KT-880 CF40 KetaSpire KT- 880 CF30是高流动性 、30 %碳纤增强聚醚醚酮( PEEK)。 在温度接近300℃时,碳纤增强 KetaSpire PEEK 的机械性能达到行业最高水平,并且,具有KetaSpire 产品系列最低的线性热膨胀系数。KetaSpire PEEK按照最高的行业标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。
KetaSpire® KT-880 FW30 KetaSpire KT- 880 CF30是高流动性 、30 %碳纤增强聚醚醚酮( PEEK)。 在温度接近300℃时,碳纤增强 KetaSpire PEEK 的机械性能达到行业最高水平,并且,具有KetaSpire 产品系列最低的线性热膨胀系数。KetaSpire PEEK按照最高的行业标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。
KetaSpire® KT-880 FW31 KetaSpire® KT-880 FW31 is a polyetheretherketone (PEEK) compound designed to provide a balance of excellent mechanical properties, wear resistance, and low coefficient of friction without containing polytetrafluoroethylene (PTFE). KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in transportation, electronics, and industrial uses including oil and gas exploration and production. The resin is black in color in its natural state.
KetaSpire® KT-880 GF15 KetaSpire® KT-880 GF15 is a high flow, 15% glass-fiber reinforced grade of polyetheretherketone (PEEK). This resin offers higher strength and stiffness properties relative to unreinforced KetaSpire® PEEK resin. The glass fiber content is optimized to provide a balance of strength and stiffness with toughness-related properties, such as impact resistance and elongation at break. The low fiberglass loading gives the resin improved surface aesthetics and reduced anisotropy over comparable 30% glass reinforced formulations. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in oil & gas, healthcare, transportation, electronics, chemical processing and other industrial uses. - Natural: KT-880 GF15 NT
KetaSpire® KT-880 GF20 KetaSpire KT- 880 GF30是高流动性 、30 %玻纤增强聚醚醚酮( PEEK)。强度和刚度高于未增强KetaSpire PEEK树脂。玻纤增强同时赋予材料在结构性产品中更高的机械强度,尤其是工作温度接近300℃的条件下。 KetaSpire PEEK按照行业最高标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。
KetaSpire® KT-880 GF30 KetaSpire® KT-880 GF30 is the high-flow, 30% glass-fiber reinforced grade of polyetheretherketone (PEEK). This resin offers higher strength and stiffness properties relative to unreinforced KetaSpire® PEEK resin. Reinforcement also affords greater mechanical robustness in structural applications, particularly those with service temperatures approaching 300°C. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses. - Beige: KT-880 GF30 BG 20 - Black: KT-880 GF30 BK 95
KetaSpire® KT-880 GFS20 BK95 KetaSpire® KT-880 GFS20 BK95 is a high flow, high performance polyetheretherketone with excellent dimensional stability and low warpage. This product offers higher modulus and notched impact relative to unfilled PEEK resin while maintaining its yielding qualities. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties which makes PEEK the choice material in many niche applications. KetaSpire® has excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for use as gaskets and seal rings in automotive transmission parts.
KetaSpire® KT-880 GFS20 NT KetaSpire® KT-880 GFS20 NT is a high flow, high performance polyetheretherketone with excellent dimensional stability and low warpage. This product offers higher modulus and notched impact relative to unfilled PEEK resin while maintaining its yielding qualities. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties which makes PEEK the choice material in many niche applications. KetaSpire® has excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for use as gaskets and seal rings in automotive transmission parts.
KetaSpire® KT-880 NL KetaSpire® KT-880 NL is a high flow grade of unreinforced polyetheretherketone (PEEK) supplied in non-lubricated, natural-color pellet form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses. KetaSpire® KT-880 NL can be easily processed using typical injection molding processes. This resin is also available as KT-880P in a natural-color coarse powder form for compounding. A lubricated form of the resin is available as KT-880 in either natural (NT) or black (BK 95). The lubricated version is lightly dusted with calcium stearate (0.1% level) to aid with pellet conveyance in plastication screws.
KetaSpire® KT-880 KetaSpire KT- 880是高流动、未增强聚醚醚酮( PEEK),呈颗粒状。KetaSpire PEEK按照行业最高标准加工,以兼具各种出色的性能为特征,包括优异的耐磨损性、一流的抗疲劳性、易于熔融加工、高纯度、优异的耐有机物、酸和碱等化学物质的性能。 这些特性使得它非常适合医疗保健、交通运输、电子、化学处理和其它工业用途。KetaSpire KT-880 NT可以很方便地使用常规注塑成型工艺进行加工。该树脂有本色粗粉末牌号 KT-880P供配混。 粒状KT- 880微量喷洒了润滑剂硬脂酸钙( 0.01 % ),方便颗粒在塑化螺杆中的输送。有类似于非润滑本色低流量牌号KetaSpire KT -880 NL可供 。 - Black: KT-880 BK 95 - Natural: KT-880 NT
KetaSpire® KT-880FP KetaSpire® KT-880FP is the high-flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural color fine powder form for compression molding and other uses that can benefit from the fine powder form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing, and other industrial uses. The resin is also available as KetaSpire KT-880 NT in a natural-color pellet form for injection molding.
KetaSpire® KT-880P KetaSpire® KT-880P is a high flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color coarse powder form. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity and excellent chemical resistance to organics, acids and bases. These properties make it well-suited for applications in healthcare, transportation, electronics, chemical processing and other industrial uses. KetaSpire® KT-880P is intended for extrusion compounding. This powder is also available as KT-880NT in a natural-color pellet form for injection molding.
KetaSpire® KT-880SFP KetaSpire® KT-880SFP is the high flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-color super-fine powder form. This super-fine PEEK powder is suitable for water borne coatings, electrostatically driven powder coatings, and resin pre-impregnation of continuous fiber composites. This super-fine powder is produced to a median particle size D50 of about 30 micrometers. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to acids, bases and a broad range of aggressive organic chemicals, best in class fatigue resistance, high thermal resistance, high purity and ease of melt processing. These properties make KT-880SFP well-suited for applications in health care, transportation, electronics, chemical processing and other industrial uses. The resin is also available in a natural-colored pellet form under the grade name KT-880 NT for injection molding applications.
KetaSpire® KT-880UFP KetaSpire® KT-880UFP is the high flow grade of unreinforced polyetheretherketone (PEEK) supplied in a natural-colored, ultra-fine powder form. This ultra-fine PEEK powder is suitable for water borne coatings, electrostatically driven powder coatings, and resin pre-impregnation of continuous fiber composites. This ultra fine powder is produced to a median particle size D50 of about 10 micrometers. KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent chemical resistance to acids, bases and a broad range of aggressive organic chemicals, best in class fatigue resistance, high thermal resistance, high purity and ease of melt processing. These properties make KT-880UFP well-suited for applications in health care, transportation, electronics, chemical processing and other industrial uses. The resin is also available in a natural-colored pellet form under the grade name KT-880 NT for injection molding applications.
KetaSpire® MS NT1 AM Filament Ketaspire® MS NT1 AM Filament provides long-term performance up to 240 °C, including exceptional chemical resistance, outstanding wear and abrasion resistance. These properties make it particularly suited for metal replacement in critical applications in severe end-use environments, such as Oil & Gas, Aerospace and Automotive.
KetaSpire® NT1 HC AM Filament Ketaspire® NT1 HC AM Filament provides long-term performance up to 240 °C, including exceptional chemical resistance, outstanding wear and abrasion resistance offered for use in high-performance healthcare applications. These properties make it particularly suited for metal replacement.
KetaSpire® XT-920 CF30 KetaSpire® XT-920 CF30 is a 30% carbon fiber reinforced grade of the industry's first true a high-temperature PEEK. This compound provides the maximum level of mechanical properties at temperatures approaching 300°C. It also exhibits the lowest coefficient of linear thermal expansion (CLTE) within the KetaSpire® XT product family. The PEEK designation is based on the 2:1 ratio of ether-to-ketone functional groups in the polymer backbone. The material provides the exceptional chemical resistance of PEEK along with a 20°C (36°F) higher glass transition temperature and a 45°C (81°F) higher melting temperature than standard PEEK. This increase in thermal performance allows engineers to achieve higher mechanical strength for components used in higher temperature and higher pressure operating environments. Although other high-temperature polyketones exhibit thermal properties on par with KetaSpire® XT, their chemical resistance is significantly inferior to standard PEEK and KetaSpire® XT. The material's unique combination of properties makes KetaSpire® XT well-suited for applications in oil and gas, transportation, electronics, chemical processing, and other industrial uses.
KetaSpire® XT-920 FP KetaSpire® XT-920 FP is a natural color grade of the industry's first true high-temperature PEEK supplied in a fine powder form suitable for compression molding. The PEEK designation is based on the 2:1 ratio of ether-to-ketone functional groups in the polymer backbone. The material provides the exceptional chemical resistance of PEEK along with a 20°C (36°F) higher glass transition temperature and a 45°C (81°F) higher melting temperature than standard PEEK. This increase in thermal performance allows engineers to achieve higher mechanical strength for components used in higher temperature and higher pressure operating environments. KetaSpire® XT also provides a significant improvement in electrical properties. Although other high-temperature polyketones exhibit thermal properties on par with KetaSpire® XT, their chemical resistance is significantly inferior to standard PEEK and KetaSpire® XT. The material's unique combination of properties makes KetaSpire® XT well-suited for applications in oil and gas, transportation, electronics, chemical processing, and other industrial uses. KetaSpire® XT-920 is also available in a natural-color pellet form for injection molding and extrusion.
KetaSpire® XT-920 GF30 KetaSpire® XT-920 GF30 is a 30% glass fiber reinforced, natural color grade of the industry's first true a high-temperature PEEK. Glass fiber reinforcement provides higher strength and stiffness properties than unreinforced KetaSpire® XT-920 resin, making it suitable for structural applications needing robust mechanical properties, particularly those with service temperatures approaching 300°C. The PEEK designation is based on the 2:1 ratio of ether-to-ketone functional groups in the polymer backbone. The material provides the exceptional chemical resistance of PEEK along with a 20°C (36°F) higher glass transition temperature and a 45°C (81°F) higher melting temperature than standard PEEK. This increase in thermal performance allows engineers to achieve higher mechanical strength for components used in higher temperature and higher pressure operating environments. Although other high-temperature polyketones exhibit thermal properties on par with KetaSpire® XT, their chemical resistance is significantly inferior to standard PEEK and KetaSpire® XT. The material's unique combination of properties makes KetaSpire® XT well-suited for applications in oil & gas, transportation, electronics, chemical processing, and other industrial uses.
KetaSpire® XT-920 KetaSpire® XT-920 is an unreinforced, natural color grade of the industry's first true high-temperature PEEK polymer supplied in a lubricated pellet form. The PEEK designation is based on the 2:1 ratio of ether-to-ketone functional groups in the polymer backbone. The material provides the exceptional chemical resistance of PEEK along with a 20°C (36°F) higher glass transition temperature and a 45°C (81°F) higher melting temperature than standard PEEK. This increase in thermal performance allows engineers to achieve higher mechanical strength for components used in higher temperature and higher pressure operating environments. KetaSpire® XT also provides a significant improvement in electrical properties. Although other high-temperature polyketones exhibit thermal properties on par with KetaSpire® XT, their chemical resistance is significantly inferior to standard PEEK and KetaSpire® XT. The material's unique combination of properties makes KetaSpire® XT well-suited for applications in oil & gas, transportation, electronics, chemical processing, and other industrial uses. KetaSpire® XT-920 can be easily processed using typical injection molding and extrusion processes. This resin is also available as KetaSpire® XT-920P in a natural-color coarse powder form for compounding. Pellets of KetaSpire® XT-920 are supplied lightly dusted with the lubricant calcium stearate (0.01% level) to aid with pellet conveyance in plastication screws. The equivalent non-lubricated, natural color grade is KetaSpire® XT-920 NL. - Natural: XT-920 NT
Ketron® 1000 IM PEEK Ketron® 1000 Injection Molded (IM) Polyetheretherketone PEEK shapes offer excellent chemical, corrosion, and wear resistance across a wide range of operating temperatures. Ideal for applications within the oil and gas industry, Ketron® 1000 IM PEEK components are often specified for back up seal rings and v-seals.
Ketron® 1000 PEEK AE Ketron 1000 Polyetheretherketone PEEK AE is an unfilled general purpose grade that offers the highest elongation and toughness of all materials in the PEEK family. Ideal for instrument and seal components, where ductility and inertness are critical, Ketron 1000 PEEK AE shapes are known for their ability to fit within a variety of applications and industries.
Ketron® 1000 PEEK FG Ketron 1000 Polyetheretherketone PEEK FG (Food Grade) is a EU 10/2011 and FDA Compliant, unfilled general purpose grade that offers the highest elongation and toughness of all materials in the PEEK family. Ideal for instrument and seal components, where ductility and inertness are critical, Ketron 1000 PEEK FG shapes are known for their ability to fit within a variety of applications and industries.
Ketron® 1000 PEEK SP Ketron® 1000 PEEK SP stock shapes are produced from virgin polyetheretherketone resin and offer the highest toughness and impact strength of all Ketron® PEEK SP grades. Both Ketron® 1000 PEEK SP natural & black can be sterilised by all conventional sterilisation methods (steam, dry heat, ethylene oxide and gamma irradiation).
Ketron® 1000 PEEK Ketron® 1000 Polyetheretherketone PEEK is an EU 10/2011 and FDA Compliant, unfilled general purpose grade that offers the highest elongation and toughness of all materials in the PEEK family. Ideal for instrument and seal components, where ductility and inertness are critical, Ketron® 1000 PEEK shapes are known for their ability to fit within a variety of applications and industries.
Ketron® CA30 PEEK SP This 30% carbon fibre reinforced grade combines even higher stiffness, mechanical strength and creep resistance than Ketron® GF30 PEEK SP with an optimum wear resistance. Moreover, compared with unreinforced PEEK, the carbon fibres considerably reduce thermal expansion and provide 3.5 times higher thermal conductivity - dissipating heat from the bearing surface faster, improving bearing life and pressure-velocity capabilities.
Ketron® CA30 PEEK Ketron® CA30 Polyetheretherketone PEEK is a 30% carbon fiber-reinforced grade that exhibits even higher stiffness, mechanical strength, and creep and wear resistance that Ketron® GF30 PEEK. With a significantly reduced thermal expansion, optimum load carrying capabilities, and high thermal conductivity rates, Ketron® CA30 PEEK components are often favored for their ability to extend part life and rapidly dissipate heat in bearing applications.
Ketron® CM 1030HT PEK Ketron® CM 1030HT Polyetherketone PEK provides added stiffness at high temperature, Carbon filled for added strength and stiffness, Good dimensional stability, Excellent chemical and corrosion resistance
Ketron® CM CA30 PEEK Ketron® CM CA30 Polyetheretherketone PEEK is a compression molded, 30% carbon fiber-reinforced grade that exhibits outstanding impact, corrosion, chemical, and wear resistance. With a significantly reduced thermal expansion, optimum load carrying capabilities, and high thermal conductivity rates, Ketron® CM CA30 PEEK components are often favored for their ability to extend part life and rapidly dissipate heat in bearing applications. Ketron® CM CA30 PEEK shapes also excel in large parts applications, where high strength and stiffness are required.
Ketron® CM GF30 PEEK Ketron® CM GF30 Polyetheretherketone PEEK is a compression molded, 30% glass fiber reinforced grade with excellent dimensional stability and outstanding chemical, corrosion, and creep resistance. With the addition of glass fibers, Ketron® CM GF30 PEEK has a significantly low expansion rate and high flexural modulus. Ideal for extreme environments, Ketron® CM GF30 PEEK components are often favored for large structural applications that require superior strength, stiffness, and stability.
Ketron® GF30 PEEK SP This 30% glass fibre reinforced grade offers a higher stiffness and creep resistance than Ketron® 1000 PEEK SP and has a much better dimensional stability. This grade is very appropriate for structural applications carrying high static loads for long periods of time at elevated temperatures. The suitability of Ketron® GF30 PEEK SP for sliding parts however is to be carefully examined since the glass fibres tend to abrade the mating surface.
Ketron® GF30 PEEK Ketron® GF30 Polyetheretherketone PEEK is a 30% glass fiber reinforced grade with excellent dimensional stability and outstanding chemical, corrosion, and creep resistance. With the addition of glass fibers, Ketron® GF30 PEEK has a significantly low expansion rate and high flexural modulus. In addition to these characteristics, Ketron® GF30 PEEK is often favored for structural applications that require improved strength, stiffness, or stability, especially at temperatures above 300°F / 150°C.
Ketron® HPV PEEK SP The addition of carbon fibres, PTFE and graphite to virgin PEEK results in a Ketron® PEEK SP "bearing grade". Its excellent tribological properties (low friction, long wear and high pressure-velocity capabilities) make this grade especially suited for wear and friction applications.
Ketron® HPV PEEK Ketron® HPV Polyetheretherketone PEEK shapes are carbon fiber reinforced, with graphite and PTFE lubricants, giving them the lowest coefficient of friction and the best machinability of all PEEK materials. Due to Ketron® HPV PEEK's combination of low wear and friction, and high LPV, this grade is often chosen as a solution for service bearings, bushings, insulators, valves, and seals.
Ketron® HPV Sterra™ PEEK Ketron® Sterra™ HPV Polyetheretherketone PEEK shapes are carbon fiber reinforced, with graphite and PTFE lubricants, giving them the lowest coefficient of friction and the best machinability of all PEEK materials. Due to Ketron Sterra HPV PEEK’s combination of low wear and friction, and high LPV, this grade is often chosen as a solution for service bearings, bushings, insulators, valves, and seals. As part of the Sterra product portfolio, this material contains recycled content and exhibits a significantly lower carbon footprint compared to similar materials derived from non- recycled feedstocks. For details, please refer to the respective environmental data sheet.
Ketron® SP HPV / CM HPV PEEK Ketron® CM HPV Polyetheretherketone PEEK shapes are compression molded and carbon fiber reinforced, with graphite and PTFE lubricants. Due to this, this grade has the lowest coefficient of friction and the best machinability of all PEEK materials. Ketron CM HPV PEEK’s combination of low wear and friction and high LPV, make this material an ideal solution for service bearings, bushings, insulators, valves, and seals.
Ketron® Sterra™ CA30 PEEK Ketron Sterra CA30 Polyetheretherketone PEEK is a 30% carbon fiber-reinforced grade that exhibits even higher stiffness, mechanical strength, and creep and wear resistance that Ketron GF30 PEEK. With a significantly reduced thermal expansion, optimum load carrying capabilities, and high thermal conductivity rates, Ketron Sterra CA30 PEEK components are often favored for their ability to extend part life and rapidly dissipate heat in bearing applications. As part of the Sterra product portfolio, this material contains recycled content and exhibits a significantly lower carbon footprint compared to similar materials derived from non-recycled feedstocks. For details, please refer to the respective environmental data sheet.
Ketron® TF20 PEEK SP Compared with Ketron® 1000 PEEK SP this PTFE filled PEEK SP grade offers improved frictional properties (considerably reduced coefficient of friction) and higher pressure-velocity capabilities.
Ketron® TX PEEK FG Ketron® TX Polyetheretherketone PEEK FG (Food Grade) is an internally lubricated, EU 10/2011 and FDA Compliant grade that offers improved wear and frictional performance over virgin PEEK. Often favored for food and beverage processing, and pharmaceutical applications where extreme performance temperatures, critical tolerances, or low frictional heat are required, Ketron TX PEEK FG components extend wear and part life by lowering the coefficient of friction over standard PEEK.
Ketron® TX PEEK Ketron® TX Polyetheretherketone PEEK is an internally lubricated, EU 10/2011 and FDA Compliant grade that offers improved wear and frictional performance over virgin PEEK. Often favored for food and beverage processing, and pharmaceutical applications where extreme performance temperatures, critical tolerances, or low frictional heat are required, Ketron® TX PEEK components extend wear and part life by lowering the coefficient of friction over standard PEEK.
Ketron® VMX Food Grade PEEK Ketron VMX Food Grade (FG) PEEK is a EU 10/2011 and compositional FDA 21 CFR § 177.2415 compliant material that offers extreme dimensional stability, high strength and temperature resistance. Ketron VMX PEEK FG shapes can be easily traced by different detection systems installed to detect contamination of the foodstuffs, allowing global food processors to safely avoid costly recalls caused by foreign contamination. Due to their superior resistance to wear and corrosion, Ketron VMX PEEK FG components are favored for applications in the food processing and packaging industry such as pistons, manifolds, valves, and mixing vessels.
