Shenzhen Teflon New Material Technology Co., Ltd
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| Feature | Description |
| Reinforcement | 30% carbon fiber |
| Color | Black |
| Wear Resistance | High wear resistance, suitable for applications requiring low coefficients of friction and high wear performance |
| Mechanical Properties | Enhanced compressive strength and stiffness, with a significant reduction in expansion rate |
| Thermal Performance | Higher thermal conductivity than unreinforced PEEK, facilitating rapid heat dissipation |
| Chemical Resistance | Excellent resistance to almost all chemicals, including acids, bases, and organic solvents |
| Application Areas | Suitable for aerospace, automotive, electronics, semiconductor, energy, and textile industries |
| Processability | Can be processed through thermoplastic methods such as injection molding and extrusion |
| Certifications | Compliant with ISO 9001, SGS, FDA, ROHS, and other certification standards |
| Physical Properties | Density of approximately 1.40 g/cm³, low water absorption, and excellent mechanical properties such as tensile strength and flexural modulus |
| Thermal Stability | Long-term use temperature up to 250°C, and can withstand temperatures up to 310°C for short periods |
High-Performance Reinforcement: The integration of 30% carbon fiber provides exceptional strength and rigidity, making the material ideal for applications requiring high mechanical performance.
Wear Resistance: This grade of PEEK exhibits superior wear resistance, making it suitable for components that are subject to abrasive conditions or require low frictional properties.
Thermal Stability: The carbon fiber reinforcement enhances the thermal stability of the PEEK, allowing it to perform reliably in high-temperature environments, with a continuous service temperature of up to 250°C.
Low Coefficient of Thermal Expansion: The material has a reduced thermal expansion rate compared to unreinforced PEEK, which contributes to its dimensional stability across a range of temperatures.
Chemical Resistance: PEEK is known for its resistance to a wide array of chemicals, including acids, bases, and organic solvents, making it suitable for use in corrosive environments.
Improved Thermal Conductivity: The carbon fiber reinforcement increases the thermal conductivity of the material, allowing for better heat dissipation in applications where heat management is critical.
Mechanical Properties: The pellets offer improved tensile and compressive strength, as well as increased modulus, providing the material with a high load-bearing capability.
Easy Processing: Designed for various processing methods, including injection molding and extrusion, making it suitable for manufacturing complex mechanical parts with precision and repeatability.
Aerospace Industry: Used in the manufacture of non-structural components due to its high strength-to-weight ratio and thermal stability.
Automotive Sector: Suitable for manufacturing engine parts, drivetrain components, and other high-stress parts that require durability and heat resistance.
Electronics: Ideal for the production of connectors, sockets, and other components that need to withstand high temperatures and resist chemical degradation.
Machinery and Equipment: Employed in the production of wear plates, gears, and bearings where high strength and wear resistance are required.
Industrial Components: Used in applications such as pumps, valves, and seals where chemical resistance and dimensional stability are crucial.