Compounds / Granules

1: PEEK CF10 Compound (Black)

A carbon fibre reinforced PEEK compound designed for applications where balanced performance and ease of processing are key. With 10% carbon fibre content, it provides improved dimensional stability and electrical conductivity while remaining highly suitable for injection moulding.

Material Overview

This compound offers a practical alternative to higher-filled grades, delivering reliable strength and stiffness without compromising processability. It performs consistently under mechanical load and maintains stability in high-temperature and chemically demanding environments.

Performance Benefits

• Good strength and stiffness
• High heat resistance
• Excellent chemical resistance
• Good wear and creep resistance
• Suitable for injection moulding processes

Typical Applications

Mechanical engineering, automotive components, oil & gas systems, chemical processing, and vacuum technology

2: PEEK CF20 Compound (Black)

A high-performance PEEK compound reinforced with 20% carbon fibres, developed for demanding injection moulding applications where strength, stability, and durability are critical.

Material Overview

This compound delivers significantly higher stiffness and improved mechanical performance compared to unfilled PEEK, making it a reliable choice for load-bearing components. Its carbon fibre reinforcement also provides a lower density and better wear behaviour compared to glass fibre alternatives, while maintaining excellent chemical resistance.

Performance Benefits

• High strength and stiffness
• Excellent wear and creep resistance
• Low thermal expansion
• High temperature resistance
• Very good chemical resistance
• Electrically conductive
• Low moisture absorption

Application Advantage

Well-suited for replacing metal in high-performance components, especially where consistent mechanical performance under thermal stress is required.

Typical Applications

Automotive, mechanical and plant engineering, oil & gas, chemical processing, and vacuum technology

3: PEEK CF30 Compound (Black)

A high-performance PEEK compound reinforced with 30% carbon fibres, developed for applications requiring maximum stiffness, strength, and dimensional precision under extreme conditions.

Material Overview

Engineered for high-load environments, this compound delivers significantly enhanced mechanical performance compared to lower-filled grades. It offers superior stiffness, strength, and stability, making it an ideal choice for components exposed to continuous stress and elevated temperatures.

Performance Benefits

• Very high strength and stiffness
• Excellent dimensional stability
• Low thermal expansion
• High temperature resistance
• Very good chemical resistance
• Good wear and creep resistance
• Electrically conductive
• Low moisture absorption

Application Advantage

Designed for demanding applications where metal replacement, weight reduction, and consistent performance under thermal and mechanical stress are essential.

Typical Applications

Automotive, mechanical and plant engineering, oil & gas, chemical processing, and vacuum technology

4: PEEK CF40 Compound (Black)

A high-performance PEEK compound reinforced with 40% carbon fibres, developed for applications that demand maximum stiffness, strength, and thermal stability.

Material Overview

Positioned as a top-tier solution, this compound delivers exceptional mechanical performance, making it ideal for high-load and lightweight applications. The high carbon fibre content significantly enhances structural rigidity while maintaining reliable performance under elevated temperatures.

Performance Benefits

• Excellent strength and stiffness
• Outstanding thermal stability
• Very good chemical resistance
• High creep resistance
• Good wear properties
• Suitable for injection moulding

Application Advantage

Ideal for components operating under extreme mechanical and thermal stress, where precision, durability, and weight reduction are critical.

Typical Applications

Mechanical engineering, automotive, oil & gas, chemical processing, and vacuum technology

5: PEEK GF10 Compound (Natural)

A glass fibre reinforced PEEK compound with 10% fibre content, designed for applications requiring a balanced combination of strength, toughness, and processability.

Material Overview

This compound offers reliable mechanical performance with moderate stiffness, making it suitable for components that benefit from improved impact resistance and dimensional stability without excessive rigidity. Its formulation supports smooth processing, making it well-suited for injection moulding applications.

Performance Benefits

• Balanced strength and toughness
• Good dimensional stability
• High heat resistance
• Excellent chemical resistance
• High creep resistance
• Suitable for injection moulding

Application Advantage

Ideal for applications where moderate stiffness and improved durability are required, while maintaining ease of processing and consistent performance.

Typical Applications

Mechanical engineering, automotive, chemical processing, and vacuum technology

6: PEEK GF20 Compound (Natural)

A glass fibre reinforced PEEK compound with 20% fibre content, offering increased rigidity, strength, and thermal stability for demanding applications.