KRATIR rPEEK CF Material Class: PolyEther Ether Ketone with carbon fiber High Thermal Resistance & 100% Recycled - Outstanding mechanical properties, especially high Z-Strength - Very good surface finish
LARPEEK 10 G/30 Compound based on Polyetheretherketone (PEEK). Glass fibres. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 10 G/60 Compound based on Polyetheretherketone (PEEK). Glass fibres. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 10 K/30 Compound based on Polyetheretherketone (PEEK). Carbon fibres. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 10 MDT05-01 G/35 NT:0210F1 Compound based on Polyetheretherketone (PEEK). Magnetic and X-Rays detectable filler. Glass fibres. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 10 Product made of Polyetheretherketone (PEEK). Unfilled. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 50 K/30 Compound based on Polyetheretherketone (PEEK). Carbon fibres. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LARPEEK 50 Product made of Polyetheretherketone (PEEK). Unfilled. Intrinsically flame retardant. Very good chemical resistance. Very good thermal properties. Low smoke density and low toxicity index. PFAS-free product.
LATIGRAY 88/10-01 CX/30 Radiopaque compound based on Polyetheretherketone (PEEK). Special filler. Intrinsically flame retardant. PFAS-free product.
LATILUB 88/10-10T Y/10 Self-lubricating product based on Polyetheretherketone (PEEK). PTFE. Aramid fibres. Intrinsically flame retardant.
LATILUB 88/10-15T K/30 Self-lubricating product based on Polyetheretherketone (PEEK). PTFE. Carbon fibres. Intrinsically flame retardant. High stiffness.
LATILUB 88/50-20GRT K/10 Self-lubricating product based on Polyetheretherketone (PEEK). Graphite / PTFE. Carbon fibres. Intrinsically flame retardant.
LATILUB 88/50-20T Self-lubricating product based on Polyetheretherketone (PEEK). PTFE. Intrinsically flame retardant.
LATILUB 88/50-30GRT Self-lubricating product based on Polyetheretherketone (PEEK). Graphite / PTFE. Intrinsically flame retardant.
LNP™ LUBRICOMP™ Compound LCL33 LNP LUBRICOMP LCL33 compound is based on Polyetheretherketone (PEEK) resin containing 15% carbon fiber, 15% PTFE. Added features of this grade include: Wear Resistant, Electrically Conductive.
LNP™ LUBRICOMP™ Compound LCL33E LNP LUBRICOMP LCL33E compound is based on Polyetheretherketone (PEEK) resin containing 15% carbon fiber, 15% PTFE. Added features of this grade include: Easy Molding, Wear Resistant, Electrically Conductive.
LNP™ LUBRICOMP™ Compound LCL33EXQ LNP LUBRICOMP LCL33EXQ compound is based on Polyetheretherketone (PEEK) resin containing 15% carbon fiber, 15% PTFE. Added features of this grade include: Wear Resistant, Easy Molding, Electrically Conductive.
LNP™ LUBRICOMP™ Compound LCL36 LNP LUBRICOMP LCL36 compound is based on Polyetheretherketone (PEEK) resin containing 30% carbon fiber and 15% PTFE. Added features of this grade include: Electrically Conductive, Internally Lubricated, Wear Resistant.
LNP™ LUBRICOMP™ Compound LCL36E LNP LUBRICOMP LCL36E compound is based on Polyetheretherketone (PEEK) resin containing 30% carbon fiber and 15% PTFE. Added features of this grade include: Easy Molding, Wear Resistant, Electrically Conductive.
LNP™ LUBRICOMP™ Compound LFL36E LNP LUBRICOMP LFL36E compound is based on Polyetheretherketone (PEEK) resin containing 30% glass fiber, 15% PTFE. Added features of this grade include: Wear Resistant, Easy Molding.
LNP™ LUBRICOMP™ Compound LGL33 LNP LUBRICOMP LGL33 compound is based on Polyetheretherketone (PEEK) resin containing graphite and 15% PTFE. Added features of this grade include: Wear Resistant.
LNP™ LUBRICOMP™ Compound LL002 LNP LUBRICOMP LL002 compound is based on Polyetheretherketone (PEEK) resin containing 10% PTFE. Added features of this grade include: Wear Resistant.
LNP™ LUBRICOMP™ Compound LL003 LNP LUBRICOMP LL003 compound is based on Polyetheretherketone (PEEK) resin containing 15% PTFE. Added features of this grade include: Wear Resistant.
LNP™ LUBRICOMP™ Compound LL003XX1 LNP LUBRICOMP LL003XX1 compound is based on Polyetheretherketone (PEEK) resin containing 15% PTFE lubricant. Added features of this grade include: Easy Molding, Excellent Wear Resistance and Very Low Coefficient of Friction (CoF)
LNP™ LUBRICOMP™ Compound LL004 LNP LUBRICOMP LL004 compound is based on Polyetheretherketone (PEEK) resin containing 20% PTFE. Added features of this grade include: Wear Resistant.
LNP™ LUBRICOMP™ Compound LL004C LNP LUBRICOMP LL004C compound is based on Polyetheretherketone (PEEK) resin containing 20% PTFE. Added features of this grade include: Wear Resistant, LNP Clean Compounding Technology.
LNP™ LUBRICOMP™ Compound LX00430 LNP LUBRICOMP LX00430 compound is based on Polyetheretherketone (PEEK) resin containing proprietary fillers. Added features of this grade include: Wear Resistant.
LNP™ LUBRICOMP™ Compound LX19222 LNP LUBRICOMP LX19222 compound is based on Polyetheretherketone (PEEK) resin containing proprietary fillers. Added features of this grade include: Easy Molding, High Temperature Bearing, Excellent Wear Resistance and Low CTE.
LNP™ LUBRICOMP™ Compound LX91475 LNP LUBRICOMP LX91475 compound is based on Polyetheretherketone (PEEK) resin containing proprietary fillers. Added features of this grade include: Easy Molding, High Temperature Bearing Grade, Wear Resistant.
LNP™ STAT-KON™ Compound LX00486C LNP STAT-KON LX00486C compound is based on Polyetheretherketone (PEEK) resin containing carbon fiber. Added features of this grade include: LNP Clean Compounding Technology, Electrically Conductive, Dimensional Stability.
LNP™ STAT-KON™ Compound LX04420C LNP STAT-KON LX04420C compound is based on Polyetheretherketone (PEEK) resin containing carbon fiber. Added features of this grade include: LNP Clean Compounding Technology, Electrically Conductive, Dimensional Stability.
LNP™ THERMOCOMP™ Compound LC003E LNP THERMOCOMP LC003E compound is based on Polyetheretherketone (PEEK) resin containing 15% carbon fiber. Added features of this grade include: Easy Molding, Electrically Conductive
LNP™ THERMOCOMP™ Compound LC004XXP LNP THERMOCOMP LC004XXP compound is based on Polyetheretherketone (PEEK) resin containing 20% carbon fiber. Added features of this grade include: Electrically Conductive.
LNP™ THERMOCOMP™ Compound LC006 LNP THERMOCOMP LC006 compound is based on Polyetheretherketone (PEEK) resin containing 30% carbon fiber. Added features of this grade include: Electrically Conductive.
LNP™ THERMOCOMP™ Compound LC006EX1 LNP THERMOCOMP LC006EX1 compound is based on Polyetheretherketone (PEEK) resin containing 30% post-industrial-recycled (PIR) carbon fiber. Added features of this grade include High Modulus, High impact, Easy Molding and Electrically Conductive.
LNP™ THERMOCOMP™ Compound LC006EXQ LNP THERMOCOMP LC006EXQ compound is based on Polyetheretherketone (PEEK) resin containing 30% carbon fiber. Added features of this grade include: Electrically Conductive, Easy Molding.
LNP™ THERMOCOMP™ Compound LC008E LNP THERMOCOMP LC008E compound is based on Polyetheretherketone (PEEK) resin containing 40% carbon fiber. Added features of this grade include: Easy Molding, Electrically Conductive.
LNP™ THERMOCOMP™ Compound LC008EXP LNP THERMOCOMP LC008EXP compound is based on Polyetheretherketone (PEEK) resin containing 40% carbon fiber. Added features of this grade include: Electrically Conductive, Easy Molding.
LNP™ THERMOCOMP™ Compound LC008EXQ LNP THERMOCOMP LC008EXQ compound is based on Polyetheretherketone (PEEK) resin containing 40% carbon fiber. Added features of this grade include: Electrically Conductive, Easy Molding.
LNP™ THERMOCOMP™ Compound LC00AEX1 LNP THERMOCOMP LC00AEX1 compound is based on Polyetheretherketone (PEEK) resin containing 50% carbon fiber. Added features of this grade include: Electrically Conductive, Ultra High Modulus and Strength, Easy Molding, Excellent Wear Resistance and Low CTE.
LNP™ THERMOCOMP™ Compound LC00APXQ LNP THERMOCOMP LC00APXQ compound is based on Polyetheretherketone (PEEK) resin containing 50% carbon fiber. Added features of this grade include: Exceptional Processing, Electrically Conductive.
LNP™ THERMOCOMP™ Compound LCF62E LNP THERMOCOMP LCF62E compound is based on Polyetheretherketone (PEEK) resin containing 10% carbon fiber and 30% glass fiber. Added features of this grade include: Easy Molding, Electrically Conductive.
LNP™ THERMOCOMP™ Compound LF002 LNP THERMOCOMP LF002 compound is based on Polyetheretherketone (PEEK) resin containing 10% glass fiber.
LNP™ THERMOCOMP™ Compound LF002EXD-WT02005 LNP THERMOCOMP LF002EXD-WT02005 compound is based on Polyetheretherketone (PEEK) resin containing 10% glass fiber. Added features of this grade include Custom Color and Easy Molding.
LNP™ THERMOCOMP™ Compound LF002XXP-WT02005 LNP THERMOCOMP LF002XXP-WT02005 compound is based on Polyetheretherketone (PEEK) resin containing 10% glass fiber. Added features of this grade include: Custom Color.
LNP™ THERMOCOMP™ Compound LF003 LNP THERMOCOMP LF003 compound is based on Polyetheretherketone (PEEK) resin containing 15% glass fiber.
LNP™ THERMOCOMP™ Compound LF004E LNP THERMOCOMP LF004E compound is based on Polyetheretherketone (PEEK) resin containing 20% glass fiber. Added features of this grade include: Easy Molding.
LNP™ THERMOCOMP™ Compound LF004EX1 LNP THERMOCOMP LF004E1 compound is based on Polyetheretherketone (PEEK) resin containing 20% glass fiber. Added features of this grade include: Easy Molding and Low Warpage
LNP™ THERMOCOMP™ Compound LF006 LNP THERMOCOMP LF006 compound is based on Polyetheretherketone (PEEK) resin containing 30% glass fiber.
LNP™ THERMOCOMP™ Compound LF006E LNP THERMOCOMP LF006E compound is based on Polyetheretherketone (PEEK) resin containing 30% glass fiber. Added features of this grade include: Easy Molding.
LNP™ THERMOCOMP™ Compound LF006EX1 LNP THERMOCOMP LF006EX1 compound is based on Polyetheretherketone (PEEK) resin containing 30% glass fiber. Added features of this grade include: Low warpage, Easy Molding.
LNP™ THERMOCOMP™ Compound LF008 LNP THERMOCOMP LF008 compound is based on Polyetheretherketone (PEEK) resin containing 40% glass fiber. Added features of this grade include: High Modulus and Strength.
LNP™ THERMOCOMP™ Compound LF008EX1 LNP THERMOCOMP LF008EX1 compound is based on Polyetheretherketone (PEEK) resin containing 40% glass fiber. Added features of this grade include: High Modulus and Strength, Easy Molding and Low Warpage.
LNP™ THERMOCOMP™ Compound LFW55EX1 LNP THERMOCOMP LFW55EX1 compound is based on Polyetheretherketone (PEEK) resin containing 25% glass fiber and 25% mineral. Added features of this material include: Easy Molding, Dimensional Stability.
LNP™ THERMOCOMP™ Compound LX03447 LNP THERMOCOMP LX03447 compound is based on Polyetheretherketone (PEEK) resin containing 35% carbon fiber. Added features of this grade include: Electrically Conductive.
LNP™ THERMOCOMP™ Compound LX04015 LNP THERMOCOMP LX04015 compound is based on Polyetheretherketone (PEEK) resin containing 15% carbon fiber. Added features of this grade include: Electrically Conductive, Easy Molding.
LNP™ THERMOCOMP™ Compound LX08411 LNP THERMOCOMP LX08411 compound is based on Polyetheretherketone (PEEK) resin containing 45% carbon fiber. Added features of this grade include: Electrically Conductive, High Modulus, Easy Molding.
LNP™ THERMOCOMP™ Compound LX09404 LNP THERMOCOMP LX09404 compound is based on Polyetheretherketone (PEEK) resin containing 45% carbon fiber. Added features of this grade include: Electrically Conductive, High Modulus
LNP™ THERMOCOMP™ Compound LX97024 LNP THERMOCOMP LX97024 compound is based on Polyetheretherketone (PEEK) resin containing 15% glass fiber, 5% PTFE. Added features of this grade include: Internally Lubricated, Easy Molding.
LubriOne™ LB9800-8001 AR Black Carbon Fiber, PTFE and Graphite Filled Standard Flow PEEK Compound
LubriOne™ LB9800-8002 AR Black LubriOne™润滑和耐磨聚合物专用于自润滑材料,其摩擦系数低,能改善耐磨性。LubriOne聚合物已证明能减少摩擦、噪音、振动、生热和提高产品耐久性等特点。
LUVOCOM® 1105/BK0873 unreinforced; black Main Features - Highly chemically-resistant parts, non flammable. - Low warpage, isotropic shrinkage characteristics. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105/CF/30/EM with carbon fibers; natural color (black) Main Features - Very strong and stiff parts; low coefficient of thermal expansion. - Especially suitable for dynamic-stress situations. - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - Electrically conductive, suitable for continuous discharging of statically-generated electricity.
LUVOCOM® 1105/GF/14 with glass fibers; natural color Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105/GF/20/EM with glass fibers; natural color Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105/GF/30/BK-1 with glass fibers; black Main Features - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOCOM® 1105/GF/30/NAT-2 with glass fibers; natural color Main Features - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105/GF/30/TF/15 with glass fibers and PTFE; natural color Main Features - Improved friction and wear behaviour, self-lubricating, for highest tribological requirements. - Chemically- and hydrolytically- resistant parts, non flammable. - Dynamically-stressed parts moving at high velocity. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105/GR/15/TF/15-2 with PTFE lubricant modified; dark grey Main Features - Improved friction and wear behaviour. Optimised for dry running operations. - Chemically- and hydrolytically- resistant parts, non flammable. - Dynamically-stressed parts moving at high velocity. - High dimensionally stable precision parts.
LUVOCOM® 1105/WT106 unreinforced; grey white Main Features - Inherent flame resistance. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Highly chemically-resistant parts, non flammable.
LUVOCOM® 1105/XCF/15 with carbon fibers; natural color (black) Main Features - Very strong and stiff parts; low coefficient of thermal expansion. - Especially suitable for dynamic-stress situations. - Electrically conductive, suitable for continuous discharging of statically-generated electricity.
LUVOCOM® 1105/XCF/30 with carbon fibers; natural color (black) Main Features - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - Very strong and stiff parts; low coefficient of thermal expansion. - Especially suitable for dynamic-stress situations.
LUVOCOM® 1105-0699 with carbon fibers, PTFE lubricant modified; natural color (black) Main Features - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - Improved friction and wear behaviour. Optimised for dry running operations. - Very strong and stiff parts; low coefficient of thermal expansion. - High dimensionally stable precision parts with low warpage and narrow tolerance range.
LUVOCOM® 1105-0699-2 with carbon fibers, PTFE lubricant modified; black Main Features - Very strong and stiff parts; low coefficient of thermal expansion. - Improved friction and wear behaviour. Optimised for dry running operations. - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - High dimensionally stable precision parts with low warpage and narrow tolerance range.
LUVOCOM® 1105-0831 unreinforced, easy flowing; black Main Features - Highly chemically-resistant parts, non flammable. - Low warpage, isotropic shrinkage characteristics. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105-0858 with glass fibers, easy flowing; black Main Features - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-0904/GN2 with glass fibers; pearl green Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-0918/BL with glass fibers; traffic blue Main Features - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-0923/GY2 with glass fibers; traffic grey A Main Features - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature. - Suitable for biocompatible application, superheated steam sterilizable. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOCOM® 1105-0948/YL2 with glass fibers; green beige Main Features - Strong, stiff, impact-resistant parts. - High dimensionally stable precision parts, high continuous use temperature. - Dynamically-stressed parts moving at high velocity. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOCOM® 1105-50336/BK with CNT; black Main Features - Highly chemically- and hydrolysis- resistant parts, non flammable. - Dynamically-stressed parts. - Strong, stiff parts. - Electrically conductive, suitable for continuous discharging of statically-generated electricity.
LUVOCOM® 1105-50758 with glass fibers, PTFE lubricant modified; natural color Main Features - Improved wear behaviour. - Strong, stiff parts. - High dimensionally stable precision parts. - Low warpage.
LUVOCOM® 1105-7106 with carbon fibers, PTFE lubricant modified; natural color (black) Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Improved friction and wear behaviour. Optimised for dry running operations. - Dynamically-stressed parts moving at high velocity. - Low warpage.
LUVOCOM® 1105-7107 with glass fibers, easy flowing; natural color Main Features - Low warpage. - Strong, stiff parts. - High dimensionally stable precision parts.
LUVOCOM® 1105-7173/BL with glass fibers; sapphire blue Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOCOM® 1105-7185 with carbon fibers, PTFE lubricant modified; natural color (black) Main Features - Improved friction and wear behaviour. Optimised for dry running operations. - Dynamically-stressed parts moving at high velocity. - Chemically- and hydrolytically- resistant parts, non flammable. - Strong, stiff parts; low thermal coefficient of expansion.
LUVOCOM® 1105-7198/BK with PTFE; black Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Improved friction and wear behaviour, self-lubricating, for highest tribological requirements.
LUVOCOM® 1105-7285/EM/BL unreinforced; capri blue Main Features - Inherent flame resistance. - Highly chemically-resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105-7290 with carbon fibers; natural color (black) Main Features - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - Dynamically-stressed parts moving at high velocity. - Highly chemically- and hydrolysis- resistant parts, non flammable. - Very strong and stiff parts; low coefficient of thermal expansion.
LUVOCOM® 1105-7301 unreinforced, laser markable; black Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Low warpage, isotropic shrinkage characteristics. - Highly chemically-resistant parts, non flammable.
LUVOCOM® 1105-7460/BL5019 with glass fibers; capri blue Main Features - Strong, stiff, impact-resistant parts. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-7596/BL unreinforced, easy flowing; signal blue Main Features - Inherent flame resistance. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Highly chemically-resistant parts, non flammable.
LUVOCOM® 1105-7678 VP with carbon fibers, lubricant modified; graphite grey Main Features - Improved friction and wear behaviour, self-lubricating, for highest tribological requirements. - Dynamically-stressed parts moving at high velocity. - Chemically- and hydrolytically- resistant parts, non flammable. - Strong, stiff parts; low thermal coefficient of expansion.
LUVOCOM® 1105-7685/L unreinforced; natural color Main Features - Highly chemically-resistant parts, non flammable. - Suitable for biocompatibility. - Superheated-steam sterilisable. - Inherent flame resistance.
LUVOCOM® 1105-7714 with PTFE lubricant modified, easy flowing; graphite grey Main Features - Improved friction and wear behaviour. Optimised for dry running operations. - Chemically- and hydrolytically- resistant parts, non flammable. - Dynamically-stressed parts moving at high velocity. - High dimensionally stable precision parts.
LUVOCOM® 1105-8099/GY with mineral filler; granite grey Main Features - Isotropic shrinkage characteristics. - Reduced moment of inertia compared with metal parts. - High dimensionally stable precision parts, high continuous use temperature. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOCOM® 1105-8160 with carbon fibers, lubricant modified; natural color (black) Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Improved friction and wear behaviour, self-lubricating, for highest tribological requirements. - Dynamically-stressed parts moving at high velocity. - Strong, stiff parts; low thermal coefficient of expansion.
LUVOCOM® 1105-8199 with CNT; black Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Electrically conductive, suitable for continuous discharging of statically-generated electricity. - Highly dimensionally stable at elevated temperatures.
LUVOCOM® 1105-8278/BL with glass fibers; brillant blue Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Strong, stiff parts. - High dimensionally stable precision parts, high continuous use temperature. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105-8278/GY with glass fibers; slate grey Main Features - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-8278/OR with glass fibers; deep orange Main Features - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOCOM® 1105-8317/RD with glass fibers; ruby red Main Features - Strong, stiff parts. - Chemically- and hydrolytically- resistant parts, non flammable. - Low warpage. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105-8344/GY unreinforced; slate grey Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Highly chemically-resistant parts, non flammable. - Inherent flame resistance.
