Base Polymer Polyphenylene Sulphide Filler/Additive System 10 % carbon fibres, 10 % graphite, 10 % PTFE Special Features reduced surface resistivity, electrically conductive, improved sliding / wear Market Segment Automotive, Machinery, electrical and electronic Typical Applications functional components, housings, bearings and sliding elements

Base Polymer Polyphenylene Sulphide Filler/Additive System 15 % carbon fibres, 15 % PTFE, 4 % silicone Special Features improved sliding / wear, high stiffness, electrically conductive, scratch resistant Market Segment Automotive, Machinery Typical Applications bearings and sliding elements, functional components

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres, 10 % PTFE Special Features improved sliding / wear, high stiffness, high toughness Market Segment Automotive, Machinery Typical Applications bearings and sliding elements, functional components

Base Polymer Polyphenylene Sulphide Filler/Additive System 30 % glass fibres, 15 % PTFE Special Features improved sliding / wear, high stiffness, high toughness Market Segment Automotive, Machinery Typical Applications bearings and sliding elements, functional components

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features injection moulding, high stiffness Market Segment Machinery Application Area pump components Typical Applications various

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features high stiffness Application Area pump components Typical Applications various

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features injection moulding grade, high stiffness, easy flow Market Segment various Application Area pump components Typical Applications housings

Base Polymer Polyphenylene Sulphide Filler/Additive System 45 % glass fibres Special Features high stiffness Application Area various Typical Applications housings, fixing elements

Base Polymer Polyphenylene Sulphide Filler/Additive System 45 % glass fibres Special Features high stiffness Market Segment Automotive, Machinery Application Area injection moulded parts Typical Applications pump components, pump impellers, housings, high pressure vessels

Base Polymer Polyphenylene Sulphide Filler/Additive System 60 % glass fibre/mineral Colour black Special Features high stiffness, improved surface appearance Application Area various Typical Applications reflectors, various

Base Polymer Polyphenylene Sulphide Filler/Additive System 50 % mineral Special Features improved surface appearance, high surface gloss, metallizable Application Area injection moulding grade Typical Applications reflectors

Base Polymer Polyphenylene Sulphide Filler/Additive System 50 % mineral Special Features improved surface appearance, high surface gloss Market Segment Automotive, Machinery Application Area injection moulded parts Typical Applications reflectors

Base Polymer Polyphenylene Sulphide Filler/Additive System 70 % special filler Special Features increased thermal conductivity, electrostatically dissipating, high density, magnetisable Market Segment Automotive, Machinery, electrical and electronic Application Area electrical components Typical Applications coil formers / bobbins

Base Polymer Polyphenylene Sulphide Filler/Additive System 80 % special filler Special Features increased thermal conductivity, electrostatically dissipating, high density, magnetisable Market Segment Automotive, Machinery, electrical and electronic Application Area electrical components Typical Applications coil formers / bobbins

Base Polymer Polyphenylene Sulphide Filler/Additive System 60 % glass fibre/mineral Special Features high density Market Segment Automotive, Machinery Application Area injection moulded parts Typical Applications various

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features high stiffness, easy flow Market Segment Machinery, electrical and electronic, building and construction Application Area injection moulded parts, pump components Typical Applications housings, Parts in contact with drinking water

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features high stiffness Market Segment Machinery Application Area pump components, ducting / piping systems Typical Applications pipe fitting

Base Polymer Polyphenylene Sulphide Filler/Additive System 40 % glass fibres Special Features high stiffness, easy flow, reduced flash Market Segment Machinery, electrical and electronic, building and construction Application Area injection moulded parts, pump components Typical Applications housings, Parts in contact with drinking water

Base Polymer Polyphenylene Sulphide Special Features elastomer modified, high toughness Market Segment Automotive, Machinery Application Area extrusion grade Typical Applications ducting / piping systems, functional components

Base Polymer Polyphenylene Sulphide Filler/Additive System 30 % glass fibres, 15 % PTFE Special Features high purity, high stiffness Application Area injection moulded parts Typical Applications fuel cells

Base Polymer Polyphenylene Sulphide Filler/Additive System 45 % glass fibres Special Features injection moulding grade, contains recycled material Typical Applications fixing elements, lamp sockets

Tepex® dynalite 207-C200(x)/50%3K Carbon - PPS consolidated composite laminate The datasheet is valid for this specific composition only, the characteristics of composites depend on reinforcement level and fiber orientation. Non-standard thickness may alter some or all of these properties. The data listed here are given as average product properties and should not be used to establish specification limits nor used alone as basis of design. The underlying tests were conducted at room temperature and (where possible) with 2 mm specimen thickness. For tensile and flexural tests a specimen width of 25 mm was used and is highly recommended to achieve representative results.

Molding Parameters: The dry temperature at 16 hours is 250°F. For 2-zone machines, the rear temperature is 600-640°F, and the front temperature is 580-600°F.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Therma-Tech™ Thermal Management Compounds have been engineered to combine the heat transfer and cooling capabilities of metals with the design freedom, weight reduction and cost advantages of thermoplastics. These materials provide the benefits of proprietary conductive additive technologies and the performance of select engineering thermoplastic resins. Therma-Tech compounds have been shown to improve thermal conductivity up to 100-times that of conventional plastics and can be used in a wide range of thermal management applications.

Processing Method: Injection Molding

PPS, 40% Glass Fiber Processing Method: Injection Molding

PPS, 50% Glass Fiber Processing Method: Injection Molding

PPS, 60% Glass Fiber, Natural Processing Method: Injection Molding

PPS, 50% Glass Fiber / Mineral Processing Method: Injection Molding