Material Overview

Positioned between lower and higher filled grades, this compound provides a balanced combination of stiffness and flexibility. It delivers reliable mechanical performance along with good dimensional stability, making it well-suited for precision components produced through injection moulding.

Performance Benefits

• Increased strength and rigidity
• Good dimensional stability
• High heat resistance
• Excellent chemical resistance
• High creep resistance
• Suitable for injection moulding

Application Advantage

Ideal for components requiring enhanced mechanical performance while maintaining a degree of flexibility and processability.

Typical Applications

Mechanical engineering, automotive, chemical processing, and vacuum technology

7: PEEK GF30 Compound (Natural)

A glass fibre reinforced PEEK compound with 30% fibre content, developed for applications requiring maximum dimensional stability, strength, and thermal resistance.

Material Overview

This compound delivers significantly increased stiffness and mechanical strength compared to unfilled PEEK, ensuring reliable performance under continuous load and elevated temperatures. Its low thermal expansion and moisture absorption support long-term dimensional accuracy, even in changing environments.

Performance Benefits

• High strength and stiffness
• Excellent dimensional stability
• Very good heat resistance
• Excellent chemical resistance
• High creep resistance
• Electrically insulating
• Suitable for injection moulding

Application Advantage

Well-suited for replacing metal in structural components where precision, durability, and performance under thermal and mechanical stress are essential.

Typical Applications

Mechanical engineering, automotive, chemical processing, and vacuum technology

8: PEEK GF40 Compound (Natural)

A glass fibre reinforced PEEK compound with 40% fibre content, offering maximum stiffness, strength, and thermal stability within the glass fibre range.

Material Overview

Designed for highly loaded applications, this compound delivers outstanding mechanical performance and maintains stability under extreme thermal and mechanical stress. Its high fibre content ensures excellent rigidity and dimensional accuracy for precision components.

Performance Benefits

• Very high strength and stiffness
• Excellent dimensional stability
• Very good heat resistance
• Excellent chemical resistance
• High creep resistance
• Electrically insulating
• Suitable for injection moulding

Application Advantage

Ideal for structural components operating under high loads and temperatures, where long-term performance and reliability are critical.

Typical Applications

Mechanical engineering, automotive, chemical processing, and vacuum technology

9: PA66 GF30 Compound (Natural)

A glass fibre reinforced PA66 compound with 30% fibre content, designed for applications requiring high rigidity and dimensional stability.

Material Overview

This material delivers enhanced strength and stiffness compared to unfilled PA66, ensuring reliable performance under mechanical and thermal stress. Its balanced processing characteristics make it well-suited for producing precise and complex components through injection moulding.

Performance Benefits

• High strength and rigidity
• Excellent dimensional stability
• Good thermal resistance
• Electrically insulating
• Suitable for injection moulding

Application Advantage

Ideal for structural components and metal replacement parts where accuracy, durability, and consistent performance are essential.

Typical Applications

Automotive and mechanical engineering

10: PA66 CF30 Compound (Black)

A 30% carbon fibre reinforced PA66 compound engineered for applications where structural strength, dimensional accuracy, and electrical conductivity are essential.

Material Overview

This compound enhances the core properties of polyamide 66 by significantly increasing stiffness and strength while reducing overall component weight. It performs reliably under both static and dynamic loads, maintaining stability even in thermally demanding conditions.

Performance Benefits

• Very high stiffness and strength
• Excellent dimensional stability under load
• Good fatigue and wear resistance
• Electrically conductive for controlled charge dissipation
• Resistant to oils, greases, and fuels
• Optimised for injection moulding

Thermal Performance

• Continuous use up to 110°C
• Short-term resistance up to 170°C

Application Advantage

Designed for precision and durability, this material is ideal for components requiring both mechanical performance and electrical functionality, especially in high-load and high-temperature environments.

Typical Applications

Automotive components, mechanical systems, precision engineering parts, industrial housings, and load-bearing structures

11: PA66 CF40 Compound (Black)

A 40% carbon fibre reinforced PA66 compound developed for high-load applications where maximum strength, stiffness, and electrical functionality are required.

Material Overview

This compound represents a high level of reinforcement within PA66 materials, delivering exceptional tensile, flexural, and compressive strength. It maintains excellent dimensional stability under continuous mechanical stress, making it suitable for demanding structural applications.