LUVOCOM® 1105-8356 unreinforced; natural color (beige) Main Features - Highly chemically-resistant parts, non flammable. - Low warpage, isotropic shrinkage characteristics.
LUVOCOM® 1105-8587/VI with PTFE; traffic purple Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Improved friction and wear behaviour, self-lubricating, for highest tribological requirements.
LUVOCOM® 1105-8673/GY unreinforced; dust grey Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Highly chemically-resistant parts, non flammable. - Inherent flame resistance.
LUVOCOM® 1105-8709/GY unreinforced; mouse grey Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Low warpage, isotropic shrinkage characteristics. - Highly chemically-resistant parts, non flammable.
LUVOCOM® 1105-8740/GN unreinforced, laser markable; pale green Main Features - Not flammable. - Highly chemically-resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance.
LUVOCOM® 1105-8825/GN unreinforced; patina green Main Features - Not flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Highly chemically-resistant parts, non flammable.
LUVOCOM® 1105-9018 with carbon fibers, PTFE lubricant modified, easy flowing; natural color (black) Main Features - Chemically- and hydrolytically- resistant parts, non flammable. - Improved friction and wear behaviour. Optimised for dry running operations. - Dynamically-stressed parts moving at high velocity. - Low warpage.
LUVOCOM® 1105-9464/BL with glass fibers; ocean blue Main Features - Strong, stiff parts. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOTECH® eco PEEK 101010 BK with carbon fibers, PTFE lubricant modified; natural color (black) Main Features - Improved friction and wear behaviour. Optimised for dry running operations. - Dynamically-stressed parts moving at high velocity. - Chemically- and hydrolytically- resistant parts, non flammable. - Strong, stiff parts; low thermal coefficient of expansion.
LUVOTECH® eco PEEK BK unreinforced; black Main Features - Highly chemically-resistant parts, non flammable. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Inherent flame resistance.
LUVOTECH® eco PEEK CF30 with carbon fibers; natural color (black) Main Features - Very strong and stiff parts; low coefficient of thermal expansion. - Dynamically-stressed parts moving at high velocity. - Chemically- and hydrolytically- resistant parts, non flammable. - Electrically conductive, suitable for continuous discharging of statically-generated electricity.
LUVOTECH® eco PEEK GF20 BK with glass fibers; black Main Features - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Strong, stiff parts. - Chemically- and hydrolytically- resistant parts, non flammable. - High dimensionally stable precision parts, high continuous use temperature.
LUVOTECH® eco PEEK GF30 BK with glass fibers; black Main Features - High dimensionally stable precision parts, high continuous use temperature. - Strong, stiff parts. - Especially suitable for medical parts, superheated steam sterilizable, hydrolysis resistance. - Chemically- and hydrolytically- resistant parts, non flammable.
LUVOTECH® eco PEEK TF20 BK with PTFE; black Main Features - Improved friction and wear behaviour. Optimised for dry running operations. - Chemically- and hydrolytically- resistant parts, non flammable. - Dynamically-stressed parts moving at high velocity. - High dimensionally stable precision parts.
MECHETEC® PEEK Rg-30  
MECHETEC® PEEK  
MECHETEC® PEEK-L  
Nemcon™ E PK DP104 Nemcon™ E PK DP104 is a carbon fiber-reinforced polyetheretherketone, characterized by very high strength, stiffness, consistent moldability, and exceptional thermal resistance.
Nemcon™ H PK DP110/X5 Nemcon™ H-series products are designed for use in high performance electronic assemblies where heat removal is critical to system performance. Nemcon™ H PK DP110/X5 is a thermally conductive polyetheretherketone, offering excellent chemical resistance, good stiffness and high HDT. It should be used in demanding applications where thermal management must be accomplished in harsh environments. Typical Applications - Housings for power components, such as motors, coils, and transformers. - IC thermal management components, such as heat sinks, heat spreaders, or heat pipes. - Critical military/aerospace applications involving severe environments.
OpteSTAT™ NC PK 8010 OpteSTAT™ master batches are Ovation Polymers' line of nano-compounds based on carbon nanotubes. Our proprietary dispersion technology debundles and disentangles carbon nanotubes without compromising their integrity. OpteSTAT™ compounds exhibit good conductivity at minimal nanotube loadings, achieving exceptional cleanliness and physical property retention. OpteSTAT™ NC PK 8010 is PEEK-based carbon nanotube compound. The material resistivity can be tailored to the application, while retaining the physical and thermal properties of the base polymer. Target applications include components of disk drives, business machines or other electronic assemblies where ESD control is required while retaining exceptional cleanliness, dimensional control and physical properties.
PFLUON® 8100G PFLUON PEEK POLYMER is a kind of special engineering plastic with the features of high-temperature resistance, self lubricating, easy processing and high mechanical strength.
PFLUON® 8200G PFLUON PEEK POLYMER is a kind of special engineering plastic with the features of high-temperature resistance, self lubricating, easy processing and high mechanical strength.
PFLUON® 8800G PFLUON PEEK POLYMER is a kind of special engineering plastic with the features of high-temperature resistance, self lubricating, easy processing and high mechanical strength.
PFLUON® 8900G PFLUON PEEK POLYMER is a kind of special engineering plastic with the features of high-temperature resistance, self lubricating, easy processing and high mechanical strength.
Plaslube® PEEK 1041 A  
Plaslube® PEEK 13005  
Plaslube® PEEK 6112  
Plaslube® PEEK CF10 GL10 TL10 A HF  
Plaslube® PEEK CF10 TL10 GL10 A  
Plaslube® PEEK CF10 TL15 HF  
Plaslube® PEEK CF15 T/GL15 A  
Plaslube® PEEK CF15 TL10 A  
Plaslube® PEEK CF15 TL15 A 907 BK MB  
Plaslube® PEEK CF15 TL15 A HF  
Plaslube® PEEK CF15 TL15 A  
Plaslube® PEEK CF20 TL15 HF  
Plaslube® PEEK CF30 1011 A  
Plaslube® PEEK CF30 TL15 HF  
Plaslube® PEEK CF35 TL5 A  
Plaslube® PEEK CTG30 A 002  
Plaslube® PEEK GF10 1001A  
Plaslube® PEEK T/GL20  
Plaslube® PEEK TL10 A  
Plaslube® PEEK TL15 A  
Plaslube® PEEK TL20 A  
POTICON KT16 The Poticon series features a potassium titanate micro-filler compounded in thermoplastic resins to provide outstanding micro-reinforcement and dimensional stability. The excellent surface smoothness of these compounds limits friction toward opposing materials, reducing wear and allowing for greaseless applications. Moreover, as Poticon diminishes damage toward the mold and metal die and offers excellent recyclability, it also decreases processing costs. Advantages - Microscopic reinforcement - Superior friction sliding and wear reduction - Excellent dimensional accuracy and surface smoothness - Highly recyclable Applications - Automotive Parts (gears, bearings) - LED Reflectors - Watch Parts (gears, ground plane) - Camera (image stabilization parts) - Sliding Parts (gears, wheel bearing) - Camera Module Parts - Motor Parts (cog-wheels, bearings) KT16 Property: Heat-resistant
Pyramid™ CC100 PEEK with 60% Chopped Carbon Fabric/Tape
Pyramid™ CC200 PEEK with 60% Continuous Carbon Fiber
Pyramid™ KD2000 CAM Tube Polyetheretherketone (PEEK) Tube
Pyramid™ KD2000 Compression Molded Shape Polyetheretherketone (PEEK) Tube
Pyramid™ KD2000 Injection Molded Shape Polyetheretherketone (PEEK) Tube
Pyramid™ KD2000-G01 Polyetheretherketone, Unfilled, Standard Flow
Pyramid™ KD2000-J01 Polyetheretherketone, Unfilled, Standard Flow
Pyramid™ KD2000-J02 Polyetheretherketone, Unfilled, Standard Flow
Pyramid™ KD2000-R01 Polyetheretherketone, Unfilled, Standard Flow
Pyramid™ KD2000-R02 Polyetheretherketone, Unfilled, Standard Flow
Pyramid™ KD2150 PEEK with 30% Glass Fiber
Pyramid™ KD2152 PEEK with 30% Glass Fiber
Pyramid™ KD2219 PEEK Wear Grade
Pyramid™ KD2250-NT Polyetheretherketone, 30% Carbon Filled
Pyramid™ KD2440 Ceramic filled ESD PEEK for Test Sockets
Pyramid™ KD2450-NT PEEK with 30% Ceramic Filler
Pyramid™ KD2520-NT Pyramid KD25: PEEK Lubricated; Standard Flow.
Pyramid™ KD2530-NT Pyramid KD25: PEEK Lubricated; Standard Flow.
Pyramid™ KD2540-NT Pyramid KD25: PEEK Lubricated; Standard Flow.
Pyramid™ KD2550-NT Pyramid KD25: PEEK Lubricated; Standard Flow.
Röchling® SUSTAPEEK Product characteristics - Excellent dimensional stability - Flame retardant and self-extinguishing - Very low smoke density Product applications - Medical engineering - Aviation industry - Electrical industry
RTP 2200 AR 15 TFE 15 Aramid Fiber Reinforced - PTFE Lubricated
RTP 2200 AR 15 Aramid Fiber - (Preliminary Data Sheet)
RTP 2200 HF AR 20 Aramid Fiber
RTP 2200 HF TFE 15 PTFE Lubricated - High Flow
RTP 2200 HF TFE 20 PTFE Lubricated
RTP 2200 HF TFE 5 PTFE Lubricated - High Flow
RTP 2200 HF Z FDA Compliant Ingredients
RTP 2200 HF High Flow
RTP 2200 LF AR 15 TFE 15 Aramid Fiber - PTFE Lubricated
RTP 2200 LF AR 15 Aramid Fiber
RTP 2200 LF GB 30 Glass Bead
RTP 2200 LF TFE 10 Z PTFE Lubricated - FDA Compliant Ingredients
RTP 2200 LF TFE 10 PTFE Lubricated
RTP 2200 LF TFE 15 PTFE Lubricated
RTP 2200 LF TFE 20 Z PTFE Lubricated - FDA Compliant Ingredients
RTP 2200 LF TFE 20 PTFE Lubricated
RTP 2200 LF TFE 30 PTFE Lubricated
RTP 2200 LF TFE 5 PTFE Lubricated - Low Flow
RTP 2200 LF  
RTP 2201 HF Glass Fiber - High Flow
RTP 2201 LF Glass Fiber - Low Flow
RTP 2202 HF TFE 15 Glass Fiber - PTFE Lubricated
RTP 2202 HF Z Glass Fiber - FDA Compliant Ingredients
RTP 2202 LF TFE 15 Glass Fiber - PTFE Lubricated
RTP 2203 HF Glass Fiber - High Flow
RTP 2203 LF TFE 10 Glass Fiber - PTFE Lubricated
RTP 2203 LF Glass Fiber - Low Flow
RTP 2204 HF Glass Fiber
RTP 2205 HF SE Glass Fiber - High Flow
RTP 2205 HF TFE 10 Glass Fiber - PTFE Lubricated
RTP 2205 HF TFE 15 Z Glass Fiber - PTFE Lubricated - FDA Compliant Ingredients
RTP 2205 HF TFE 15 Glass Fiber - PTFE Lubricated
RTP 2205 HF Z Glass Fiber - High Flow - FDA Compliant Ingredients
RTP 2205 HF Glass Fiber - High Flow
RTP 2205 LF TFE 15 Z Glass Fiber - PTFE Lubricated - FDA Compliant Ingredients
RTP 2205 LF TFE 15 Glass Fiber - PTFE Lubricated - Low Flow
RTP 2205 LF Glass Fiber - Low Flow
RTP 2207 HF TFE 10 Glass Fiber - PTFE Lubricated
RTP 2207 HF Glass Fiber - High Flow
RTP 2207 LF Glass Fiber - Low Flow
RTP 2208 LF Glass Fiber - Low Flow
RTP 2211 HF Glass Fiber
RTP 2281 HF TFE 15 Carbon Fiber - PTFE Lubricated - High Flow
RTP 2281 HF Carbon Fiber - High Flow
RTP 2281 LF Carbon Fiber - Low Flow
RTP 2282 HF TFE 15 Carbon Fiber Reinforced - PTFE Lubricated
RTP 2282 LF TFE 15 Carbon Fiber - PTFE Lubricated
RTP 2283 HEC Nickel-Coated Carbon Fiber - EMI/RFI/ESD Protection - Electrically Conductive
RTP 2283 HF TFE 15 Carbon Fiber - PTFE Lubricated
RTP 2283 HF Carbon Fiber - High Flow
RTP 2283 LF Carbon Fiber - Low Flow
RTP 2285 HF TFE 15 (ISO) Carbon Fiber - PTFE Lubricated
RTP 2285 HF TFE 15 Carbon Fiber - PTFE Lubricated
RTP 2285 HF Carbon Fiber - High Flow
RTP 2285 LF TFE 15 Carbon Fiber - PTFE Lubricated
RTP 2285 LF Carbon Fiber - Low Flow
RTP 2287 HEC Nickel-Coated Carbon Fiber - EMI/RFI Shielding - Electrically Conductive
RTP 2287 HF TFE 10 Carbon Fiber - PTFE Lubricated
RTP 2287 HF TFE 15 Carbon Fiber - PTFE Lubricated
RTP 2287 HF Carbon Fiber - High Flow
RTP 2287 LF Carbon Fiber - Low Flow
RTP 2288 LF Carbon Fiber - Low Flow
RTP 2299 X 108578 A Long Glass Fiber
RTP 2299 X 108578 B Long Glass Fiber
RTP 2299 X 108578 C Long Glass Fiber
RTP 2299 X 110551 Carbon Fiber Reinforced - PTFE Lubricated
RTP 2299 X 113763 B Carbon Fiber - Aramid Fiber - PTFE Lubricated - Perfluoropolyether Oil
RTP 2299 X 113783 A Carbon Fiber - PTFE Lubricated - Graphite Lubricated - Perfluoropolyether Oil
RTP 2299 X 115070 F Carbon Nanotube - Electrically Conductive - Permanently Static Dissipative
RTP 2299 X 115088 C Glass Fiber - Carbon Nanotube - ESD Protection
RTP 2299 X 115088 D Glass Fiber - Carbon Nanotube - ESD Protection
RTP 2299 X 115088 F Glass Fiber - Carbon Nanotube - ESD Protection
RTP 2299 X 115088 G Glass Fiber - Carbon Nanotube - ESD Protection
RTP 2299 X 115090 B Carbon Nanotube - Electrically Conductive
RTP 2299 X 115090 L Carbon Nanotube - ESD Protection - High Purity
RTP 2299 X 115090 M Carbon Nanotube - ESD Protection - High Purity
RTP 2299 X 115092 A Carbon Nanotube - Electrically Conductive - ESD Protection - High Purity
RTP 2299 X 117879 A Carbon Nanotube - Static Dissipative - ESD Protection - High Purity
RTP 2299 X 120337 Carbon Fiber - Wear Resistant
RTP 2299 X 121754 A Carbon Fiber - Carbon Nanotube - Electrically Conductive - Low Viscosity
RTP 2299 X 123311 A Carbon Nanotube - ESD Protection
RTP 2299 X 125106 PTFE Lubricated - Carbon Fiber - Graphite Lubricated - Controlled Geometry Pellets
RTP 2299 X 125404 A Carbon Fiber - Wear Resistant
RTP 2299 X 126107 A ESD Protection - Carbon Fiber
RTP 2299 X 133087 A EG Carbon Nanotube - Static Dissipative - Extrusion Grade - (Preliminary Data Sheet)
RTP 2299 X 154495 A (ISO) Mineral - ESD Protection - Preliminary Datasheet
RTP 2299 X 158694 A (ISO) Carbon Nanotube - ESD Protection - Preliminary Datasheet
RTP 2299 X 53538 Carbon Fiber - Ablative Compound
RTP 2299 X 80218 PTFE Lubricated
RTP 2299 X 81382 Carbon Fiber - PTFE Lubricated - Graphite Lubricated
RTP 2299 X 91191 Encapsulation Grade
Sciengy® PEEK-SG301A87 PEEK-SG301A87 is a 30% glass fiber reinforced PEEK compound developed to provide toughness, temperature, chemical resistant and higher strength.
Sciengy® PEEK-SGC301ATF PEEK-SGC301ATF is a 30% CF reinforced PEEK compound developed to provide higher strength, wear resistance, low coefficient of friction and chemical resistant.
Sciengy® PEEK-SGRN10FP PEEK-SGRN10FP is a fine powder type. It is applied to injection, mold pressing, extrusion and modification;
Sciengy® PEEK-SGRN10G PEEK-SGRN10G is a standard viscosity type. It is applied to injection, mold pressing, extrusion and modification;
Sciengy® PEEK-SGRN10P PEEK-SGRN10P is a standard viscosity type. It is applied to injection, mold pressing, extrusion and modification;
Sciengy® PEEK-SGRN150G PEEK-SGRN150G is a better high-flow than PEEK-SGRN90 type. Also it is applied to injection and mix; through special filtering, can be used for making fiber.
Sciengy® PEEK-SGRN20G PEEK-SGRN20G is a medium viscosity type. It is applied to injection, extrusion, modification and film.
Sciengy® PEEK-SGRN20P PEEK-SGRN20P is a medium viscosity type. It is applied to injection, extrusion, modification and film.
Sciengy® PEEK-SGRN90G PEEK-SGRN90G is a high-flow type. It is applied to injection and mix; through special filtering, can be used for making fiber.
Sciengy® PEEK-SGRN90P PEEK-SGRN90P is a high-flow type. It is applied to injection and mix; through special filtering, can be used for making fiber.
Semitron® ESd 480 PEEK Semitron® ESd 480 Polyetheretherketone PEEK electro static dissipative shapes exhibit excellent chemical resistance properties, while also maintaining high dimensional stability under varying environmental conditions. Due to these characteristics, this grade in particular is ideal for critical test fixture and wafer handling applications in wet process tools, where static dissipation is critical.
Semitron® ESd 490HR PEEK Semitron® ESd 490HR Polyetheretherketone PEEK electro static dissipative shapes offer similar physical properties as Semitron® ESd 480 PEEK, but exhibit a higher resistivity value in the 10E8 to 10E10 ohms per square range. Semitron® ESd 490HR PEEK components are thermally stable to temperatures of 490° F / 270° C without degradation, and also possess high structural strength and stiffness combined with excellent dimensional stability. Furthermore, this particular grade is non-sloughing, which is why it is an ideal solution for socket, nest, and contactor manufacturing for test equipment, and other electronic device handling applications.
Semitron® HPV ESd PEEK Semitron® HPV ESd Polyetheretherketone PEEK electro static dissipative shapes contain specific additives that make it an excellent performer in wear and friction applications where antistatic properties are essential. Due to this, this grade excels in electronic fixture applications that require a high degree of dimensional stability over an extended thermal range, as well as precise machinability.
Semitron® MDS 100 PEEK Semitron® MDS 100 modified Polyetheretherketone PEEK shapes offer a remarkable combination of strength, stiffness, and stability. This grade in particular was developed for use in uncontrolled application environments where a high level of precision is required. Due to this, Semitron® MDS 100 components are often used as test sockets, nests, and fixtures in test and package equipment throughout the semiconductor and electronics industry.
Semitron® MP-370 Semitron® MP 370 shapes exhibit excellent moisture absorption and thermal resistance, while also maintaining outstanding strength and dimensional stability. As a result, this grade is often selected for test socket applications where precision machining is critical, and complex geometries are prevalent.
Stat-Tech™ PK-30CF/000 BK 30% Carbon Fiber Reinforced PEEK Compound with Standard Flowability for Injection Molding Application
Stat-Tech™ PK-30CF/000 EM BK 30% Carbon Fiber Reinforced PEEK Compound with High Flowability for Injection Molding Application
Stat-Tech™ PK-30CF/000 FCR BK 30% Carbon Fiber Reinforced PEEK Compound with Ultra-High Flowability for Injection Molding Application
Stat-Tech™ ST9800-8015 CR ESD BK001 Carbon nanotube filled PEEK composites
Stat-Tech™ ST9800-8033 CR ESD BK001 PEEK compound
SUMIPLOY® CK3400 SUMIPLOY CK3400 is a polyether ether ketone (PEEK) product filled with carbon fiber. It is available in Asia Pacific, Europe, Latin America, or North America for injection molding. CK3400 is a grade with high strength, high elastic modulus, high heat resistance (320°C), low CLTE, dimensional stability, chemical resistance, and flame resistance. CK3400 is used for semiconductor carriers, IC trays and gears, taking advantage of its chemical resistance, high strength and high heat resistance.
