PA6 CF - Pushing Boundaries in Materials Science
PA6 CF Reinforced Composites elegantly combine PA6 and carbon fibers. Polyamide 6 exhibits commendable mechanical properties. The integration of carbon fibers remarkably escalates tensile strength, modulus, and heat resistance. Moreover, it presents exceptional fatigue resistance, ensures excellent dimensional stability, and boasts low thermal expansion. All these traits make it highly suitable for diverse demanding applications.
Ideal for the aerospace industry where lightweight and high strength are crucial for fuel efficiency and performance. In the automotive sector, it helps improve vehicle efficiency and safety. The sports field benefits from it too, enhancing equipment durability and performance. However, the manufacturing process of PA6 CF Reinforced Composites is complex. It requires advanced techniques and precise control, leading to high production costs. Also, it has anisotropic properties, meaning its properties vary depending on the direction, which requires careful design and engineering. Despite these challenges, it remains a high-performance material, well-suited for demanding applications that demand superior mechanical and thermal properties.
Product By Features
Wear-resistant Nylon PA6 CF27 PTFE Particles fo...
1.60% lower friction with PTFE lubrication 2. 80% less wear than standard PA6 3.180MPa tensile strength from 27% CF 4.90% fatigue strength retention after 107 cycles 5.50% lighter than metal gears
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PA6 CF10 Chemical-Resistant Composite
PA6 CF10 is a 10% carbon fiber reinforced nylon composite offering balanced wear resistance with 8-10mg/1000r wear rate and 0.15-0.18 friction coefficient. This engineering-grade material combines the processability of nylon 6 with enhanced mechanical properties (160-180MPa tensile strength, 6-8GPa flexural modulus), making it suitable for medium-load friction components requiring both…
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Nylon PA6 CF27 Polyamide – 27%CF Particles
1.220-250MPa tensile strength – Doubles pure PA6 performance 2.9-11GPa flexural modulus – Exceptional structural rigidity 3.195-205C HDT-Withstands high-temperature environments 4.40% lower friction – Superior wear resistance 5.10³-105Ω resistivity-Built-in anti-static protection
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High Strength-to-lightweight Ratio PA6 CF35 Pla...
1.300+ MPa tensile strength-Ultra-high load capacity 2. 1.4 g/cm³ density-Lighter than aluminum alloys 3.210°C heat resistance -Withstands extreme temperatures 4.15 GPa rigidity-Exceptional structural stability 5. Superior fatigue resistance – Long-lasting dynamic performance
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High Performance PA6 CF10 with Enhanced Abrasio...
PA6-CF10: 10% carbon fiber reinforced nylon composite delivering superior mechanical performance. Features include: 1.10% CF reinforcement – Optimal strength-to-weight ratio 2.120MPa tensile – Structural integrity maintained 3.5.5GPa modulus – Enhanced rigidity for load-bearing parts 4.60% wear reduction – Improved durability vs standard PA6 5.0.8% shrinkage – Precision molding capability
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Cost-effective PA6 CF33 Plastic Raw Material Pa...
1.High Strength-210MPa tensile,280MPa flexural strength 2. Heat Resistant-215C HDT,160°C service temperature 3.Stable Dimensions – 0.3% moisture deformation rate 4.Conductive – 103-10sΩ·cm resistivity for ESD 5. Easy Processing -35g/10min MFI for fast molding
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General Grade PA Nylon 6 CF30 Raw Material Gran...
1.High Tensile Strength-≥200 MPa for structural durability. 2.Superior Stiffness – Flexural modulus ≥15 GPa for rigidity. 3. Excellent Heat Resistance-HDT >210°C for high-temperature use. 4.Lightweight Advantage- Density 1.38 g/cm, 50% lighter than metals. 5. Low Moisture Absorption- Enhanced dimensional stability in humid conditions.
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Granular Wear-resistant PA6PA66 CF Plastic Raw ...