Performance Benefits

• Very high stiffness and strength
• Excellent dimensional stability under load
• Good wear resistance
• Electrically conductive
• Resistant to oils, greases, and fuels
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 110°C
• Short-term resistance up to 170°C

Application Advantage

Designed for heavy-duty use, it is well-suited for replacing metal in components that require both structural integrity and electrical performance. Its flow characteristics also allow the production of complex, high-precision parts.

Typical Applications

Automotive, mechanical engineering, and electronics

12: PEEK XT TRM PVX Compound (Black)

A tribologically optimised PEEK compound engineered for applications involving high friction, wear, and extreme thermal conditions.

Material Overview

This advanced formulation features a modified polymer structure that delivers higher heat resistance than standard PEEK, while maintaining excellent chemical stability. Reinforced with carbon fibres and enhanced with solid lubricants, it provides a balanced combination of strength, durability, and low-friction performance.

Performance Benefits

• Excellent wear and sliding properties
• High thermal and mechanical stability
• Increased heat resistance
• Very good chemical resistance
• Suitable for both dry and lubricated applications
• High creep resistance
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 260°C
• Short-term resistance up to 300°C

Application Advantage

Designed for demanding tribological systems, this material ensures reliable performance in components exposed to continuous friction, high loads, and elevated temperatures.

Typical Applications

Plain bearings, valves, guide elements, and industrial friction systems in automotive and mechanical engineering

13: PEEK TRM PVX Compound (Black)

A high-performance PEEK compound developed for demanding tribological applications, particularly in bearing and sliding systems.

Material Overview

This material combines the inherent strength and chemical resistance of PEEK with enhanced tribological performance. Reinforced with carbon fibres and supported by solid lubricants, it delivers reliable operation under friction, wear, and continuous mechanical stress—even in dry running conditions.

Performance Benefits

• Excellent wear and sliding performance
• Low friction coefficient
• High dimensional stability under load
• Very good chemical resistance
• Resistant to hydrolysis and steam
• Low moisture absorption
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 260°C
• Short-term resistance up to 300°C

Application Advantage

Well-suited for components operating under continuous friction and load, where durability, stability, and reduced maintenance are critical.

Typical Applications

Bearings, guide elements, and friction components in automotive, mechanical engineering, and industrial systems

14: PPS TRM PVX Compound (Black)

A tribologically optimised PPS compound designed for applications involving high friction, wear, and elevated temperatures.

Material Overview

Based on polyphenylene sulphide, this material delivers stable mechanical performance at high operating temperatures while offering exceptional resistance to chemicals, solvents, and aggressive environments. Its modified formulation ensures reliable behaviour under continuous thermal and mechanical stress.

Performance Benefits

• Excellent wear and sliding performance
• High load-bearing capacity
• Outstanding chemical resistance
• High dimensional stability
• Low moisture absorption
• High creep resistance
• Inherent flame resistance
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 230°C
• Short-term resistance up to 260°C

Application Advantage

Developed for demanding tribological systems, it ensures consistent performance in components exposed to friction, pressure, and harsh operating conditions.

Typical Applications

Automotive and mechanical engineering, particularly for friction components and load-bearing systems

15: PEEK XT TRM XS Compound (Black)

A tribologically optimised PEEK compound engineered for applications involving high friction, wear, and extreme thermal conditions.

Material Overview

This material features a modified polymer structure with increased heat resistance, allowing reliable performance under continuous thermal and mechanical stress. Reinforced with carbon fibres and enhanced with graphite, it delivers excellent wear resistance and improved sliding behaviour, particularly in dry-running and metal-contact environments.

Performance Benefits

• Very good wear and sliding performance
• High mechanical strength
• Excellent thermal stability
• Very good chemical resistance
• Low moisture absorption
• Low thermal expansion
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 260°C
• Short-term resistance up to 300°C

Application Advantage

Developed for demanding tribological systems, it provides consistent performance in components exposed to friction, high loads, and elevated temperatures.

Typical Applications

Automotive and mechanical engineering, particularly for bearings, sliding elements, and high-wear components

16: PEEK TRM XS Compound (Black)

A high-performance PEEK compound developed for advanced tribological applications where wear resistance and smooth sliding performance are critical.