SUMIPLOY® CK3420 SUMIPLOY CK3420 is a polyether ether ketone (PEEK) product filled with carbon fiber/PTFE. It is available in Asia Pacific, Europe, Latin America, or North America for injection molding. CK3420 is a grade with excellent tribological properties, especially excellent wear resistance against aluminum, high strength, high elastic modulus, high heat resistance (320°C), low CLTE, dimensional stability, chemical resistance, and flame resistance. CK3420 is used for seal rings and gears, taking advantage of its sliding properties, high strength, high heat resistance and chemical resistance.
SUMIPLOY® CK4600 SUMIPLOY CK4600 is a polyether ether ketone (PEEK) product filled with carbon fiber. It is available in Asia Pacific, Europe, Latin America, or North America for injection molding. CK4600 is a grade with high strength, high elastic modulus, high heat resistance (320°C), low CLTE, dimensional stability, chemical resistance, and flame resistance. CK4600 is used for semiconductor carriers, IC trays and gears, taking advantage of its chemical resistance, high strength and high heat resistance.
SUSTAPEEK black Typical characteristics - Flame retardant and self-extinguishing - Very low smoke density Typical industries - Mechanical Engineering Industry - Oil and Gas - Electronics - Aerospace - Healthcare
SUSTAPEEK CF 30 black Typical characteristics - Low coefficient of thermal expansion - Electrically conductive - High stiffness - Good dimensional stability Typical industries - Electronics - Aerospace - Semiconductor Industry - Oil and Gas - Vehicle Construction
SUSTAPEEK CM CF 30 black Typical characteristics - Flame retardant and self-extinguishing - Very low smoke density - Good dimensional stability Typical industries - Electronics - Oil and Gas - Subsea - Pipelines - Topside - Downhole
SUSTAPEEK CM MOD black Typical characteristics - Excellent sliding and abrasion behaviour - High rigidity - Hardly inflammable - Self-extinguishing - Very low smoke density - Very high resistance to high-energy radiation - Low creep tendency - Very high continuous service temperature Typical industries - Electronics - Conveyor Technology & Automation - Mechanical Engineering Industry - Aerospace
SUSTAPEEK CM natural Typical characteristics - Flame retardant and self-extinguishing - Very low smoke density - Good dimensional stability
SUSTAPEEK FG natural Typical characteristics - Flame retardant and self-extinguishing - Suitable for contact with foodstuffs according to (EC) No. 1935/2004 - Very low smoke density - Very high resistance to high-energy radiation - High abrasion resistance - Low creep tendency - Good machinability - Good adhesive properties - Good weldability - high dimensional stability under heat - Very high continuous service temperature - Low coefficient of thermal expansion - Good electrical insulating properties over a broad temperature range - Good thermoformability - Good wear resistance - ideal combination of tensile strength, stiffness and impact strength - Good sliding properties - Good dimensional stability Typical industries - Bakery and Confectionery - Meat, Fish and Poultry - Processing - Beverage Industry - Food Industry - Mechanical Engineering Industry
SUSTAPEEK GF 30 black Typical characteristics - High rigidity at good dimensional stability - High continuous service temperature Typical industries - Electronics - Aerospace - Chemical storage tanks
SUSTAPEEK GF 30 natural Typical characteristics - High rigidity at good dimensional stability - High continuous service temperature - Very low creep tendency Typical industries - Electronics - Chemical storage tanks - Aerospace - Mechanical Engineering Industry
SUSTAPEEK GLD 140 blue Typical characteristics - Good sliding properties - Good dimensional stability Typical industries - Bakery and Confectionery - Meat, Fish and Poultry - Processing - Beverage Industry - Food Industry - Mechanical Engineering Industry
SUSTAPEEK GLD 140 FG blue Typical characteristics - Good sliding properties - Good dimensional stability Typical industries - Bakery and Confectionery - Meat, Fish and Poultry Processing - Beverage Industry - Food Industry - Mechanical Engineering Industry
SUSTAPEEK GLD 140 FG natural Typical characteristics - Suitable for contact with foodstuffs according to (EC) No. 1935/2004 - Good sliding properties - Good dimensional stability Typical industries - Bakery and Confectionery - Meat, Fish and Poultry Processing - Beverage Industry - Food Industry - Mechanical Engineering Industry
SUSTAPEEK GLD 140 natural Typical characteristics - High temperature resistance - Good sliding properties - Good dimensional stability Typical industries - Conveyor Technology & Automation - Bakery and Confectionery - Meat, Fish and Poultry - Processing - Beverage Industry - Mechanical Engineering Industry - Food Industry
SUSTAPEEK MG black Typical characteristics - High purity - Very good sterilisation resistance - Very high strength and rigidity - High-temperature stable up to 250°C in continuous operation - ISO 10993 tested on semi-finished product - Chemical resistance Typical industries - Healthcare - Pharmaceutical industry
SUSTAPEEK MG blue Typical characteristics - High purity - Very good sterilisation resistance - ISO 10993 tested on semi-finished product - Very high strength and rigidity - High-temperature stable up to 250°C in continuous operation - Chemical resistance Typical industries - Healthcare
SUSTAPEEK MG green Typical characteristics - High purity - Very good sterilisation resistance - ISO 10993 tested on semi- finished product - Very high strength and rigidity - High-temperature stable up to 250°C in continuous operation - Chemical resistance Typical industries - Healthcare
SUSTAPEEK MG natural Typical characteristics - High purity - Very good sterilisation resistance - ISO 10993 tested on semi-finished product - Very high strength and rigidity - High-temperature stable up to 250°C in continuous operation - Chemical resistance Typical industries - Healthcare
SUSTAPEEK MG red Typical characteristics - High purity - Very good sterilisation resistance - ISO 10993 tested on semi-finished product - Very high strength and rigidity - High-temperature stable up to 250°C in continuous operation - Chemical resistance Typical industries - Healthcare
SUSTAPEEK MOD black Typical characteristics - Excellent sliding and abrasion behaviour - High rigidity - hardly inflammable - Self-extinguishing - Very low smoke density - Very high resistance to high-energy radiation - Low creep tendency - Very high continuous service temperature - Low coefficient of thermal expansion - High dimensional stability under heat - Good wear resistance - Good dimensional stability - ideal combination of tensile strength, stiffness and impact strength Typical industries - Electronics - Conveyor Technology & Automation - Chemical storage tanks - Mechanical Engineering - Industry - Healthcare - Aerospace
SUSTAPEEK MOD ESD 90 black Typical characteristics - Excellent sliding and abrasion behaviour - High rigidity - Hardly inflammable - Self-extinguishing - Very low smoke density - Very high resistance to high-energy radiation - High abrasion resistance - Antistatic - High dimensional stability under heat - High continuous service temperature - Low coefficient of thermal expansion - Good wear resistance - Good dimensional stability - ideal combination of tensile strength, stiffness and impact strength - Good sliding properties Typical industries - Electronics - Conveyor Technology & Automation - Chemical storage tanks - Mechanical Engineering - Industry - Healthcare - Aerospace - Electrical Industry
SUSTAPEEK natural calendered Typical characteristics - Flame retardant and self-extinguishing - Very low smoke density Typical industries - Healthcare - Aerospace - Electrical Industry - Electronics
SUSTAPEEK red Typical characteristics - Flame retardant and self-extinguishing - Very low smoke density Typical industries - Electronics - Aerospace - Healthcare
TECACOMP® PEEK 150 black 1015096 TECACOMP PEEK 150 black 1015096 - Compounds
TECACOMP® PEEK 150 CF20 black 1014797 TECACOMP PEEK 150 CF20 black 1014797 - Compounds Main features - very high stiffness - very high creep resistant - high dimensional stability - good chemical resistance - hydrolysis and superheated steam resistant - inherent flame retardant - resistance against high energy radiation - low viscosity
TECACOMP® PEEK 150 CF20 black 1015091 TECACOMP PEEK 150 CF20 black 1015091 - Compounds
TECACOMP® PEEK 150 CF30 black 1014747 TECACOMP PEEK 150 CF30 black 1014747 - Compounds Main features - very high stiffness - very high creep resistant - high dimensional stability - good chemical resistance - hydrolysis and superheated steam resistant - inherent flame retardant - resistance against high energy radiation - low viscosity Target Industries - automotive industry - business machines - mechanical engineering - precision engineering
TECACOMP® PEEK 150 GF30 natural 1015097 TECACOMP PEEK 150 GF30 natural 1015097 - Compounds Main features - high strength - high stiffness - very high creep resistant - high heat deflection temperature - very good chemical resistance - hydrolysis and superheated steam resistant - high dimensional stability - low moisture absorption Target Industries - automotive industry - business machines - mechanical engineering - precision engineering
TECACOMP® PEEK 150 GF30 yellow 1014751 TECACOMP PEEK 150 GF30 yellow 1014751 - Compounds Main features - high strength - high stiffness - very high creep resistant - high heat deflection temperature - very good chemical resistance - hydrolysis and superheated steam resistant - high dimensional stability - low moisture absorption
TECACOMP® PEEK 150 red 1014740 TECACOMP PEEK 150 red 1014740 - Compounds
TECACOMP® PEEK 450 black 1014713 TECACOMP PEEK 450 black 1014713 - Compounds
TECACOMP® PEEK 450 black 1014765 TECACOMP PEEK 450 black 1014765 - Compounds
TECACOMP® PEEK 450 CF30 black 1015087 TECACOMP PEEK 450 CF30 black 1015087 - Compounds Main features - excellent tensile strength Target Industries - automotive industry - mechanical engineering - business machines - precision engineering
TECACOMP® PEEK 450 CF30 black 1065859 TECACOMP PEEK 450 CF30 black 1065859 - Compounds
TECACOMP® PEEK 450 CMF grey 1014880 TECACOMP PEEK 450 CMF grey 1014880 - Compounds
TECACOMP® PEEK 450 CMF white 1014868 TECACOMP PEEK 450 CMF white 1014868 - Compounds
TECACOMP® PEEK 450 ELS nano black 1014992 TECACOMP PEEK 450 ELS nano black 1014992 - Compounds
TECACOMP® PEEK 450 GF30 black 1014824 TECACOMP PEEK 450 GF30 black 1014824 - Compounds
TECACOMP® PEEK 450 GF30 black 1014849 TECACOMP PEEK 450 GF30 black 1014849 - Compounds
TECACOMP® PEEK 450 GF30 brown 1014830 TECACOMP PEEK 450 GF30 brown 1014830 - Compounds
TECACOMP® PEEK 450 MED black 1014715 TECACOMP PEEK 450 MED black 1014715 - Compounds
TECACOMP® PEEK 450 MED black 1015094 TECACOMP PEEK 450 MED black 1015094 - Compounds Main features - hydrolysis and superheated steam resistant - very good sterilisable - resistance against high energy radiation - very good stress cracking resistance - very good chemical resistance - high creep resistance Target Industries - medical technology - mechanical engineering - food technology
TECACOMP® PEEK 450 MED blue 1014712 TECACOMP PEEK 450 MED blue 1014712 - Compounds
TECACOMP® PEEK 450 MED blue 1015102 TECACOMP PEEK 450 MED blue 1015102 - Compounds
TECACOMP® PEEK 450 MED green 1014887 TECACOMP PEEK 450 MED green 1014887 - Compounds
TECACOMP® PEEK 450 MED ivory 1053918 TECACOMP PEEK 450 MED ivory 1053918 - Compounds
TECACOMP® PEEK 450 MED yellow 1015101 TECACOMP PEEK 450 MED yellow 1015101 - Compounds
TECACOMP® PEEK 450 PVX black 1014774 TECACOMP PEEK 450 PVX black 1014774 - Compounds
TECACOMP® PEEK 450 PVX black 1062501 TECACOMP PEEK 450 PVX black 1062501 - Compounds
TECACOMP® PEEK 450 PVX MP black 1015020 TECACOMP PEEK 450 PVX MP black 1015020 - Compounds Main features - microgranules - good slide and wear properties - good wear resistance - high creep resistance - high heat deflection temperature - very good chemical resistance - hydrolysis and superheated steam resistant - high dimensional stability Target Industries - oil and gas industry
TECACOMP® PEEK 450 TF10 blue 1014891 TECACOMP PEEK 450 TF10 blue 1014891 - Compounds Main features - good slide and wear properties - good heat deflection temperature - hydrolysis and superheated steam resistant - inherent flame retardant - high viscosity
TECACOMP® PEEK 450 XR brown 1014826 TECACOMP PEEK 450 XR brown 1014826 - Compounds Main features - very high stiffness - very high creep resistant - high dimensional stability - good chemical resistance - hydrolysis and superheated steam resistant - inherent flame retardant - resistance against high energy radiation Target Industries - automotive industry
TECACOMP® PEEK CF30 black 1017676 TECACOMP PEEK CF30 black 1017676 - Compounds
TECACOMP® PEEK CF30 black 1056340 TECACOMP PEEK CF30 black 1056340 - Compounds
TECACOMP® PEEK GF30 natural 1017675 TECACOMP PEEK GF30 natural 1017675 - Compounds
TECACOMP® PEEK HT black 1014750 TECACOMP PEEK HT black 1014750 - Compounds
TECACOMP® PEEK MED grey 1046830 TECACOMP PEEK MED grey 1046830 - Compounds
TECACOMP® PEEK mod. black 1015093 TECACOMP PEEK mod. black 1015093 - Compounds
TECACOMP® PEEK PVX X10 1014854 TECACOMP PEEK PVX X10 1014854 - Compounds
TECACOMP® PEEK ST black 1014852 TECACOMP PEEK ST black 1014852 - Compounds
TECACOMP® PEEK TRM PVX MP black 1052994 TECACOMP PEEK TRM PVX MP black 1052994 - Compounds
TECACOMP® PEEK TRM X black 1046849 TECACOMP PEEK TRM X black 1046849 - Compounds Main features - good mechanical properties - very good bearing and wear properties - high creep resistance - high heat deflection temperature - very good chemical resistance - hydrolysis and superheated steam resistant - high dimensional stability - low moisture absorption Target Industries - automotive industry - mechanical engineering
TECACOMP® PEEK TRM XS mod. black 1017677 TECACOMP PEEK TRM XS mod. black 1017677 - Compounds Main features - very good bearing and wear properties Target Industries - automotive industry - mechanical engineering
TECAFIL PEEK EV CF30 black TECAFIL PEEK EV CF30 black - 1.75 mm - Filament Main features: - very high stiffness - inherent flame retardant - good chemical resistance - high dimensional stability - hydrolysis and superheated steam resistant Target Industries: - oil and gas industry - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK EV natural TECAFIL PEEK EV natural - 1.75 mm - Filament Main features: - inherent flame retardant - very good chemical resistance - good slide and wear properties - good heat deflection temperature - resistance against high energy radiation - hydrolysis and superheated steam resistant Target Industries: - electronics - food technology - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK LDS black TECAFIL PEEK LDS black - 1.75 mm - Filament Main features: - developed for the LPKF-LDS® process Target Industries: - electronics - mechanical engineering - semiconductor technology - aircraft and aerospace interiors - aircraft and aerospace technology
TECAFIL PEEK natural TECAFIL PEEK natural - 1.75 mm - Filament Main features: - inherent flame retardant - good dimensional stability - high heat deflection temperature - high thermal and mechanical capacity Target Industries: - electronics - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK VX black TECAFIL PEEK VX black - 1.75 mm - Filament Main features: - inherent flame retardant - very good chemical resistance - good slide and wear properties - good heat deflection temperature - resistance against high energy radiation - hydrolysis and superheated steam resistant Target Industries: - electronics - food technology - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK VX blue TECAFIL PEEK VX blue - 1.75 mm - Filament Main features: - inherent flame retardant - very good chemical resistance - good slide and wear properties - good heat deflection temperature - resistance against high energy radiation - hydrolysis and superheated steam resistant Target Industries: - electronics - food technology - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK VX CF30 black TECAFIL PEEK VX CF30 black - 1.75 mm - Filament Main features: - very high stiffness - inherent flame retardant - high dimensional stability - good chemical resistance - hydrolysis and superheated steam resistant Target Industries: - oil and gas industry - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAFIL PEEK VX natural TECAFIL PEEK VX natural - 1.75 mm - Filament Main features: - inherent flame retardant - very good chemical resistance - good slide and wear properties - good heat deflection temperature - resistance against high energy radiation - hydrolysis and superheated steam resistant Target Industries: - electronics - food technology - automotive industry - chemical technology - mechanical engineering - aircraft and aerospace technology
TECAPEEK® black TECAPEEK® black polyetheretherketone - Stock Shapes (rods, plates, tubes) Main features - made exclusively from Victrex® resin - excellent chemical resistance - high thermal resistance - good heat deflection temperature - good machinability - very good slide and wear properties - hydrolysis and superheated steam resistant Target Industries - aircraft and aerospace technology - oil and gas industry - chemical plant engineering - semiconductor technology - food engineering - medical technology - automotive industry - process engineering - mechanical engineering
TECAPEEK® CF30 black TECAPEEK ® CF30 black - Stock Shapes (rods, plates, tubes) Main features - very good chemical resistance - good heat deflection temperature - inherent flame resistance - hydrolysis and superheated steam resistant - very high stiffness - very high creep resistant - high dimensional stability - resistance againt high energy radiation Target Industries - Aircraft and aerospace technology - automotive industry - conveyor technology - oil and gas industry - mechanical engineering - chemical plant engineering
TECAPEEK® CM CF30 black (XP98) TECAPEEK CM CF30 black (XP98) - Stock Shapes (rods, plates, tubes) Main features - very good chemical resistance - good heat deflection temperature - inherent flame resistance - hydrolysis and superheated steam resistant - very high stiffness - very high creep resistant - high dimensional stability - resistance against high energy radiation Target Industries - aircraft and aerospace technology - automotive industry - conveyor technology - oil and gas industry - mechanical engineering - chemical plant engineering
TECAPEEK® CM GF30 natural (XP91) TECAPEEK CM GF30 natural (XP91) - Stock Shapes (rods, plates, tubes) Main features - excellent strength - broad chemical compatibility - good dimensional stability - high stiffness Target Industries - oil and gas industry - chemical and refinery industry
TECAPEEK® CM XP100 black TECAPEEK CM XP100 black - Stock Shapes (rods, plates, tubes) Main features - excellent wear properties - excellent chemical resistance - high creep resistance - hydrolysis and superheated steam resistant - inherent flame resistance Target Industries - mechanical engineering - conveyor technology - automotive industry - aircraft and aerospace technology - precision engineering
TECAPEEK® CM XP96 natural TECAPEEK CM XP96 natural - Stock Shapes (rods, plates, tubes) Main features - excellent strength - broad chemical compatibility - good dimensional stability - high stiffness Target Industries - oil and gas industry - chemical and refinery industry
TECAPEEK® CMF white TECAPEEK CMF white - Stock Shapes (rods, plates, tubes) Main features - high dimensional stability - good machinability - high strength - high stiffness - low thermal expansion - low burring - good heat deflection temperature - very good thermal stability Target Industries - electrical engineering - precision engineering - semiconductor technology - vacuum technology
TECAPEEK® CMP natural TECAPEEK CMP natural - Stock Shapes (rods, plates, tubes) Main features - good heat deflection temperature - good machinability - inherent flame retardant - hydrolysis and superheated steam resistant - resistance against high energy radiation - good slide and wear properties - high toughness - high creep resistance Target Industries - semiconductor technology
TECAPEEK® ELS nano black TECAPEEK® ELS nano black - Stock Shapes (rods, plates, tubes) Main features - high dimensional stability - high continuous use temperature - high strength - very good chemical resistance - electrically conductive - high thermal and mechanical capacity - good machinability - high toughness Target Industries - aircraft and aerospace technology - electronics - mechanical engineering - semiconductor technology - computer technology
TECAPEEK® GF30 natural TECAPEEK ® GF30 natural - Stock Shapes (rods, plates, tubes) Main features - good heat deflection temperature - very good chemical resistance - very high creep resistant - hydrolysis and superheated steam resistant - inherent flame resistance - very high stiffness - high dimensional stability - resistance against high energy radiation Target Industries - agricultural machinery - aircraft and aerospace interiors - aircraft and aerospace technology - food processing - food engineering - automotive industry - electrical engineering - chemical plant engineering - mechanical engineering - conveyor technology
TECAPEEK® ID blue TECAPEEK ® ID blue - Stock Shapes (rods, plates, tubes) Main features - detectable via metal detector - very good chemical resistance - hydrolysis and superheated steam resistant - good heat deflection temperature - high creep resistance - inherent flame resistance - good machinability Target Industries - food processing - food technology - engineering for beverage filling systems - packaging and paper machinery - conveyor technology - pharamceutical industry - mechanical engineering
TECAPEEK® IM CF30 black TECAPEEK IM CF30 black - Stock Shapes (rods, plates, tubes) Main features - very good chemical resistance - good heat deflection temperature - inherent flame resistance - hydrolysis and superheated steam resistant - very high stiffness - very high creep resistant - high dimensional stability - resistance against high energy radiation Target Industries - oil and gas industry - aircraft and aerospace technology - automotive industry - conveyor technology - mechanical engineering - chemical plant engineering
TECAPEEK® IM GF30 natural TECAPEEK IM GF30 natural - Stock Shapes (rods, plates, tubes) Main features - good heat deflection temperature - very good chemical resistance - very high creep resistant - hydrolysis and superheated steam resistant - inherent flame resistance - very high stiffness - high dimensional stability - resistance against high energy radiation Target Industries - aircraft and aerospace technology - aircraft and aerospace interiors - food engineering - food processing - agricultural machinery - automotive industry - electrical engineering - chemical plant engineering - mechanical engineering - conveyor technology