Wear Resistance PA6PA66 CF Features: 1. Superior Wear Resistance (<3mg/1000 revs, 10x better than PA66) 2. Exceptional Fatigue Strength (>90% retention after 1M cycles) 3. Precision Dimensional Stability(±0.05mm,CTE<3×10-5/℃) 4. Lightweight Performance(1.38g/cm3, 60% lighter than metal) 5. High-Temperature Endurance (continuous 120C operation)
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Toughened Grade PA6&PA66 CF Thermoplastic ...
1. High strength (Tensile≥200 MPa) 2. Lightweight (Density 1.3-1.4 g/cm3) 3. High rigidity (Modulus ≥15 GPa) 4. Fatigue-resistant (1M+load cycles) 5. Chemical-resistant (Acid/alkali stability) 6.Thermal-stable(HDT>200°C)
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PA6-CF10 Carbon Fiber Nylon – High Strength
PA6-CF10 uses 10% carbon fiber reinforced nylon 6 matrix, with a density of only 1.3g/cm³, which is 50% lighter than aluminum alloy. It also offers a tensile strength of 180MPa and a flexural modulus of 8GPa.
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Granular Nylon PA6 CF20 for Anti Static Combs
This advanced material solution combines excellent static dissipation with premium mechanical properties and manufacturing efficiency, making PA6 CF20 the ideal choice for professional-grade combs in beauty, healthcare, and pet care applications. Its balanced performance characteristics address all critical requirements for anti-static comb production while ensuring superior product lifespan and user…
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Modified Nylon 6 Anti-static PA6 CF20 Material ...
Why PA6 CF20 Material Is Perfect for Combs? Anti-static properties prevent hair damage and improve user comfort. High stiffness + wear resistance extend product lifespan, even with daily use. Smooth, low-friction surface protects hair cuticles. Sterilization-friendly for salon or medical-grade applications.
Learn MoreProduct Feature Box
WEAR RESISTANCE
CONDUCTIVE MATERIALS
HIGH STRENGTH
ANTI STATIC
SCRATCH RESISTANCE
ABRASION RESISTANCE
ECO FRIENDLY
LIGHT WEIGHT
Company Advantage
Skilled and Motivated Workforce
Talented employees with expertise and a passion for their work can drive productivity and innovation. Google is known for attracting top talent.
Adaptive and Agile Culture
Quickly respond to changes in the market and adapt its strategies and operations is more likely to succeed. Netflix has demonstrated this ability in the evolving media landscape.
Strategic Partnerships and Alliances
Collaborating with other businesses can provide access to new technologies, markets, or resources. Microsoft's partnerships in the cloud computing space have strengthened its position.
Frequently Asked Questions
Carbon (Xiamen) New Material Co., Ltd. aims to provide buyers with "one-stop" worry-free high-quality services. Here you can find all information about carbon fiber engineering plastics. If you still have questions, please send us an email for consultation!
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What are the main advantages of PA6 CF Reinforced Composites?
They offer high tensile strength, improved heat resistance, and excellent fatigue resistance. Also, they provide good dimensional stability and low weight compared to traditional materials.
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How is the durability of PA6 CF Reinforced Composites in harsh environments?
These composites have excellent resistance to chemicals, moisture, and temperature variations, making them suitable for use in various harsh conditions.
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Can PA6 CF Reinforced Composites be machined easily?
While they can be machined, it requires specialized tools and techniques due to their high strength and hardness.
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What is the typical cost range of PA6 CF Reinforced Composites?
The cost varies depending on factors such as the quality, quantity, and specific properties required. Generally, it is higher than common materials, but the performance justifies the expense in many applications.
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Are there any limitations to the use of PA6 CF Reinforced Composites?
Their complex manufacturing process and higher cost can be limiting factors. Also, their anisotropic properties need to be considered in design.
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How does the addition of carbon fibers affect the electrical conductivity of PA6?
The carbon fibers can increase the electrical conductivity to some extent, but it depends on the fiber content and orientation.
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What kind of surface treatments are available for PA6 CF Reinforced Composites?
Common surface treatments include painting, coating, and plasma treatment to enhance adhesion, corrosion resistance, or aesthetic appearance.
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How do the mechanical properties of PA6 CF Reinforced Composites change with temperature?
The mechanical properties remain relatively stable over a wide temperature range, but they may start to degrade at extremely high temperatures.