Material Overview

Reinforced with carbon fibres and enhanced with solid lubricants, this material delivers a combination of strength, durability, and low-friction behaviour. It performs reliably under continuous mechanical stress, even in high-temperature and chemically aggressive environments.

Performance Benefits

• Excellent wear and sliding performance
• High mechanical strength and stiffness
• Very good chemical resistance
• Low moisture absorption
• High creep resistance
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 260°C
• High resistance to thermal load

Application Advantage

Designed for systems exposed to continuous friction, this compound ensures long-term reliability, reduced wear, and stable performance—even in dry-running conditions.

Typical Applications

Plain bearings, guide elements, valve components, and friction systems in automotive and mechanical engineering

17: PPS TRM XS Compound (Black)

A high-performance PPS compound engineered for applications involving continuous friction, wear, and elevated temperatures.

Material Overview

Based on polyphenylene sulphide, this compound delivers a strong combination of thermal stability, mechanical rigidity, and chemical resistance. Reinforced with carbon fibres and graphite, it is specifically developed to improve wear resistance and reduce friction in demanding operating conditions.

Performance Benefits

• Excellent wear resistance
• Low friction behaviour
• High mechanical strength and stiffness
• Outstanding chemical resistance
• High dimensional stability
• Inherent flame resistance
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 230°C
• Short-term resistance up to 260°C

Application Advantage

Designed for tribological systems, it ensures consistent performance in components exposed to friction, load, and thermal stress while maintaining long-term dimensional stability.

Typical Applications

Automotive and mechanical engineering, including guides, housing components, and friction systems

18: PA66 TRM XS Compound (Black)

A tribologically optimised PA66 compound designed for applications involving continuous friction, wear, and mechanical stress.

Material Overview

Based on a modified polyamide 66 structure, this material combines high strength and dimensional stability with improved wear behaviour. It performs reliably under combined thermal and mechanical loads, making it suitable for demanding moving components.

Performance Benefits

• Excellent wear and sliding performance
• High stiffness and strength
• Good thermal resistance
• Reduced abrasion against counterpart materials
• Resistant to oils, greases, and fuels
• Suitable for injection moulding

Thermal Performance

• Continuous use up to 110°C
• Short-term resistance up to 170°C

Application Advantage

Designed for friction-intensive systems, it helps extend component life while maintaining stable performance and reducing wear on mating parts.

Typical Applications

Automotive and mechanical engineering, including bearings, guides, and moving assemblies

19: POM TRM Compound (Natural)

A tribologically optimised POM-H compound developed for dry-running sliding applications where low friction and wear resistance are critical.

Material Overview

This material integrates solid lubrication directly into the polymer structure, allowing reliable performance without the need for external lubricants. It offers a combination of strength, dimensional stability, and consistent behaviour under repeated motion and load.

Performance Benefits

• Very low friction coefficient
• Excellent wear resistance, especially in oscillating motion
• High dimensional stability
• Low moisture absorption
• Good thermal stability and creep resistance
• Suitable for injection moulding

Thermal Performance

• Continuous use from -30°C to 110°C
• Short-term resistance up to 150°C

Application Advantage

Ideal for precision components in friction-intensive systems, this material reduces maintenance requirements while extending service life in dry-running conditions.

Typical Applications

Plain bearings, rollers, guides, coupling elements, and other tribological components in automotive and mechanical engineering

20: PEEK 450 ID Compound (Blue)

A detectable high-performance PEEK compound developed for hygiene-critical applications, particularly in food processing and packaging environments.

Material Overview

This material combines the proven strength and thermal resistance of PEEK with enhanced detectability. It can be identified by metal detection and X-ray systems, while its blue colour supports easy visual identification during processing. Designed for product-contact environments, it ensures both safety and reliability in automated production systems.

Performance Benefits

• Detectable via X-ray and metal detection
• High temperature resistance
• Excellent chemical and hydrolysis resistance
• High dimensional stability
• Low moisture absorption
• Inherent flame resistance

Thermal Performance

• Continuous use up to 260°C
• Suitable for high-temperature processing environments

Application Advantage

Ideal for safety-critical components, this material supports contamination control and process reliability while maintaining strong mechanical and thermal performance.

Typical Applications

Food processing and packaging equipment, including guides, nozzles, thermoforming components, and high-temperature functional parts

21: PA66 ID Compound (Blue)

A detectable PA66 compound developed for hygiene-critical applications, combining high strength with excellent impact resistance.