TECAPEEK® IM natural TECAPEEK IM Natural - Stock Shapes (rods, plates, tubes) Main features - excellent chemical resistance - excellent mechanical properties - high thermal resistance - good heat deflection temperature - good machinability - very good slide and wear properties - hydrolysis and superheated steam resistant Target Industries - oil and gas industry - aircraft and aerospace technology - food technology - food processing - chemical plant engineering - semiconductor technology - automotive industry
TECAPEEK® MT black TECAPEEK® MT black polyetheretherketone - Stock Shapes (rods, plates, tubes) Main features - very good stress cracking resistance - resistance against high energy radiation - very good sterilisable - excellent chemical resistance - high thermal resistance - good machinability - very good slide and wear properties - hydrolysis and superheated steam resistant Target Industries - medical technology - food technology - mechanical engineering
TECAPEEK® MT natural TECAPEEK® MT natural polyetheretherketone - Stock Shapes (rods, plates, tubes) Main features - excellent chemical resistance - very good stress cracking resistance - high creep resistance - hydrolysis and superheated steam resistant - good machinability - resistance against high energy radiation - good slide and wear properties - very good sterilisable Target Industries - food technology - mechanical engineering - pharmaceutical industry - medical technology
TECAPEEK® natural TECAPEEK® natural polyetheretherketone - Stock Shapes (rods, plates, tubes) Main features - excellent chemical resistance - high thermal resistance - good heat deflection temperature - good machinability - very good slide and wear properties - hydrolysis and superheated steam resistant Target Industries - aircraft and aerospace technology - food technology - oil and gas industry - chemical plant engineering - semiconductor technology - food engineering - medical technology - automotive industry - process engineering - mechanical engineering
TECAPEEK® PVX black TECAPEEK® PVX black - Stock Shapes (rods, plates, tubes) Main features - good head deflection temperature - high creep resistance - good slide and wear properties - hydrolysis and superheated steam resistant - inherent flame resistance - excellent chemical resistant Target Industries - mechanical engineering - chemical technology - conveyor technology - automotive industry - textile industry - precision engineering - aircraft and aerospace technology
TECAPEEK® SD black TECAPEEK SD black - Stock Shapes (rods, plates, tubes) Main features - electrically static dissipative - excellent chemical resistance Target Industries - semiconductor technology
TECAPEEK® SM natural TECAPEEK SM Natural - Stock Shapes (rods, plates, tubes) Main features - electrically insulating - high thermal and mechanical capacity - hydrolysis and superheated steam resistant - good chemical resistance - flame retardant according to UL94 V-0 - good machinability - good slide and wear properties - resistant to many solvents Target Industries - oil and gas industry - chemical technology - mechanical engineering - electrical engineering - aircraft and aerospace technology - automotive industry - semiconductor technology - vacuum technology - textile industry
TECAPEEK® ST TECAPEEK ® ST - Stock Shapes (rods, plates, tubes) Main features - made exclusively from Victrex® resin - high heat deflection temperature - excellent mechanical properties - excellent chemical resistance - easy to machine - good dimensional stability - electrically insulating - high purity Target Industries - oil and gas industry - semiconductor technology - chemical plant engineering - automotive industry - process engineering
TECAPEEK® UD blue TECAPEEK UD blue - Ultra Detectable - Stock Shapes (rods, plates, tubes) Main features - metal detectable - x-ray detectable Target Industries - food processing - food technology - engineering for beverage filling systems - pharmaceutical industry - heat exchanger - conveyor technology
TECATEC PEEK CF50 S280 CP/IP/OS V01 natural TECATEC PEEK CF50 S280 CP/IP/OS V01 natural - Composite Materials Main features - excellent chemical resistance - low coefficient of thermal expansion - continuous service temperature up to 260 °C - very high stiffness - very high strength Target Industries - automotive industry - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK CF50 T200 CP/IP/OS V01 natural TECATEC PEEK CF50 T200 CP/IP/OS V01 natural - Composite Materials Main features - excellent chemical resistance - low coefficient of thermal expansion - continuous service temperature up to 260 °C - very high stiffness - very high strength Target Industries - automotive industry - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK CW50 PL V01 natural TECATEC PEEK CW50 PL V01 natural - Composite Materials Main features - excellent chemical resistance - low coefficient of thermal expansion - continuous service temperature up to 260 °C - very high stiffness - very high strength Target Industries - automotive industry - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK GF50 P203 CP/IP/OS V01 natural TECATEC PEEK GF50 P203 CP/IP/OS V01 natural - Composite Materials Main features - electrically insulating - inherent flame resistance - very good mechanical strength Target Industries - automotive industry - aircraft and aerospace technology - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK GF50 S296 CP/IP/OS V01 natural TECATEC PEEK GF50 S296 CP/IP/OS V01 natural - Composite Materials Main features - electrically insulating - inherent flame resistance - very good mechanical strength Target Industries - automotive industry - aircraft and aerospace technology - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK GF50 T390 CP/IP/OS V01 natural TECATEC PEEK GF50 T390 CP/IP/OS V01 natural - Composite Materials Main features - electrically insulating - inherent flame resistance - very good mechanical strength Target Industries - automotive industry - aircraft and aerospace technology - mechanical engineering - oil and gas industry - safety engineering - sporting goods
TECATEC PEEK MT CF50 S280 CP/IP/OS V01 natural TECATEC PEEK MT CF50 S280 CP/IP/OS V01 natural - Composite Materials Main features - very resistant to autoclaving - biocompatible - excellent chemical resistance - compliant with cytoxicity according to ISO 10993-5 - low coefficient of thermal expansion - very high stiffness - very high strength Target Industries - medical technology
TRE PK 150 Unfilled Polyetheretherketone for injection molding, hydrolysis resistant.
TRE PK 450 Renewable TRE PK 450 G is unfilled polyetheretherketone supplied in natural or any color. Hydrolysis resistant
TRE PK 450 TRE PK 450 G is unfilled polyetheretherketone supplied in natural or any color. Hydrolysis resistant
TRE PK CF 30 30% Carbon Fiber Reinforced Polyetheretherketone
TRE PK450G30 30% Glass reinforced Polyetheretherketone
TRIBOFORCE® PEEK C2300 polyetheretherketone, carbon fibre reinforced, wear and friction modified
TRIBOFORCE® PEEK C2301 polyetheretherketone, carbon fibre reinforced, wear and friction modified
Trilliant™ HC HC9820-0030 RS Natural The Trilliant® specialty compounds offer a complete system of specialty engineered materials, certified processes, services and technical support that enable healthcare OEM's to get to market ahead of the competition. When specified, Trilliant® compounds may incorporate agency rated materials that meet USP Class VI, FDA or ISO 10993 testing requirements.
UNITREX® C30 UNITREX C30 extruded thermoplastic shapes provide users with the toughness, strength and chemical resistance inherent in unfilled PEEK as well as enhanced stiffness and compressive strength with improved dimensional stability through the addition of carbon fiber. UNITREX C30 shapes offer excellent wear resistance and a very low coefficient of friction. UNITREX C30 is available in multiple rod and plate configurations by special order. Minimum order quantities may apply, dependent on specific product configuration.
UNITREX® CM3801 UNITREX CM3801 extruded thermoplastic shapes provide users with improved physical properties compared to standard, unfilled PEEK grades through the addition of a proprietary ceramic filler. Additionally, this material offers Continuous Use Temperature of up to 480 ° F (249 ° C). UNITREX CM3801 offers excellent dimensional stability and machinability for tight pitch/small diameter drilling operations and is especially well suited for IC test socket applications. Available in multiple rod and plate configurations by special order in natural white color.
UNITREX® L Unitrex PEEK is a semi-crystalline high temperature thermoplastic that offers design engineers a truly unique combination of exceptional performance characteristics. When compared with other engineering polymers, this material ranks as the best or nearly the best in every performance category. Unitrex PEEK has a relative thermal index of 480°F and has a UL 94 flammability rating of V-0, with very low levels of smoke generation and toxic gas emission. Additionally, this material exhibits excellent electrical properties, which remain stable over a wide range of both temperatures and frequencies. Unitrex PEEK is chemically resistant to a wide range of organic and inorganic liquids and is insoluble in all common solvents. In addition, it is unaffected by steam and hot water and has a very low moisture absorption rate. This material offers superior dimensional stability and machines easily. While unfilled Unitrex PEEK offers good wear resistance, Unitrex L has been reinforced with graphite and PTFE to provide an ideal combination of low friction and enhanced wear. For applications that require improved strength and stiffness, a 30% glass fiber filled grade is available (Unitrex Rg-30). Unfilled Unitrex PEEK stock shapes are light beige in color and are available from Nytef Plastics in a full range of heavy gauge rod, plate and tubular bar sizes. PRODUCT ATTRIBUTES - 480°F relative thermal index temperature - Excellent strength, rigidity and toughness, even at elevated temperatures - Chemically resistant to all common solvents - Low moisture absorption - Superior electrical properties - Exceptional dimensional stability - Rated UL V-0 with low smoke and toxic gas emissions - Easily machined and fabricated - FDA compliant UNITREX Rg - 30% Glass fiber filled grade for improved strength and stiffness UNITREX L - Bearing and wear grade offers lower coefficient of friction and improved wear resistance INDUSTRIES - Medical and pharmaceutical - Aircraft and aerospace - Fluid handling - Electrical and electronics manufacturing - Automotive and transportation - Petroleum industry APPLICATIONS - Medical instruments - Analytical instrumentation - Semiconductor wafer handling components - Compressor components and seals - Pump wear rings - Bearings and bushings
UNITREX® Lf20 UNITREX Lf20 extruded thermoplastic shapes provide users with improved physical properties compared to standard, unfilled PEEK grades through the addition of a proprietary PTFE filler. UNITREX Lf20 offers very good dimensional stability and machinability as well as exceptional wear resistance due to its low coefficient of friction. Available in a wide array of rod, tube and plate configurations by special order.
UNITREX® Rg-30 Unitrex PEEK is a semi-crystalline high temperature thermoplastic that offers design engineers a truly unique combination of exceptional performance characteristics. When compared with other engineering polymers, this material ranks as the best or nearly the best in every performance category. Unitrex PEEK has a relative thermal index of 480°F and has a UL 94 flammability rating of V-0, with very low levels of smoke generation and toxic gas emission. Additionally, this material exhibits excellent electrical properties, which remain stable over a wide range of both temperatures and frequencies. Unitrex PEEK is chemically resistant to a wide range of organic and inorganic liquids and is insoluble in all common solvents. In addition, it is unaffected by steam and hot water and has a very low moisture absorption rate. This material offers superior dimensional stability and machines easily. While unfilled Unitrex PEEK offers good wear resistance, Unitrex L has been reinforced with graphite and PTFE to provide an ideal combination of low friction and enhanced wear. For applications that require improved strength and stiffness, a 30% glass fiber filled grade is available (Unitrex Rg-30). Unfilled Unitrex PEEK stock shapes are light beige in color and are available from Nytef Plastics in a full range of heavy gauge rod, plate and tubular bar sizes. PRODUCT ATTRIBUTES - 480°F relative thermal index temperature - Excellent strength, rigidity and toughness, even at elevated temperatures - Chemically resistant to all common solvents - Low moisture absorption - Superior electrical properties - Exceptional dimensional stability - Rated UL V-0 with low smoke and toxic gas emissions - Easily machined and fabricated - FDA compliant UNITREX Rg - 30% Glass fiber filled grade for improved strength and stiffness UNITREX L - Bearing and wear grade offers lower coefficient of friction and improved wear resistance INDUSTRIES - Medical and pharmaceutical - Aircraft and aerospace - Fluid handling - Electrical and electronics manufacturing - Automotive and transportation - Petroleum industry APPLICATIONS - Medical instruments - Analytical instrumentation - Semiconductor wafer handling components - Compressor components and seals - Pump wear rings - Bearings and bushings
UNITREX® Unfilled PEEK Unitrex PEEK is a semi-crystalline high temperature thermoplastic that offers design engineers a truly unique combination of exceptional performance characteristics. When compared with other engineering polymers, this material ranks as the best or nearly the best in every performance category. Unitrex PEEK has a relative thermal index of 480°F and has a UL 94 flammability rating of V-0, with very low levels of smoke generation and toxic gas emission. Additionally, this material exhibits excellent electrical properties, which remain stable over a wide range of both temperatures and frequencies. Unitrex PEEK is chemically resistant to a wide range of organic and inorganic liquids and is insoluble in all common solvents. In addition, it is unaffected by steam and hot water and has a very low moisture absorption rate. This material offers superior dimensional stability and machines easily. While unfilled Unitrex PEEK offers good wear resistance, Unitrex L has been reinforced with graphite and PTFE to provide an ideal combination of low friction and enhanced wear. For applications that require improved strength and stiffness, a 30% glass fiber filled grade is available (Unitrex Rg-30). Unfilled Unitrex PEEK stock shapes are light beige in color and are available from Nytef Plastics in a full range of heavy gauge rod, plate and tubular bar sizes. PRODUCT ATTRIBUTES - 480°F relative thermal index temperature - Excellent strength, rigidity and toughness, even at elevated temperatures - Chemically resistant to all common solvents - Low moisture absorption - Superior electrical properties - Exceptional dimensional stability - Rated UL V-0 with low smoke and toxic gas emissions - Easily machined and fabricated - FDA compliant UNITREX Rg - 30% Glass fiber filled grade for improved strength and stiffness UNITREX L - Bearing and wear grade offers lower coefficient of friction and improved wear resistance INDUSTRIES - Medical and pharmaceutical - Aircraft and aerospace - Fluid handling - Electrical and electronics manufacturing - Automotive and transportation - Petroleum industry APPLICATIONS - Medical instruments - Analytical instrumentation - Semiconductor wafer handling components - Compressor components and seals - Pump wear rings - Bearings and bushings
UNITRON® PPS UNITRON PPS (Polyphenylene Sulfide) is a non-reinforced semi-crystalline polymer that offers exceptional strength and stability at elevated temperatures and is unaffected by even the harshest of chemical environments. Most acids, strong bases, fuels and even steam have virtually no affect on the physical properties of this material. While polyphenylene sulfide products have traditionally been know to be brittle, UNITRON PPS machines easily and exhibits excellent toughness. UNITRON PPS's extremely low moisture absorption rate and its low coefficient of thermal expansion contribute to this being one of the most dimensionally stable thermoplastic materials available. UNITRON PPS offers superior electrical properties, is rated UL94, V-0, and is tan in color. Nytef Plastics offers UNITRON PPS stock shapes in a wide range of heavy cross section rod, sheet, and tubular bar sizes. UNITRON PPS ATTRIBUTES - 425°F relative thermal index rating - Excellent strength and rigidity - Extremely low moisture absorption - Superior electrical properties - Flame resistant - UL 94, V-0 rated - Easily machined and fabricated TYPICAL INDUSTRIES - Pump, valve & compressor mfg. - Medical equipment - Pharmaceutical manufacturing - Aircraft and aerospace - Electrical and electronic products - Semiconductor manufacturing - Petroleum exploration & refining APPLICATIONS - Compressor vanes - Manifolds and valves - Electrical insulators, connectors and test sockets - Liquid chromatography components - Down hole drill & pump components - CMP clamp rings - Sensor components
VAMPEEK A 0024 PEEK resin unfilled for injection moulding
VAMPEEK A 1510 PEEK resin, 15% glass fiber reinforced for injection moulding
VAMPEEK A 3010 PEEK resin, 30% glass fiber reinforced for injection moulding
VAMPEEK A 4010 PEEK resin, 40% glass fiber reinforced for injection moulding
VAMPEEK A 5010 PEEK resin, 50% glass fiber reinforced for injection moulding
VAMPEEK B 0024 PEEK resin unfilled for extrusion and injection moulding
VAMPLUB K 00U 1 TF PEEK resin unfilled with improved slip properties for injection moulding
VAMPLUB K 00U 2 TF E PEEK resin unfilled with improved slip properties for extrusion and injection moulding
VAMPLUB K 00U 2 TF PEEK resin unfilled with improved slip properties for injection moulding
VESTAKEEP® 1000 CF30 VESTAKEEP® 1000 CF30 is a low-viscosity, carbon fiber-reinforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior, mechanical, thermal and chemical resistance. Parts made from VESTAKEEP® 1000 CF30 are of self-extinguishing. Pigmention may effect values.
VESTAKEEP® 1000 G VESTAKEEP® 1000 G is a low-viscosity, unreinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 1000 G are of low flammability. Pigmentation may affect values.
VESTAKEEP® 1000P VESTAKEEP® 1000 P is an unreinforced, low-viscosity polyether ether ketone powder. The product is suitable for the manufacture of compounds or it can be used as scatterpowder for the manufacture of composites. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from VESTAKEEP® 1000 P are of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000 CF30 VESTAKEEP® 2000 CF30 is a medium-viscosity, carbon fiber-reinforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior, mechanical, thermal and chemical resistance. Parts made from VESTAKEEP® 2000 CF30 are of low flammability. Pigmention may effect values.
VESTAKEEP® 2000 GF30 VESTAKEEP®2000 GF30 is a medium-viscosity, glass fiber-reinforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 2000 GF30 are of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000 UFP10 VESTAKEEP® 2000 UFP10 is an unreinforced, medium-viscosity polyether ether ketone ultra-fine powder. The product can be used for coatings according to the tribo-method or can be applied in a suspension. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 2000 UFP10 is of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000 UFP20 VESTAKEEP® 2000 UFP20 is an unreinforced, medium-viscosity polyether ether ketone ultra-fine powder. The product can be used for coatings according to the tribo-method or can be applied in a suspension. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 2000 UFP20 is of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000FP VESTAKEEP® 2000 FP is an unreinforced, medium-viscosity polyether ether ketone fine powder. It can be used as a basic resin or in blends with different additives for manufacturing compression molding parts. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 2000 FP is of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000G BK VESTAKEEP® 2000 G BK is a medium viscosity, unreinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 2000 G BK are of low flammability. VESTAKEEP® 2000 G BK can be processed by common machines for thermoplastics. We recommend a melt temperature between 360°C and 380°C during the injection molding process. The mold temperature should be withing a range of 160°C and 200°C, preferably 180°C. VESTAKEEP® 2000 G BK is supplied as granuals in 25 kg boxes with moisture-proof polyethylene liners. Pigment may effect values.
VESTAKEEP® 2000G VESTAKEEP® 2000 G is a medium viscosity, unreinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 2000 G are of low flammability. Pigmentation may affect values.
VESTAKEEP® 2000P VESTAKEEP® 2000 P is a medium-viscosity, unreinforced polyether ether ketone powder grade and serves as basis material for compounds and scattering powder for composites. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from VESTAKEEP® 2000 P are of low flammability. Pigmentation may affect values.
VESTAKEEP® 2500 G High Purity VESTAKEEP® 2500 G High Purity is a medium viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The product is refined by Evonik’s special filtration technology. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 2500G High Purity are of low flammability. VESTAKEEP® 2500 G High Purity can be processed by common machines for thermoplastics. Pigmentation may affect values.
VESTAKEEP® 3300 G High Purity VESTAKEEP® 3300 G High Purity is a medium- viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The product is refined by Evonik’s special filtration technology. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from VESTAKEEP® 3300 G High Purity are of low flammability. VESTAKEEP® 3300 G High Purity can be processed by common machines for thermoplastics. Pigmentation may affect values.
VESTAKEEP® 3300G VESTAKEEP® 3300 G is a medium-viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from VESTAKEEP® 3300G are of low flammability. Pigmentation may affect values.
VESTAKEEP® 4000 CC20 VESTAKEEP® 4000 CC20 is a ceramic-filled (20%) polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 CC20 are of low flammability. Pigmentation may affect the values.
VESTAKEEP® 4000 CF20 VESTAKEEP® 4000 CF20 is a carbon fiber reinforced (20%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 CF20 are of low flammability. Pigmentation may affect the values.
VESTAKEEP® 4000 CF30 VESTAKEEP® 4000 CF30 is a carbon fiber reinforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 CF30 are of low flammability. Pigmentation may affect values.
VESTAKEEP® 4000 CFL30 VESTAKEEP® 4000 CFL30 is a carbon fiber reinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 CFL30 are characterized by low flammability. Pigmentation may affect values.
VESTAKEEP® 4000 G BK VESTAKEEP® 4000 G BK is a high viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 4000 G BK are of low flammability. Pigmentation may affect values.
VESTAKEEP® 4000 GF30 BK VESTAKEEP® 4000 GF30 BK is a glass fiber-re­inforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 GF30 BK are of low flammability. Pigmentation may affect the values.
VESTAKEEP® 4000 GF30 VESTAKEEP® 4000 GF30 is a glass fiber-re­inforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 4000 GF30 are of low flammability. Pigmentation may affect the values.
VESTAKEEP® 4000FP VESTAKEEP® 4000 FP is an unreinforced, highviscosity polyether ether ketone fine powder. It can be used as a basic resin or in blends with different additives for manufacturing compression molding parts. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 4000 FP is of low flammability. Pigmentation may affect values.
VESTAKEEP® 4000P VESTAKEEP® 4000 P is an unreinforced, high-viscosity polyether ether ketone powder. The product is suitable for the manufacture of compounds or it can be used as scatter-powder for the manufacture of composites. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 4000 P is of low flammability. Pigmentation may affect the values.
VESTAKEEP® 4500 G VESTAKEEP® 4500 G is a high viscosity, fast cristallization polyether ether ketone for injection molding and extrusion The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 4500 G are of low flammability. Pigmentation may affect values.
VESTAKEEP® 5000 CF30 VESTAKEEP® 5000 CF30 is a carbon fiber reinforced (30%) polyether ether ketone for injection molding. The semi-crystalline polymer features superior mechanical, thermal, and chemical resistance. Parts made from VESTAKEEP® 5000 CF30 are of low flammability. Pigmentation may affect values.
VESTAKEEP® 5000 FP VESTAKEEP® 5000 FP is an unreinforced, high viscosity polyether ether ketone fine powder. It can be used as a basic resin or in blends with different additives for manufacturing compression molding parts. The semi-crystalline polymer features superior, thermal and chemical resistance. VESTAKEEP® 5000 FP is of low flammability. Pigmentation may affect the values.
VESTAKEEP® 5000 P VESTAKEEP® 5000 P is an unreinforced, high-viscosity polyether ether ketone powder. The semi-crystalline polymer features superior thermal and chemical resistance. VESTAKEEP® 5000 P is of low flammability. Pigmentation may affect the values.
VESTAKEEP® 50001XT BK VESTAKEEP® 50001XT BK is a high viscosity, unreinforced, unlubricated polyether ether ketone for injection molding and extrusion and can be cross-linked after processing by heat treatment. The semi-crystalline polymer features superior property retention at elevated temperatures combined with the chemical resistance of standard PEEK. Parts made from VESTAKEEP® 50001XT BK feature a very high resistance to creep.
VESTAKEEP® 5000G VESTAKEEP® 5000 G is a high viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® 5000 G are of low flammability. Pigmentation may affect values.
VESTAKEEP® Care M20 G black VESTAKEEP® Care is the ideal materials for the fabrication of medical devices with short time contact to human blood, tissue or bone for up to 30 days. VESTAKEEP® Care Grades have a good biocompatibility, processability and the option to pigment. VESTAKEEP® Care M20 G black is a medium viscosity, unreinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior thermal and chemical resistance. Biocompatibility of VESTAKEEP® Care In an extensive testing program run by independent certified labs, biocompatibility has been tested following United States Pharmacopeia and ISO 10933-1:2003 guidelines. The test reports attest VESTAKEEP® Care's excellent biocompatibility.
VESTAKEEP® Care M20G VESTAKEEP® Care is the ideal materials for the fabrication of medical devices with short time contact to human blood, tissue or bone for up to 30 days. VESTAKEEP® Care Grades have a good biocompatibility, processability and the option to pigment. VESTAKEEP® Care M20 G is a medium viscosity, unreinforced polyether ether ketone for injection molding. The semi-crystalline polymer features superior thermal and chemical resistance. Biocompatibility of VESTAKEEP® Care In an extensive testing program run by independent certified labs, biocompatibility has been tested following United States Pharmacopeia and ISO 10933-1:2003. The test reports attest VESTAKEEP® Care's excellent biocompatibility.
VESTAKEEP® Care M33G-HP VESTAKEEP® Care-grades are ideal materials for the fabrication of medical devices with short time contact to human blood, tissue or bone for up to 30 days. VESTAKEEP® Care M33G-HP is a mediumviscosity, unreinforced polyether ether ketone for injection molding and extrusion. The product is refined by Evonik’s special filtration technology. The semi-crystalline polymer features superior thermal and chemical resistance. Parts made from VESTAKEEP® Care M33G-HP are of low flammability. VESTAKEEP® Care M33 G-HP can be processed by common machines for thermoplastics. Biocompatibility of VESTAKEEP® Care In an extensive testing program run by independent certified labs, biocompatibility has been tested following United States Pharmacopeia an dISO 10933-1:2003 guidelines. The test reports attest VESTAKEEP® Care's excellent biocompatibility.
VESTAKEEP® Care M40 3DF VESTAKEEP® Care M40 3DF is extruded from naturally colored, high viscosity VESTAKEEP® Care M40 G PEEK resin. The material is designed for 3d printing of medical devices with up to 30 days body contact. Biocompatibility The biocompatibility of the base resin VESTAKEEP® Care 40 G has been tested following ISO 10993-1 recommendations for medical devices with up to 30 days of body contact and USP Class VI. A summary of biocompatibility test results is available upon request.
VESTAKEEP® Care M40G VESTAKEEP® Care is the ideal materials for the fabrication of medical devices with short time contact to human blood, tissue or bone for up to 30 days. VESTAKEEP® Care Grades have a good biocompatibility, processability and the option to pigment. VESTAKEEP® Care M40 G is a high viscosity, unreinforced polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior thermal and chemical resistance. Biocompatibility of VESTAKEEP® Care In an extensive testing program run by independent certified labs, biocompatibility has been tested following United States Parmacopeia and ISO 10933-1:2003 guidelines. The test reports attest VESTAKEEP® Care's excellent biocompatibility.
VESTAKEEP® Care M40R VESTAKEEP® Care is the ideal materials for the fabrication of medical devices with short time contact to human blood, tissue or bone for up to 30 days. VESTAKEEP® Care Grades have a good biocompatibility, processability and the option to pigment. VESTAKEEP® Care M40 R are semi finished goods based on the high viscosity VESTAKEEP® Care M40 G polymer resin. The semi-crystalline polymer features superior thermal and chemical resistance. Biocompatibility of VESTAKEEP® Care In an extensive testing program run by independent certified labs, biocompatibility has been tested following United States Pharmacopeia and ISO 10933-1:2003 guidelines. The test reports attest VESTAKEEP® Care's excellent biocompatibility.
VESTAKEEP® D4 G VESTAKEEP® D4 G is natural colored, high viscosity polyether ether ketone (PEEK) that is especially designed for removable and fixed dentures, crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® D4 G, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® D4 R VESTAKEEP® D4 R is natural colored polyether ether ketone (PEEK) rod stock that is especially designed for removable and fixed dentures crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® D4 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4420 G VESTAKEEP® DC4420 G white pigmented polyether ether ketone for dental applications high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable and fixed dentures, crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4420 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4420 R VESTAKEEP® DC4420 R is a white pigmented polyether ether ketone (PEEK) grade rod stock that is especially designed for removable and fixed dentures, crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4420 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4430 G VESTAKEEP® DC4430 G is a white pigmented high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable and fixed dentures, crowns and bridges. VESTAKEEP® DC4430 G contains 6% Barium sulphate to render it x-ray opaque. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4430 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4430 R VESTAKEEP® DC4430 R is a white pigmented polyether ether ketone (PEEK) grade that is especially designed for removable and fixed dentures, crowns and bridges. VESTAKEEP® DC4430 R contains 6% Barium sulphate to render it x-ray opaque. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4430 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4450 G VESTAKEEP® DC4450 G is a tooth-colored, high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable and fixed dentures, crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4450 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4450 R VESTAKEEP® DC4450 R is a tooth-colored polyether ether ketone (PEEK) grade that is especially designed for removable and fixed dentures, crowns and bridges. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4450 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4460 G VESTAKEEP® DC4460 G is a tooth-colored, high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable and fixed dentures, crowns and bridges. VESTAKEEP® DC4460 G contains 6% Barium sulphate to render it x-ray opaque. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4450 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4460 R VESTAKEEP® DC4460 R is a tooth-colored polyether ether ketone (PEEK) grade that is especially designed for removable and fixed dentures, crowns and bridges. VESTAKEEP® DC4460 R contains 6% Barium sulphate to render it x-ray opaque. Biocompatibility For VESTAKEEP® DC4460 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4462 G VESTAKEEP® DC4462 G is a tooth-colored, high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable and fixed dentures, crowns and bridges. VESTAKEEP® DC4462 G contains 15% barium sulphate to render it x-ray opaque. Biocompatibility For VESTAKEEP® DC4462 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4470 G VESTAKEEP® DC4470 G is a gingiva-colored, high viscosity polyether ether ketone (PEEK) resin that is especially designed for removable dentures to meet the aesthetic demands of the patient. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4470 G, biocompatibility has been tested according to ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® DC4470 R VESTAKEEP® DC4470 R is a gingiva-colored polyether ether ketone (PEEK) grade that is especially designed for removable dentures to meet the aesthetic demands of the patient. Biocompatibility of VESTAKEEP® Dental For VESTAKEEP® DC4470 R, biocompatibility has been tested following ISO 10993-1 recommendations for permanent mucous membrane contact. The compound composition is optimised for high biocompatibility and superior mechanical, thermal and chemical resistance.
VESTAKEEP® Easy Slide 1 VESTAKEEP® Easy Slide I is a carbon fiber-reinforced, wear and friction modified polyether ether ketone for injection molding. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® Easy Slide I are flame resistant and can be used for bearing bushing or gearbox parts due to the self-lubricating effect. VESTAKEEP® Easy Slide I can be processed by common machines for thermoplastics.
VESTAKEEP® i2 G VESTAKEEP® i2 G is a natural colored, standard viscosity polyether ether ketone (PEEK) that is especially designed for long term implantable medical devices. This grade is often used for injection molding processing technologies due to its good flowability. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-Grade materials an excellent choice for permanent implants. For VESTAKEEP® i2 G, biocompatibility has been tested following ISO 10993-1 recommendatins for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i2 G complies ASTM F2026 "Standard Specification for Polyetheretherketon (PEEK) Polymers for Surgical Implant Application". A summary of biocompatibility test results is available upon request.
VESTAKEEP® i2 P VESTAKEEP® i2 P is a medium-viscosity polyether ether ketone (PEEK) powder that is designed for long term human implant applications. Proven Biocompatibility of VESTAKEEP® i-Grades VESTAKEEP® i2 P is compliant with ASTM F2026 "Standard Specification for Polyetherketone (PEEK) Polymers for Surgical Implant Applications" The extra high purity and extended quality measures make the i-grades an ideal material for long term body contact. A summary of biocompatibility tests is available upon request.
VESTAKEEP® i2 UFP10 VESTAKEEP® i2 UFP10 is an unreinforced, medium-viscosity, natural colored polyether ether ketone (PEEK) ultra-fine powder. VESTAKEEP® i2 UFP10 is especially designed for long term implantable medical devices. The semi-crystalline polymer is designed for high biocompatibility and superior mechanical, thermal and chemical resistance. Proven Biocompatibility of VESTAKEEP® i-Grades The biocompatibility of VESTAKEEP® i2 UFP10 has been tested following ISO `10993 recommendations for permanent tissue/bone contact. The material complies USP Class VI. VESTAKEEP® i2 UFP10 is compliant with ASTM F2026 "Standard Specification for Polyetherketone (PEEK) Polymers for Surgical Implant Applications". A summary of biocompatibility tests is available upon request.
VESTAKEEP® i4 3DF VESTAKEEP® i4 3DF is a filament extruded from natural colored, high viscosity VESTAKEEP® i4 G polyether ether ketone (PEEK) resin. The material is especially designed for long term implantable medical devices. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-grade materials an excellent choice for permanent implants. The biocompatibility is the base resin VESTAKEEP® i4 G has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. A summary of biocompatibility test results available upon request. VESTAKEEP® i4 3DF filaments are compliant to ASTM F2026 "Standard Specification for Polyether ether ketone (PEEK) Polymers for Surgical Implant Applications"
VESTAKEEP® i4 3DF-T VESTAKEEP® i4 3DF-T is a filament extruded from natural colored, high viscosity VESTAKEEP® i4 G polyether ether ketone (PEEK) resin. The material is a testing grade designed for research, development and process optimization only. It must not be used for medical devices. The purpose of the testing grade is to offer a cost-efficient solution for printing process development. The testing grade VESTAKEEP® i4 3DF-T and the implantable grade VESTAKEEP® i4 3DF are both extruded from implantable-grade VESTAKEEP® i4 G resin. They share the same base resin, processability and mechanical properties.
VESTAKEEP® i4 G VESTAKEEP® i4 G is a natural colored, high viscosity polyether ether ketone (PEEK) that is especially designed for long term implantable medical devices. This grade is often used for extrusion processing technologies. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-Grade materials an excellent choice for permanent implants. For VESTAKEEP® i4 G, biocompatibility has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i4 G complies ASTM F2026 "Standard Specification for Polyetheretherketone (PEEK) Polymers for Surgical Implant Applications". A summary of biocompatibility test results is available upon request.
VESTAKEEP® i4 P VESTAKEEP® i4P is a high-viscosity polyether ether ketone (PEEK) powder that is designed for long term human implant applications. Proven Biocompatibility of VESTAKEEP® i-Grades VESTAKEEP® i4 P is compliant with ASTM F2026 “Standard Specification for Polyetheretherketone (PEEK) Polymers for Surgical Implant Applications”. The extra high purity and extended quality measures make the i-grades an ideal material for long term body contact. A summary of biocompatibility tests is available upon request
VESTAKEEP® i4 PL VESTAKEEP® i4 PL are plates based on implantable grade VESTAKEEP® i4 G neat polyether ether ketone resin. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-Grade materials an excellent choice for permanent implants. For VESTAKEEP® i4 PL, biocomptibility has been tested according to ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i4 PL complies ASTM F2026 "Standard Specification for Polyethertherketone (PEEK) Polymers for Surgical Implant Applications" A summary of biocompatibility test results is available upon request.
VESTAKEEP® i4 R VESTAKEEP® i4 R is a rod stock based on implantable grade neat polyether ether ketone resin VESTAKEEP® i4 G. Proven Biocompatibilty of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-grade materials an excellent choice for permanent implants. The biocompatibility of VESTAKEEP® i4 R has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i4 R complies to ASTM F2026 "Standard Specification for Polyetheretherketone (PEEK) Polymers for Surgical Implant Applications". A summary of biocompatibility test results is available upon request.
VESTAKEEP® i5 G VESTAKEEP® i5 G is a natural colored, very high viscosity polyether ether ketone (PEEK) that is especially designed for long term implantable medical devices. The extra high purity and extended quality measures make VESTAKEEP® i-Grade materials an excellent choice for permanent implants. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-grade materials an excellent choice for permanent implants. The biocompatibility of VESTAKEEP® i5 G has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i5 G complies to ASTM F2026 "Standard Specification for Polyetheretherketone (PEEK) Polymers for Surgical Implant Applications" A summary of biocompatibility test results is available upon request.
VESTAKEEP® i5 R VESTAKEEP® i5 R is rod stock based on implantable grade neat polyether ether ketone resin VESTAKEEP® i5 G. The extra high purity and extended quality measures make VESTAKEEP® i-grade materials an excellent choice for permanent implants. Proven Biocompatibility of VESTAKEEP® i-Grades The extra high purity and extended quality measures make VESTAKEEP® i-grade materials an excellent choice for permanent implants. The biocompatibility of VESTAKEEP® i5 R has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. VESTAKEEP® i5 R complies to ASTM F2026 "Standard Specification for Polyetheretherketone (PEEK) Polymers for Surgical Implant Applications" A summary of biocompatibility test results is available upon request.
VESTAKEEP® iC 4506 G VESTAKEEP® iC4506 G is an opaque, natural colored, high viscosity polyether ether ketone (PEEK) resin. It contains 6% barium sulphate to render it X-ray opaque. Proven Biocompatibilty VESTAKEEP® iC4506 G is especially designed for long term implantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. Biocompatibility has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. A summary of biocompatibility is available upon request.
VESTAKEEP® iC 4506 R VESTAKEEP® iC4506 R is a rod stock based on implantable grade polyether ether ketone resin VESTAKEEP® iC4506 G. It contains 6% barium sulphate to render it X-ray opaque. Proven Biocompatibility VESTAKEEP® iC4506 R is especially designed for long term implantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. Biocompatibility of VESTAKEEP® iC4506 R has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. A summary of biocompatibilty test results is available upon request.
VESTAKEEP® iC 4520 G VESTAKEEP® iC4520 G is an opaque, natural colored, high viscosity polyether ether ketone (PEEK) resin. It contains 20% barium sulphate to render it x-ray opaque. Proven Biocompatibility VESTAKEEP® iC4520 G is especially designed for long term implantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. Biocompatibility has been tested following ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI. A summary of biocompatibility is available upon request.
VESTAKEEP® iC 4520 R VESTAKEEP® iC4520 R is a rod stock based on implantable grade polyether ether ketone resin VESTAKEEP® iC4520 G. It contains 20% barium sulphate to render it X-ray opaque. Proven Biocompatibility VESTAKEEP® iC4520 R is especially designed for long term implantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. Bio compatibility of has been tested following ISO 10993-1 recommendations for permantent tissue/bone contact and USP Class VI. A summary of biocompatibility test results is available upon request.
VESTAKEEP® iC 4800 3DF VESTAKEEP® iC4800 3DF is an opaque, natural colored, high viscosity polyether ether ketone (PEEK) filament based on VESTAKEEP® iC4800 G resin. It contains calcium phosphates to enhance osseointegration. It therefore belongs to the VESTAKEEP® Fusion product family. Biocompatibility The base resin VESTAKEEP® iC4800 G is especially designed for long term impantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. The biocompatibility testing program follow ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI.
VESTAKEEP® iC 4800 R VESTAKEEP® iC4800 R is a rod stock based on implantable grade polyether ether ketone resin VESTAKEEP® iC4800 G. It contains calcium phosphates to enhance osseointegration. It therefore belongs to the VESTAKEEP® Fusion product family. Biocompatibility The base resin VESTAKEEP® iC4800 G is especially designed for long term impantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. The biocompatibility testing program follow ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI.
VESTAKEEP® iC4800 G VESTAKEEP® iC4800 G is an opaque, natural colored, high viscosity polyether ether ketone (PEEK) resin. It contains calcium phosphates to enhance osseointegration. It therefore belongs to the VESTAKEEP® Fusion product family. Biocompatibility The base resin VESTAKEEP® iC4800 G is especially designed for long term impantable medical devices. The compound composition is optimised for high biocompatibility and mechanical, thermal and chemical resistance. The biocompatibility testing program follow ISO 10993-1 recommendations for permanent tissue/bone contact and USP Class VI.
VESTAKEEP® L4000G VESTAKEEP® L 4000 G is a high viscosity, unreinforced lubricated polyether ether ketone for injection molding and extrusion. The semi-crystalline polymer features superior, thermal and chemical resistance. Parts made from VESTAKEEP® L4000G are of low flammability. Pigmentation may affect values.