Material Overview

Designed for use in food processing environments, this material enables reliable detection through metal and X-ray systems, helping to minimise contamination risks. Its blue colour enhances visual identification during production and inspection processes.

Performance Benefits

• Detectable via X-ray and metal detection
• High toughness and impact resistance
• Good thermal stability
• Resistant to oils, greases, and fuels
• Suitable for injection moulding

Application Advantage

Well-suited for environments requiring strict hygiene and safety standards, offering durability and reliable performance under cleaning and sterilisation conditions.

Typical Applications

Food processing and packaging equipment, including components used in handling, filling, and production systems

22: PA6 ID Compound (Blue)

A detectable PA6 compound developed for food industry applications, designed to improve contamination control and product safety.

Material Overview

This material combines the mechanical performance of polyamide 6 with enhanced detectability through metal and X-ray systems. Its blue colour also supports quick visual identification, making it suitable for hygiene-critical production environments.

Performance Benefits

• Detectable via X-ray and metal detection
• High toughness and impact resistance
• Good chemical resistance
• Stable friction behaviour
• Suitable for injection moulding

Application Advantage

Ideal for applications where even small plastic particles must be reliably detected, helping to reduce contamination risks and support strict hygiene standards.

Typical Applications

Food processing and packaging equipment, including clips, cable ties, separators, and technical components

23: POM ID Compound (Blue)

A detectable POM-C compound designed for tribological applications in food processing environments, combining reliable sliding performance with enhanced safety.

Material Overview

This material offers strong mechanical performance and dimensional stability across a wide temperature range, while maintaining low friction behaviour. Its formulation allows detection through metal and X-ray systems, supported by a distinct blue colour for visual identification in production areas.

Performance Benefits

• Detectable via metal and X-ray systems
• Good sliding and wear properties
• High dimensional stability
• Good chemical resistance
• Low moisture absorption
• Suitable for injection moulding

Thermal Performance

• Continuous use from -50°C to 100°C
• Short-term resistance up to 140°C

Application Advantage

Ideal for components in hygiene-critical systems where both tribological performance and contamination detection are essential.

Typical Applications

Conveyor systems, guides, rollers, chains, and other moving components in food processing and packaging equipment

24: PP ID Compound (Blue)

A detectable polypropylene (PP-H) compound developed for food industry applications, offering reliable performance with enhanced visibility and detection.

Material Overview

This material combines low density with good strength and toughness, making it suitable for lightweight yet durable components. Its formulation enables reliable detection through metal and X-ray systems, while the blue colour supports easy visual identification in production environments.

Performance Benefits

Detectable via metal and X-ray systems
Low moisture absorption
Good chemical resistance
Lightweight with good toughness
Suitable for injection moulding

Application Advantage

Designed for hygiene-critical environments, it helps minimise contamination risks while maintaining consistent performance under cleaning and processing conditions.

Typical Applications

Food processing and packaging equipment, including clips, cable ties, closures, and handling components

25: PE ID Compound (Blue)

A detectable polyethylene compound developed for food industry applications, offering high toughness, flexibility, and reliable detection performance.

Material Overview

Based on low-density polyethylene, this material is designed for components that require durability under dynamic loads. It enables reliable detection through metal and X-ray systems, while its strong blue colour improves visual identification within production environments.

Performance Benefits

• Detectable via metal and X-ray systems
• High impact strength, even at low temperatures
• Good chemical resistance
• Low moisture absorption
• Flexible and durable
• Suitable for injection moulding

Application Advantage

Ideal for hygiene-critical environments, it ensures effective contamination control while maintaining performance in demanding conditions, including exposure to cleaning agents and steam.

Typical Applications

Belts, scrapers, clamps, films, and other flexible components used in food processing and packaging systems

26: PPS HTE PW Compound (Black)

A highly filled PPS compound in powder form, developed for electrically conductive components in advanced energy systems.

Material Overview

Designed specifically for hot compression moulding, this material enables the production of high-performance components such as bipolar plates. Its formulation combines conductive fillers with a thermally stable PPS matrix, resulting in excellent electrical and thermal conductivity along with strong mechanical integrity.