VICOTE™ COATINGS 700 Series VICOTE™ 701, 702, 703, 704, 705 Powder Coatings VICOTE™ is the brand name for VICTREX™ PEEK polymer-based coatings. VICOTE Coatings are only available through Victrex or its preferred coater network. Contact Victrex for further details. PROPERTIES VICOTE 701-705 grades are specially developed powder coatings. They are available in various average particle sizes from 10 - 50 microns. The powders are off-white in color and are available in various melt viscosities depending on the film thickness and level of melt flow required. Typical film thicknesses range from < 100 microns up to 500 microns. Film thicknesses above 1 mm are possible by building up the coating thickness by the hot flocking technique. Like other non-coating grades of VICTREX PEEK polymer, VICOTE Coatings are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines, the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. - High continuous use temperature of 260°C - Excellent wear, abrasion and cut through resistance at these high temperatures - Excellent chemical and radiation resistance - Low level of extractables - Hydrolysis resistant - Inherently flame retardant SUBSTRATES AND PREPARATION VICOTE coatings can be applied to most ferrous and non-ferrous metals. A primer is not required. - Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Aluminium may be coated. However, the mechanical properties of the Aluminium will be affected at VICOTE coatings processing temperatures. - Substrates should be free from grease, oils and corrosion prior to coating. Solvent degreasing and grit blasting with Aluminium Oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pretreated substrates are not recommended for VICOTE coating grades as the high processing temperatures required for processing can result in delamination of the coating. PROCESSING Conventional electrostatic spray equipment is suitable for VICOTE coating products. Ovens should be capable of attaining up to 450°C. For general processing information consult the VICOTE powder coating guide. - By following the processing guide, smooth coatings should be achievable. VICOTE materials are semi-crystalline thermoplastics, and as with all these types of products, shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. - Normally processed and cooled coatings should result in crystalline coatings, which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating, the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. - With coated parts that are subject to a high service temperature, it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE 700 series natural resins may depend on the substrate. For example, if a thin VICOTE Coating is applied, the processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. STORAGE AND HANDLING CONSIDERATIONS - VICOTE boxes should be stored in a clean dry environment and should not be stored with the lids and internal liner opened as this may result in airborne dust contaminating the product, which could cause coating defects. - VICOTE Powder Coatings are packed in 10kg strong cardboard boxes with the VICOTE logo on the outside. Smaller quantities are available on request. - The powders have an indefinite storage life if the powder is kept sealed in its original box. - Drying the powders at 150°C for 3 hours or 120°C overnight is recommended before use. SAFETY PRECAUTIONS - Before applying VICOTE Powder Coatings, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex. - VICOTE natural coating resins should only be applied using suitable local exhaust ventilation system. - Care should be taken not to inhale dust, vapors and fumes evolved during processing. - VICOTE Coatings must only be applied and processed where Local Extract Ventilation (LEV) is available. - Washing of hands and good housekeeping are a prerequisite before handling these products. Note: these products are not for human implantation.
VICOTE™ COATINGS 705Blk VICOTE™ 705Blk (Black) Powder Coatings VICOTE is the brand name for the Victrex range of powder coating resins. The VICOTE range of VICTREX® PEEK polymer is only available through Victrex or its preferred coater network. Contact Victrex for further details. PROPERTIES VICOTE 705Blk is a black pigmented version of the 705 grade. This grade has a nominal particle size of ~ 50 microns. The powder is dark grey in colour and is a low melt viscosity grade for lower film builds. Typical film thicknesses range from 50 - 80 microns. The final coating takes on a dark gun metal grey colour after stoving. VICOTE Coatings, like other noncoating grades of VICTREX PEEK polymer, are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. Typical properties are high continuous use temperature of 260°C, excellent wear, abrasion and cut through resistance at these high temperatures combined with excellent chemical and radiation resistance. VICOTE Coatings have a low level of extractables and are hydrolysis resistant and inherently flame retardant. SUBSTRATES AND PREPARATION VICOTE Coatings can be applied to most ferrous and non ferrous metals. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Aluminium may be coated however the mechanical properties of the metal will be affected at the VICOTE Coating processing temperatures. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pre-treated substrates are not recommended for VICOTE Coating grades as the high processing temperatures required for processing can result in de-lamination of the coating. PROCESSING Conventional electrostatic spray equipment is suitable for VICOTE Coatings. Ovens should be capable of attaining up to 450°C. For general processing information consult the VICOTE powder coating guides. By following the processing guide smooth coatings should be achievable. Because VICOTE Coatings are semi crystalline thermoplastics as with all these types of products shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE 705Blk may depend on the substrate. For example, if a very thin coating is applied the processing temperatures will affect the colour of the steel which in turn could influence the final colour of the coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE boxes should be stored in a clean dry environment and should not be stored with the lids and internal liner opened as this may result in airborne dust contaminating the product, which could cause coating defects. VICOTE Coatings are packed in 10kg strong cardboard boxes with the VICOTE logo on the outside. Smaller quantities are available on request. The powders have an indefinite storage life if the powder is kept sealed in its original box. Drying of the powders at 150°C for 3 hours or 120°C overnight is recommended before use. SAFETY PRECAUTIONS Before applying VICOTE Coatings, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex plc. VICOTE Coatings should be only applied using suitable local exhaust ventilation system. Care should be taken not to inhale dust, vapour and fumes evolved during processing. VICOTE Coatings must only be applied and processed where Local Extract Ventilation (LEV) is available. Washing of hands and good housekeeping are a pre requisite before handling these products. Note: these products are not for human implantation.
VICOTE™ COATINGS F804 VICOTE F804 Aqueous Dispersion for use on Ferrous Metals. VICOTE is the brand name for the Victrex range of coatings. VICOTE dispersions are available through Victrex or its preferred coater network. VICOTE F804 has been specifically formulated to provide a resilient coating with high wear and abrasion resistance on ferrous substrates such as carbon and cast steels. These properties are retained at high temperatures where other coatings would potentially fail. Typical properties are high continuous use temperature of 260°C, excellent wear, abrasion and cut through resistance at these high temperatures combined with excellent chemical and radiation resistance. VICOTE dispersions have a low level of extractables and inherently flame retardant. Contact Victrex for further details. VICOTE F804 DISPERSIONS VICOTE F804 dispersions are aqueous based, however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX™ PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK is renowned for. For further chemical resistance information consult the Victrex Chemical Resistance Data sheets. SUBSTRATES AND PREPARATION VICOTE F804 can be applied to most ferrous metals. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. VICOTE has also been used successfully in coating systems with other polymers to coat glass cloth for conveyor belting applications. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with Aluminium Oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pretreated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in delamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.8 mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the 10-step guide for VICOTE Coatings 800 series. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics as with all these types of products shrinkage will take place when the coating cools. The mass of the substrate, coating thickness and the rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in semi-crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating may depend on the substrate. For example, VICOTE processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re-dispersed readily by stirring of the liquid suspension. The drums can also be rolled to agitate the dispersion and re-disperse to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. Although it is recommended that the dispersion is not allowed to freeze, redispersing after thawing is possible. Optimum storage temperature is 5°C – 25°C. VICOTE F804 is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS: Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the 10-step guide for VICOTE coatings 800 series, available from Victrex. VICOTE F804 natural coating resins should be only applied using suitable exhaust ventilation. Care should be taken not to inhale fumes or vapours. The washing of hands and good housekeeping are a prerequisite before handling these products.
VICOTE™ COATINGS F804BLK VICOTE F804Blk (Black) Aqueous Dispersion For Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. VICOTE F804Blk has been specifically formulated to provide a resilient coating with high wear and abrasion resistance on ferrous and non-ferrous substrates such as carbon steel, cast steel and aluminium. These properties are retained at high temperatures where other coatings would potentially fail. Typical properties are high continuous use temperature of 260°C, excellent wear, abrasion and cut through resistance at these high temperatures, combined with excellent chemical and radiation resistance. VICOTE dispersions have a low level of extractables and inherently flame retardant. Contact Victrex for further details. VICOTE F804Blk Dispersion VICOTE F804Blk dispersions are aqueous based; however, there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersion like other non-coating grades of VICTREX PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. For further chemical resistance information consult the Victrex Chemical Resistance Data brochure. SUBSTRATES AND PREPARATION VICOTE can be applied to most ferrous and non-ferrous substrates. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: Phosphate pre-treated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and the rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re-dispersed readily by stirring of the liquid suspension. The drums can also be rolled to agitate the dispersion to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. Although it is recommended that the dispersion is not allowed to freeze, re-dispersing after thawing is possible. Optimum storage temperature is 5°C – 25°C. VICOTE F804Blk is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex. VICOTE F804Blk coatings should be only applied using suitable exhaust ventilation. Care should be taken not to inhale fumes or vapours. The washing of hands and good housekeeping are a prerequisite before handling these products.
VICOTE™ COATINGS F805 VICOTE F805 Natural is an Aqueous Dispersion for Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The VICOTE F805 natural has been specifically formulated to provide a tough, resilient, high wear resistant coating with varying levels of lubricants on ferrous and non-ferrous substrates such as carbon steel, cast steel and aluminium. Typical properties are high continuous use temperature of 260°C, exceptional wear, abrasion and cut through resistance at these high temperatures combined with excellent chemical resistance. VICOTE dispersions have a low level of extractables. These properties are retained at high temperatures where other release coatings may potentially fail. Contact Victrex for further details. VICOTE F805 Natural Dispersions VICOTE F805 natural is aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer is thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE Coatings have excellent chemical resistance. Consult the Victrex Chemical Resistance brochure for further details. SUBSTRATES AND PREPARATION VICOTE Coatings can be applied to most ferrous metals. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pre-treated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the 10-step guide for VICOTE Dispersion Coatings. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. The mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in semi-crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F805 natural may depend on the substrate. For example, VICOTE Coating processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE Coatings drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled to agitate the dispersion to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5 – 25°C. VICOTE F805 natural is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the 10-step guide for VICOTE Dispersion Coatings, available from Victrex. VICOTE F805 natural dispersions must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F807BLK VICOTE F807Blk (Black) is an Aqueous Dispersion for Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The F807Blk (Black) has been specifically formulated to provide a tough, resilient, high wear resistant coating with varying levels of lubricants on ferrous and non-ferrous substrates such as carbon steel, cast steel and aluminium. Typical properties are high continuous use temperature of 260°C, exceptional wear, abrasion and cut through resistance at these high temperatures combined with excellent chemical resistance. VICOTE dispersions have a low level of extractables. These properties are retained at high temperatures where other release coatings may potentially fail. Contact Victrex for further details. VICOTE F807Blk (Black) Dispersions VICOTE F807Blk (Black) is aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer is thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE Coatings have excellent chemical resistance. Consult the Victrex Chemical Resistance brochure for further details. SUBSTRATES AND PREPARATION VICOTE Coatings can be applied to most ferrous metals. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pre-treated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the 10-step guide for VICOTE Dispersion Coatings. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. The mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in semi-crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F805 natural may depend on the substrate. For example, VICOTE Coating processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE Coatings drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled to agitate the dispersion to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5 – 25°C. VICOTE F807Blk (Black) is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the 10-step guide for VICOTE Dispersion Coatings, available from Victrex. VICOTE F807Blk (Black) dispersions must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F808 VICOTE F808 Natural Aqueous Dispersions for Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The VICOTE F808 natural grades have been specifically formulated to provide a resilient coating with high wear and abrasion resistance combined with excellent release properties on ferrous substrates such as carbon and cast steels. These properties are retained at high temperatures where other release coatings would potentially fail. VICOTE dispersions have a low level of extractables. Contact Victrex for further details. VICOTE F808 Natural Dispersions VICOTE F808 natural dispersions are aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE products have excellent chemical resistance. Consult the Victrex Chemical Resistance Data brochure for further details. SUBSTRATES AND PREPARATION VICOTE F808 can be applied to most ferrous and non-ferrous substrates. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: Phosphate pre-treated substrates are not recommended for VICOTE Coatings grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F808 natural may depend on the substrate. For example VICOTE processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled and re-disperse to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5°C – 25°C. VICOTE F808 natural is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the Processing Guide, available from Victrex. VICOTE F808 natural resins contain fluoropolymers which must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F809 VICOTE F809 Natural Aqueous Dispersions for Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The VICOTE F809 natural grades have been specifically formulated to provide a resilient coating with high wear and abrasion resistance combined with excellent release properties on ferrous substrates such as carbon and cast steels. These properties are retained at high temperatures where other release coatings would potentially fail. VICOTE dispersions have a low level of extractables. Contact Victrex for further details. VICOTE F809 Natural Dispersions VICOTE F809 natural dispersions are aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE products have excellent chemical resistance. Consult the Victrex Chemical Resistance Data brochure for further details. SUBSTRATES AND PREPARATION VICOTE F809 natural can be applied to most ferrous and non-ferrous substrates. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: Phosphate pre-treated substrates are not recommended for VICOTE Coatings grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F809 natural may depend on the substrate. For example, VICOTE processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled and re-disperse to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5°C – 25°C. VICOTE F809 natural is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the Processing Guide, available from Victrex. VICOTE F809 natural resins contain fluoropolymers which must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F810BLK VICOTE F810Blk (Black) Aqueous Dispersions for Use on Ferrous and Non-Ferrous Metals VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The VICOTE F810Blk grades have been specifically formulated to provide a resilient coating with high wear and abrasion resistance combined with excellent release properties on ferrous substrates such as carbon and cast steels. These properties are retained at high temperatures where other release coatings would potentially fail. VICOTE dispersions have a low level of extractables. Contact Victrex for further details. VICOTE F810Blk Dispersions VICOTE F810Blk dispersions are aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE products have excellent chemical resistance. Consult the Victrex Chemical Resistance Data brochure for further details. SUBSTRATES AND PREPARATION VICOTE F810Blk can be applied to most ferrous and non-ferrous substrates. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: Phosphate pre-treated substrates are not recommended for VICOTE Coatings grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.0mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE materials are semi crystalline thermoplastics, as with all these types of products shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F808 natural may depend on the substrate. For example, VICOTE processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled and re-disperse to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5°C – 25°C. VICOTE F810Blk is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the Processing Guide, available from Victrex. VICOTE F810Blk resins contain fluoropolymers which must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F815 VICOTE F815 VICOTE is the brand name for the Victrex range of coatings. VICOTE Coatings are available through Victrex or its preferred coater network. The VICOTE F815 grade has been specifically formulated to provide a coating that gives high wear and abrasion resistance combined with excellent release properties that are retained as the coating wears. These properties are retained at high temperatures where other release coatings would potentially fail. VICOTE dispersions have a low level of extractables. Contact Victrex for further details. VICOTE F815 NATURAL DISPERSIONS VICOTE F815 dispersions are aqueous based however there are small amounts of solvents present. Refer to the appropriate MSDS sheet for details. The VICTREX™ PEEK polymer contained in the VICOTE dispersions like other non-coating grades of VICTREX PEEK polymer are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. VICOTE Coatings have excellent chemical resistance. Consult the Victrex Chemical Resistance Data Base for further details. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. VICOTE dispersions will soft settle after prolonged standing. They can be re- dispersed readily by stirring of the liquid suspension. The drums can also be rolled and re-disperse to ensure homogeneity. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. It is recommended that the dispersions are not allowed to freeze. Optimum storage temperature is 5°C – 25°C. VICOTE F815 Coatings are packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. SUBSTRATES AND PREPARATION VICOTE F815 Coatings can be applied to most ferrous and non-ferrous metals. A primer is not required. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Substrates should be free from grease, oils and corrosion prior to coating. Solvent de-greasing and grit blasting with aluminium oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pre-treated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.8mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 5 minutes then dried in an oven for 5 minutes at 120°C before placing in an oven at 400°C to melt and fuse the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE Coatings are semicrystalline thermoplastics, as with all these types of products, shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. Normally processed and cooled coatings should result in crystalline coatings which should not require further post processing treatment. However an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. With coated parts that are subject to a high service temperature it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE F815 may depend on the substrate. For example, VICOTE Coatings processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex plc. VICOTE F815 Coatings contain fluoropolymers which must only be applied where Local Extract Ventilation (LEV) is available with the gasses removed completely from the work area. The hot gasses given off during melt processing can cause flu like symptoms. Care should be taken not to inhale such gasses; also contact of the polymer with tobacco products should be avoided. Washing of hands and good housekeeping are a prerequisite before and after handling these products.
VICOTE™ COATINGS F817 VICOTE F817 Enhanced Adhesion Grade VICOTE is the brand name for the Victrex range of coatings based on VICTREX PEEK polymer. The VICOTE dispersions are available through Victrex plc or its preferred coater network. Contact Victrex plc for further details. VICOTE dispersions are aqueous based, however there may be small amounts of solvent present. Refer to the appropriate MSDS sheet for details. SUBSTRATES AND PREPARATION VICOTE F817 can be applied to most ferrous and non-ferrous metals. Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Aluminium and other thermally sensitive substrates may be coated however the mechanical properties of the substrate may be affected when exposed to VICOTE processing temperatures. The VICOTE F817 enhanced adhesion grade can be used on metal substrates where limited surface roughening is allowed or desired. When using this VICOTE grade the adhesion to a non-roughened or grit blasted surface is much higher than using the standard VICOTE dispersions. VICOTE F817 will withstand 24 hours boiling water test on non-grit blasted stainless steel without loss of adhesion. Note: Although roughening the metal surface may not be required, removal of oils and greases must be undertaken to obtain the optimum adhesion. Rust and mill scale would need to be removed by conventional grit blasting while either thermal degreasing or a conventional vapour degreasing step should be employed to remove oils and greases. Once this is done the substrate should not be handled with bare hands. Note: Phosphate pretreated substrates are not recommended for VICOTE grades as the high processing temperatures required for processing can result in de-lamination of the coating. SPRAYING A conventional gravity fed spray gun with a nozzle size between 0.7 and 1.8mm has been found suitable for applying VICOTE dispersions. Edges of components should be sprayed first before applying a complete coating. An air pressure to the gun of between 35 and 50 psi has been found to be a suitable spray pressure. Spray at right angles to the substrate wherever possible. The spray gun and cup can be cleaned with water after use. PROCESSING For general processing information consult the VICOTE dispersion coating guides. Coated parts should be dried in air for 10 minutes then dried in an oven for 10 minutes at 120°C before placing in an oven at 400°C to fuse and melt the coating. By following the processing guide smooth coatings should be achievable. Because VICOTE Coatings are semicrystalline thermoplastics as with all these types of products some shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. VICOTE F817 should result in crystalline coatings which should not require further post processing treatment. STORAGE AND HANDLING CONSIDERATIONS VICOTE drums should be stored in a clean dry environment and should not be stored with the lids removed as this may result in airborne dust contaminating the product, which could cause coating defects. The VICOTE dispersions will soft settle after prolonged standing. They can be re-dispersed readily by stirring of the liquid suspension. The drums can also be rolled to agitate the dispersion and re-disperse. High shear dispersing should be avoided as the wetting agent is prone to shear thinning. Although it is recommended that the dispersion is not allowed to freeze, re-dispersing after thawing is possible. Optimum storage temperature is 5°C – 25°C. VICOTE F817 is packed in 20 kg polythene UN drums enclosed in a strong cardboard box with the VICOTE logo. The product has a shelf life of 12 months if kept in its original container with the lid securely fastened and ideally should not be used after this time. SAFETY PRECAUTIONS Before applying VICOTE dispersions, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex plc. VICOTE F817 should be only applied using suitable exhaust ventilation. Care should be taken not to inhale fumes or vapours. The washing of hands and good housekeeping are a prerequisite before handling these products.
VICOTE™ COATINGS Vicote Coatings 700 series VICOTE™ 701, 702, 703, 704, 705 Powder Coatings VICOTE™ is the brand name for VICTREX™ PEEK polymer-based coatings. VICOTE Coatings are only available through Victrex or its preferred coater network. Contact Victrex for further details. PROPERTIES VICOTE 701-705 grades are specially developed powder coatings. They are available in various average particle sizes from 10 - 50 microns. The powders are off-white in color and are available in various melt viscosities depending on the film thickness and level of melt flow required. Typical film thicknesses range from < 100 microns up to 500 microns. Film thicknesses above 1 mm are possible by building up the coating thickness by the hot flocking technique. Like other non-coating grades of VICTREX PEEK polymer, VICOTE Coatings are thermoplastic in nature and exhibit flow above the melt temperature. When processed using the correct guidelines, the coatings will exhibit the excellent properties that VICTREX PEEK polymer is renowned for. - High continuous use temperature of 260°C - Excellent wear, abrasion and cut through resistance at these high temperatures - Excellent chemical and radiation resistance - Low level of extractables - Hydrolysis resistant - Inherently flame retardant SUBSTRATES AND PREPARATION VICOTE coatings can be applied to most ferrous and non-ferrous metals. A primer is not required. - Cast metals need to be de-gassed in an oven to prevent pin holes in the coating surface. Aluminium may be coated. However, the mechanical properties of the Aluminium will be affected at VICOTE coatings processing temperatures. - Substrates should be free from grease, oils and corrosion prior to coating. Solvent degreasing and grit blasting with Aluminium Oxide with final solvent wash should ensure a suitable surface for coating. Note: phosphate pretreated substrates are not recommended for VICOTE coating grades as the high processing temperatures required for processing can result in delamination of the coating. PROCESSING Conventional electrostatic spray equipment is suitable for VICOTE coating products. Ovens should be capable of attaining up to 450°C. For general processing information consult the VICOTE powder coating guide. - By following the processing guide, smooth coatings should be achievable. VICOTE materials are semi-crystalline thermoplastics, and as with all these types of products, shrinkage will take place when the coating cools. Depending on the mass of the substrate, coating thickness and rate of cooling will determine the amount of shrinkage. - Normally processed and cooled coatings should result in crystalline coatings, which should not require further post processing treatment. However, an increase in crystallinity may enhance certain properties such as wear and scratch resistance. To anneal the coating, the part should be placed in an air circulating oven and the temperature raised at 10°C per minute to 250°C and held at that temperature for 30 minutes to 1 hour. - With coated parts that are subject to a high service temperature, it may be beneficial to anneal the parts at 10°C above the maximum service temperature to prevent further volume change of the coating. Note: The colour of the final coating when using VICOTE 700 series natural resins may depend on the substrate. For example, if a thin VICOTE Coating is applied, the processing temperatures will turn some steels blue and may impart a blue/grey colour to the final VICOTE Coating. STORAGE AND HANDLING CONSIDERATIONS - VICOTE boxes should be stored in a clean dry environment and should not be stored with the lids and internal liner opened as this may result in airborne dust contaminating the product, which could cause coating defects. - VICOTE Powder Coatings are packed in 10kg strong cardboard boxes with the VICOTE logo on the outside. Smaller quantities are available on request. - The powders have an indefinite storage life if the powder is kept sealed in its original box. - Drying the powders at 150°C for 3 hours or 120°C overnight is recommended before use. SAFETY PRECAUTIONS - Before applying VICOTE Powder Coatings, read the appropriate Material Safety Data Sheet (MSDS) and the processing guide, available from Victrex. - VICOTE natural coating resins should only be applied using suitable local exhaust ventilation system. - Care should be taken not to inhale dust, vapors and fumes evolved during processing. - VICOTE Coatings must only be applied and processed where Local Extract Ventilation (LEV) is available. - Washing of hands and good housekeeping are a prerequisite before handling these products. Note: these products are not for human implantation.
VICTREX AM™ 450 FIL High performance thermoplastic material, PolyEtherEtherKetone (PEEK), semi crystalline, filament for Additive Manufacture by filament fusion and other melt extrusion 3D printing processes. Colour natural/beige. Additive manufacturing processing. Filament Fusion printed parts. For use in high temperature applications and chemically aggressive environments. Low outgassing, suitable for sterilisation. Not suitable for medical implant applications. Product supplied vacuum packed with desiccant and dry when produced. Drying before use is recommended. This product is based on VICTREX 450G™ Polymer.
VICTREX CT™ POLYMER 100 High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, colour natural. Applications at very low temperatures. Wear and erosion resistant and chemically resistant to aggressive environments
VICTREX FG™ POLYMER 100/101 High performance Food Grade thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, colour natural/beige (100) and black (101). The VICTREX FG™ 100 family of materials is intended for applications needing mechanical properties at ambient and elevated temperatures along with long-term creep resistance, point and edge retention and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 120/121 High performance Food Grade thermoplastic material, glass fiber reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, colour natural/beige (120) and black (121). The VICTREX FG™ 100 family of materials is intended for applications needing mechanical properties at ambient and elevated temperatures along with long-term creep resistance, point and edge retention and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 140 High performance Food Grade thermoplastic material, carbon fiber reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, colour black. The VICTREX FG™ 100 family of materials is intended for applications needing mechanical properties at ambient and elevated temperatures along with long-term creep resistance, point and edge retention and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 200/201 High performance Food Grade thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, colour natural/beige (200) and black (201). The VICTREX FG™ 200 family of materials is intended for applications needing toughness and ductility from sub-ambient to elevated temperatures along with long-term fatigue resistance and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 240 High performance Food Grade thermoplastic material, carbon fiber reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, colour black. The VICTREX FG™ 200 family of materials is intended for applications needing toughness and ductility from sub-ambient to elevated temperatures along with long-term fatigue resistance and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 340 High performance Food Grade thermoplastic material, filled PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, colour black. The VICTREX FG™ 300 family of materials is intended for applications needing wear and abrasion resistance for bearing and wear service and low coefficient of thermal expansion for metal replacement. Chemically resistant to aggressive environments, suitable for sterilisation.
VICTREX FG™ POLYMER 700 FPD High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for composite manufacture, easy flow, FDA food contact compliant, colour natural. Applications for higher strength in a static system. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilisation for medical and food contact applications
VICTREX HPG™ POLYMER 140 GRA High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, standard flow, colour natural. Chemically resistant to aggressive environments
VICTREX HPG™ POLYMER 240 GRA High performance thermoplastic material, reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, low flow, colour black. Chemically resistant to aggressive environments
VICTREX XPI™ 150 Polymer VICTREX XPI™ 150 polymer is a high-performance PolyEtherEtherKetone (PEEK), semi crystalline thermoplastic material, in granule feedstock format primarily for wire extrusion processing. Winding wire insulation for electric motor applications requires good mechanical and electrical performance across a range of temperatures and potentially chemically aggressive environments. VICTREX XPI™ 150 polymer can meet many of these requirements such as (where specific properties are quantified in the below table); • Long-term thermal stability in high electric field strength rotating machines • Extruded coating provides superior electrical performance with reduced number of faults per wire length vs. enamelled equivalents • Good ductility for demanding wire forming & resistance to thermal cycling / conductor expansion • Excellent wear resistance • Mechanical strength and dimensional stability • Excellent chemical resistance to a broad range of ATF, oils and cooling fluids
VICTREX XPI™ 174 Polymer VICTREX XPI™ 174 polymer is high-performance PolyEtherEtherKetone (PEEK) semi crystalline thermoplastic material and is supplied in granule feedstock format primarily for wire extrusion processing. Winding wire insulation for electric motor applications requires good mechanical and electrical performance across a range of temperatures and potentially chemically aggressive environments. VICTREX XPI™ 174 polymer can meet many of these requirements such as (where specific properties are quantified in the below table); • Long-term thermal stability in high electric field strength rotating machines • Extruded coating provides superior electrical performance with reduced number of faults per wire length vs. enamelled equivalents • Good ductility for demanding wire forming & resistance to thermal cycling / conductor expansion • Excellent wear resistance • Mechanical strength and dimensional stability • Excellent chemical resistance to a broad range of ATF, oils and cooling fluids
VICTREX™ PEEK POLYMER 150CA30 High performance thermoplastic material, 30% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Complex geometries with thin cross sections or long flow length where higher strength in a static or dynamic system is required. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 150FC30 High performance thermoplastic material, 30% reinforced with carbon fibre / graphite / PTFE PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Tribological applications with thin cross sections or long flow lengths for high strength. Excellent wear resistance, very low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 150FW30 High performance thermoplastic material, 30% reinforced with carbon fibre / PTFE PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Tribological applications with thin cross sections or long flow lengths for high strength. Excellent wear resistance, very low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 150G High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, depth filtered granules for injection moulding, easy flow, colour natural/beige. Typical Application Areas Complex geometries with thin cross sections or long flow lengths, for high strength and stiffness as well as good ductility. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 150G903 Black High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Complex geometries with thin cross sections or long flow lengths, for high strength and stiffness as well as good ductility. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 150GL15 High performance thermoplastic material, 15% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour natural/beige. Complex geometries with thin cross sections or long flow lengths where good strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 150GL20 High performance thermoplastic material, 20% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour natural/beige. Complex geometries with thin cross sections or long flow lengths where good strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 150GL30 High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour natural/beige. Complex geometries with thin cross sections or long flow lengths where higher strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 150GL30BLK High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Complex geometries with thin cross sections or long flow lengths where higher strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 150P High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, coarse powder for extrusion compounding, easy flow, colour natural.
VICTREX™ PEEK POLYMER 150PF High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for compression moulding, easy flow, colour natural.
VICTREX™ PEEK POLYMER 150UF10 High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for composite manufacture, easy flow, colour natural.
VICTREX™ PEEK POLYMER 150XF High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for compression moulding, easy flow, colour natural.
VICTREX™ PEEK POLYMER 151G High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, depth filtered granules for injection moulding, easy flow, colour natural/beige. Typical Application Areas Complex geometries with thin cross sections or long flow lengths, for high strength and stiffness as well as good ductility. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 380P High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, coarse powder for extrusion compounding, standard flow, colour natural.
VICTREX™ PEEK POLYMER 381G High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, depth filtered granules for specialty extrusion processes, standard flow, colour natural/beige. Wire coating, extrusion of filaments, minitubes, films. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 450CA20 High performance thermoplastic material, 20% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour black. Applications for higher strength and stiffness in a static or dynamic system. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 450CA30 High performance thermoplastic material, 30% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour black. Applications for higher strength and stiffness in a static or dynamic system. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 450CA40 High performance thermoplastic material, 40% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, low flow, colour black. Applications for higher strength and stiffness in a static or dynamic system. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 450FC30 High performance thermoplastic material, 30% reinforced with carbon fibre / graphite / PTFE PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour black. Tribological applications for high strength. Excellent wear resistance, very low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 450FE20 High performance thermoplastic material, 20% filled with PTFE PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour natural / beige. Tribological applications. Excellent wear resistance, very low coefficient of friction. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 450G903 Black High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour black. Applications for higher strength and stiffness as well as high ductility. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 450GL15 High performance thermoplastic material, 15% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour natural/beige. Applications for higher strength in a static system. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 450GL20 High performance thermoplastic material, 20% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour natural/beige. Applications for higher strength in a static system. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 450GL30 High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour natural/beige. Applications for higher strength in a static system. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilisation for medical and food contact applications.
VICTREX™ PEEK POLYMER 450GL30BLK High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard viscosity, colour black. Applications for higher strength in a static system. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 450G™ High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, standard flow, colour natural/beige. Applications for higher strength and stiffness as well as high ductility. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 450P High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, coarse powder for extrusion compounding, standard flow, colour natural.
VICTREX™ PEEK POLYMER 450PF High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for compression moulding, standard flow, colour natural.
VICTREX™ PEEK POLYMER 650CA30 High performance thermoplastic material, 30% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, low flow, colour black. Applications for higher strength and stiffness in a static or dynamic system. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 650G High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding and extrusion, low flow, colour natural/beige. Applications for higher strength and stiffness as well as enhanced ductility. Chemically resistant to aggressive environments, suitable for sterilisation for medical and food contact applications.
VICTREX™ PEEK POLYMER 650P High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, coarse powder for extrusion compounding, low flow, colour natural.
VICTREX™ PEEK POLYMER 650PF High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, fine powder for compression moulding, low flow, colour natural.
VICTREX™ PEEK POLYMER 90CA30 High performance thermoplastic material, 30% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour black. Complex geometries with thinner cross sections or longer flow length where higher strength in a static or dynamic system is required. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 90G High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, depth filtered granules for injection moulding, very easy flow, colour natural/beige. Complex geometries with thinner cross sections or longer flow lengths, for high strength and stiffness as well as good ductility. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications
VICTREX™ PEEK POLYMER 90GL30 High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour natural/beige. Complex geometries with thinner cross sections or longer flow lengths where higher strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 90GL30BLK-EU High performance thermoplastic material, 30% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour black. Complex geometries with thinner cross sections or longer flow lengths where higher strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments. Suitable for steam sterilisation. Further information is available on request.
VICTREX™ PEEK POLYMER 90GL60 High performance thermoplastic material, 60% glass fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, standard flow, colour natural/beige. Applications where higher strength in a static system is required. Low coefficient of thermal expansion. Chemically resistant to aggressive environments, suitable for sterilization for medical and food contact applications.
VICTREX™ PEEK POLYMER 90HMF20 High performance thermoplastic material, 20% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, very easy flow, colour black. Complex geometries with thinner cross sections or longer flow length where superior strength in a static or dynamic system is required. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 90HMF40 High performance thermoplastic material, 40% carbon fibre reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour black. Complex geometries with thinner cross sections or longer flow length where superior strength in a static or dynamic system is required. Excellent wear resistance, low coefficient of friction, low coefficient of thermal expansion. Chemically resistant to aggressive environments.
VICTREX™ PEEK POLYMER 90P High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, coarse powder for extrusion compounding, very easy flow, colour natural.
VICTREX™ PEEK POLYMER ABV 300 GRA High performance thermoplastic material, reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, colour black. VICTREX ABV™ 300 is typically used in applications that operate across a wide temperature range and require a combination of strength and compressive creep resistance at lower stiffness compared to 30% reinforced carbon grades.
VICTREX™ PEEK POLYMER AS110 High performance thermoplastic material, reinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, easy flow, colour natural/beige. VICTREX™ AS110 is typically used in applications that operate across a wide temperature range and require a combination of strength and ductility, good creep resistance and chemical resistance in aggressive fluid environments. Less abrasive on low-hardened light alloys compared to stiffer wear grades.
VICTREX™ PEEK POLYMER ESD101 High performance thermoplastic material with tight electrostatic dissipative control and low outgassing. ESD performance not influenced by moulding conditions provided that recommended processing conditions are rigorously adhered to. Semi crystalline, granules for injection moulding, easy flow, colour black. Applications in the semi-conductor industry were ESD control is essential while maintaining other performance requirements.
WDF® PEEK K900CF10TF10-HV K900CF10TF10-HV is a 10% glass fiber +10%PTFE + 10% graphite reinforced Polyetheretherketone with high viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900CF10TF10-LV K900CF10TF10-LV is a 10% glass fiber +10% PTFE +10% graphite reinforced Polyetheretherketone with low viscosity. The material has excellent wear resistance, chemical resistance, high strength, stability and dimensional high heat resistance.
WDF® PEEK K900CF20-HV K900CF-HV is a 20% carbon fiber reinforced Polyetheretherketone with high viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900CF20-LV K900CF20-LV is a 20% carbon fiber reinforced Polyetheretherketone with lowviscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900CF20-MV K900CF-MV is a 20% carbon fiber reinforced Polyetheretherketone with medium viscosity. The material has excellent wear resistance, chemical resistance, high strength, high heat resistance and dimensional stability.
WDF® PEEK K900CF30-HV K900CF30-HV is a 30% carbon fiber reinforced Polyetheretherketone with highviscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stabilityand high heat resistance.
WDF® PEEK K900CF30-LV K900CF30-LV is a 30% carbon fiber reinforced Polyetheretherketone with lowviscosity. The material has excellent wear resistance, chemical resistance, high strength,dimensional stability and high heat resistance.
WDF® PEEK K900CF30-MV K900CF30-MV is a 30% carbon fiber reinforced Polyetheretherketone with medium viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900GF20-HV K900GF20-HV is a 20% glass fiber reinforced Polyetheretherketone with high viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900GF20-LV K900GF20-LV is a 20% glass fiber reinforced Polyetheretherketone with low viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900GF20-MV K900GF20-MV is a 20% glass fiber reinforced Polyetheretherketone with medium viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900GF30-HV K900GF30-HV is a 30% glass fiber reinforced Polyetheretherketone with high viscosity. The material has excellent wear resistance, chemical resistance, high strength, dimensional stability and high heat resistance.
WDF® PEEK K900GF30-LV K900GF30-LV is a 30% glass fiber reinforced Polyetheretherketone with low viscosity. The material has excellent wear resistance, chemical resistance, high strength, high heat resistance and dimensional stability.
WDF® PEEK K900GF30-MV K900GF30-MV is a 30% glass fiber reinforced Polyetheretherketone with medium viscosity. The material has excellent wear resistance, chemical resistance, high strength, high heat resistance and dimensional stability.
WDF® PEEK K900-HV NC K900-HV is a high-viscosity standard-flow Polyetheretherketone. The material has excellent wear resistance, chemical resistance, dimensional stability and high rigidity.
WDF® PEEK K900-LV NC K900-LV is a low-viscosity high-flow Polyetheretherketone. The material has excellent wear resistance, chemical resistance, high rigidity and dimensional stability.
WDF® PEEK K900-MV NC K900-MV is a medium-viscosity Polyetheretherketone. The material has excellent wear resistance, chemical resistance, high rigidity and dimensional stability.
Witcom PEEK 2007/020 Article code KTA2007/351
Witcom PEEK 2C-EM  
Witcom PEEK 3C/3L1-EM  
Witcom PEEK 3C-EM  
Witcom PEEK 4L1  
Witcom PEEK 6C/3L1-EM  
WR® 300 WR® 300 is a carbon-fiber reinforced compression molded PEEK™ often selected by pump manufacturers and users for pump bushings and case or impeller wear rings. Maximum service life is achieved in clean. lubricated and/or moist environments. WR 300 allows the pump user to increase pump effiency by running tighter wear ring clearances while decreasing potential pump damage when pumps are cavitated or experience radial bearing failures.
WR® 525 WR ® 525 is a thermoplastic composite consisting of carbon fiber in a PEEK matrix. Because of its unique thermal expansion properties, WR ® 525 is ideal for use as impeller wear rings, bushings and case wear rings. WR ® 525 allows the pump user to increase pump efficiency by running tighter wear ring clearances, while decreasing potential pump damage when pumps are cavitated or experience down-line bearing failures. WR ® 525 is API 610 approved for (stationary/stationary and rotating) wear applications.
Zeniva® ZA-500 L Zeniva® ZA-500 L is a lubricated grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. This product meets the requirements of the current version of ASTM F 2026. Zeniva® ZA-500 L is offered as resin pellets and fabricated forms such as rods and plates. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). An FDA MAF is available.
Zeniva® ZA-500 Stock Shapes Zeniva® ZA-500 is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. This product meets the requirements of the current version of ASTM F 2026. Zeniva® ZA-500 is offered as resin pellets and fabricated forms such as rods and plates. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). An FDA MAF is available and a PMDA MF is available in Japan.
Zeniva® ZA-500 Zeniva® ZA-500 is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. This product meets the requirements of the current version of ASTM F 2026. Zeniva® ZA-500 is offered as resin pellets and fabricated forms such as rods and plates. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). An FDA MAF is available and a PMDA MF is available in Japan.
Zeniva® ZA-520 Resin Zeniva® ZA-520 is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. This grade of Zeniva® PEEK is an Image Contrast grade, offering a level of opacity for imaging techniques such as MRI, CT and X-ray. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. The chemical, physical and mechanical properties of finished parts are related to the processes utilized in producing the finished part, for example, molding, machining, annealing, sterilization, etc. Zeniva® ZA520 is available in resin pellets and rods.
Zeniva® ZA-520 Rods Zeniva® ZA-520 is a grade of polyetheretherketone (PEEK) offered for use in implantable medical devices. This grade of Zeniva® PEEK is an Image Contrast grade, offering a level of opacity for imaging techniques such as MRI, CT and X-ray. The manufacturing factily for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relaevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in an accredited lab that is ISO 17025 compliant. The chemical, physical and mechanical properties of finished parts are related to the processes utilized in producing the finished part, for example, molding, machining, annealing, sterilzation.
Zeniva® ZA-550 L Zeniva ® ZA-550 L is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. Zeniva ® ZA-550 L has been optimized for conversion into extruded filament for use in Fused Filament printers. The manufacturing facility for Zeniva ® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. Zeniva ® ZA-550 L is offered as resin pellets. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example; printing, molding, machining, annealing, sterilization, etc). An FDA MAF is available.
Zeniva® ZA-600 BK L Zeniva® ZA-600 BK L is a lubricated grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 BK L is offered as resin pellets. An FDA MAF is available.
Zeniva® ZA-600 BK Zeniva® ZA-600 BK is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 BK is offered as resin pellets. An FDA MAF is available.
Zeniva® ZA-600 CF10 Zeniva® ZA-600 CF10 is a carbon-fiber reinforced grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 CF10 is offered as compounded pellets. An FDA MAF is available.
Zeniva® ZA-600 CF30 Zeniva® ZA-600 CF30 is a carbon-fiber reinforced grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 CF30 is offered as compounded pellets. An FDA MAF is available. In Japan, a PMDA MF is available.
Zeniva® ZA-600 L Zeniva® ZA-600 L is a lubricated grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. This product meets the requirements of the current version of ASTM F 2026. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 L is offered as resin pellets. An FDA MAF is available.
Zeniva® ZA-600 Zeniva® ZA-600 is a grade of polyetheretherketone (PEEK) offered for use in implantable devices. The manufacturing facility for Zeniva® PEEK in Alpharetta, GA is ISO 13485 registered and the relevant aspects of current Good Manufacturing Practices are also applied. Our biomaterial manufacturing processes are carefully validated, and enhanced controls provide product traceability. In addition, all materials are tested in a lab that is ISO 17025 accredited. This product meets the requirements of the current version of ASTM F 2026. The chemical, physical, and mechanical properties of finished parts are related to the processes utilized in producing the finished part (for example, molding, machining, annealing, sterilization, etc). Zeniva® ZA-600 is offered as resin pellets. An FDA MAF is available.
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