Performance Benefits

• High electrical conductivity
• High thermal conductivity
• Excellent chemical resistance
• High dimensional stability
• Low moisture absorption
• Inherent flame resistance

Processing Note

Optimised for hot compression moulding processes, ensuring uniform compaction and consistent performance in finished components.

Application Advantage

Ideal for applications requiring efficient energy transfer, durability, and stability under high temperatures and chemically aggressive environments.

Typical Applications

Bipolar plates, fuel cell systems, hydrogen technology, and heat exchanger components.

27: PP HTE PW Compound (Black)

A highly filled, conductive polypropylene compound in powder form, developed for advanced energy applications such as fuel cells and battery systems.

Material Overview

Designed specifically for hot compression moulding, this material enables the production of electrically conductive components with high chemical stability. Its optimised powder structure ensures uniform compaction and consistent performance in demanding applications.

Performance Benefits

• High electrical conductivity
• High thermal conductivity
• Very good chemical resistance
• High dimensional stability
• Suitable for hot compression moulding

Processing Note

Supplied in powder form for compression processes, enabling precise control over material distribution and surface quality in finished parts.

Application Advantage

Ideal for applications where electrical conductivity, chemical resistance, and durability are required together, especially in modern energy systems.

Typical Applications

Bipolar plates, separator plates, fuel cell systems, and hydrogen technology

28: PEEK LDS Compound (Black)

A laser-direct-structurable PEEK compound designed for the production of electronically functionalised components with integrated conductor tracks.

Material Overview

This material enables the direct creation of conductive paths on plastic components using laser structuring technology. It combines the thermal stability and mechanical strength of PEEK with precise electrical functionality, making it suitable for complex and miniaturised electronic designs.

Performance Benefits

• Suitable for laser direct structuring (LDS)
• High dimensional and thermal stability
• Excellent chemical resistance
• High adhesion for conductor tracks
• Low moisture absorption
• Inherent flame resistance

Electrical & Thermal Performance

• Stable electrical properties at high frequencies
• Continuous use up to 260°C
• Low dielectric loss for high-frequency applications

Application Advantage

Ideal for compact electronic systems requiring integrated circuitry, high precision, and reliable performance under thermal and mechanical stress.

Typical Applications

Electronic housings, antenna systems, sensors, and components in electrical and mechanical engineering

29: PEEK LDS Compound (Grey)

A laser-direct-structurable PEEK compound designed for electronic components requiring precise conductor track integration and high thermal stability.

Material Overview

This material allows selective activation of the surface for laser structuring, enabling the creation of fine conductive pathways directly on the component. It combines the strength and durability of PEEK with enhanced thermal and electrical performance, making it suitable for complex and high-precision electronic applications.

Performance Benefits

• Suitable for laser direct structuring (LDS)
• High dimensional and thermal stability
• Excellent chemical resistance
• Strong adhesion for conductor tracks
• Low moisture absorption
• Inherent flame resistance

Electrical & Thermal Performance

• Stable electrical performance for high-frequency applications
• Continuous use up to 260°C
• Improved thermal management

Application Advantage

The light colour supports visual applications and colour matching, making it suitable for components where both functionality and appearance are important. It also performs reliably in complex geometries and fine structural designs.

Typical Applications

Sensors, electronic housings, lighting components, and precision parts in automotive, electrical, and mechanical engineering

30: PEEK MED LDS Compound (Grey)

A laser-direct-structurable PEEK compound developed for medical electronic applications requiring integrated conductor track functionality and high material reliability.

Material Overview

This material enables precise laser structuring for direct metallisation on component surfaces, allowing seamless integration of electrical functions into medical-grade parts. It combines the stability of PEEK with advanced processing capabilities, ensuring consistent performance in complex and high-precision manufacturing environments.

Performance Benefits

• Suitable for laser direct structuring (LDS)
• High dimensional accuracy and stability
• Excellent chemical resistance
• Low moisture absorption
• Inherent flame resistance
• Biocompatible material properties

Thermal & Processing Performance

• Continuous use up to 260°C
• Reliable performance under sterilisation and thermal stress
• Suitable for injection moulding and complex geometries

Application Advantage

Designed for hygiene-critical and precision medical environments, this material supports the integration of electronic functionality into stable, high-performance components.

Typical Applications

Medical sensors, electronic housings, functional interfaces, and microstructured components in advanced medical technology