Transforming Industries through Advanced Nylon CF
Carbon fiber reinforced nylon composite material refers to a modified composite material prepared by a certain production process with nylon as the base material and carbon fiber as the filler. This material has excellent properties such as high strength, high hardness, light weight, wear resistance, conductivity, anti-static property, etc., and is widely used in aerospace, military equipment, rail vehicles, automotive industry, household goods and other fields.
Nylon CF Reinforced Composites have several common application areas. They are widely used in the automotive industry for manufacturing parts like engine covers and gears due to their high strength and heat resistance. In the aerospace field, they can be found in structural components for lightweight and durability. They are also employed in the production of sports equipment, such as tennis rackets and bicycle frames, where strength and weight reduction are essential. Additionally, they are utilized in the manufacturing of industrial machinery parts for enhanced performance and longevity.
Product By Features
Long Carbon Fiber Filled PA ABS LCF-PP LCFRTPs ...
LCFRTPs are advanced materials with long fibers, offering high strength, rigidity, good impact resistance, excellent heat resistance, high processability via injection molding and extrusion, and recyclability, making them ideal for applications where structural integrity and environmental sustainability matter.
Learn More
Durable PA12-CF30 Composite for Industrial Stre...
PA12-CF30 is a high-performance polyamide composite, reinforced with 30% carbon fiber. This material excels in strength, rigidity, and thermal stability, making it ideal for demanding applications in automotive, aerospace, and industrial sectors.
Learn More
High-Performance PA12-CF20 Carbon Fiber Composite
PA12-CF20 (Polyamide 12 Carbon Fiber Composite) features 20% carbon fiber, providing exceptional strength, stiffness, and wear resistance. Ideal for aerospace, automotive, and industrial applications, it maintains performance in harsh environments with excellent thermal stability and low moisture absorption. Its efficient processing allows for complex geometries, enhancing design flexibility.
Learn More
High-Strength PA12-CF10 Carbon Fiber Composite
PPS-CF10 is a high-performance material featuring 10% carbon fiber reinforcement. It offers enhanced strength, rigidity, and thermal stability, making it ideal for aerospace, automotive, and industrial applications. With excellent chemical resistance and low moisture absorption, PPS-CF10 performs reliably in harsh environments, suitable for components like brackets, housings, and wear-resistant parts.
Learn More
CFRTP Nylon PA CF Plastic Raw Materials
CFRTPs combine carbon fiber and thermoplastic resin. Common resins have unique traits. Long chopped fiber enhances strength. Short chopped has better dispersibility. Carbon fiber content matters. Choose wisely for balance.
Learn More
Carbon Fiber Reinforced Thermoplastic Composite...
Carbon Fiber Reinforced Thermoplastic Composites such as ABS CF, PA CF and PP LCF realizes high-performance material characteristics through the combination of thermoplastic resin matrix and different types of carbon fiber reinforcements, and has broad application prospects in many fields.
Learn More
High-Strength PA12-CF5 Carbon Fiber Composite
PA12-CF05, which contains 5% carbon fiber, demonstrates a notable enhancement in properties compared to standard PA12. With a tensile strength of 70 MPa and a heat deflection temperature of approximately 85°C, this composite offers improved mechanical performance and thermal stability, making it suitable for a variety of applications requiring lightweight…
Learn More
High-Strength PA66-CF60 Carbon Fiber
PA66-CF60 is an enhanced version of polyamide 66, containing 60% carbon fiber. It offers significantly improved tensile strength (up to 160 MPa) and exceptional rigidity (flexural strength exceeding 300 MPa), making it highly suitable for high-load and harsh environments. This material is not only lightweight but also provides excellent impact…
Learn More
PA66-CF50: Advanced Carbon Fiber Composite
PA66-CF50 is a high-performance composite material consisting of 50% carbon fiber reinforced nylon 66 (PA66). It offers exceptional tensile strength exceeding 250 MPa, outstanding impact resistance of 140-180 kJ/m², and a low wear rate of 0.01-0.03 mm³/kWh. With a lightweight density of 1.40-1.50 g/cm³, PA66-CF50 is ideal for automotive, aerospace,…
Learn More
High Strength PA66-CF40 Carbon Fiber Material
PA66-CF40 is a high-performance composite material made by adding 40% carbon fiber to nylon 66 (PA66). It features exceptional tensile strength over 200 MPa, outstanding impact resistance of 120-160 kJ/m², and a low wear rate of 0.02-0.04 mm³/kWh. Ideal for automotive, aerospace, industrial, and consumer applications, PA66-CF40 offers a lightweight…
Learn More
Lightweight High-Strength PA66-CF30 Material
PA66-CF20 is a high-performance composite material made from nylon 66 reinforced with 20% carbon fiber. It features a tensile strength of 140-180 MPa, impact strength of 80-120 kJ/m², and a wear rate of less than 0.1 mm³/kWh, making it ideal for automotive, sporting, and consumer applications.
Learn More
PA66-CF20 Carbon Fiber Plastic Lightweight Strong
PA66-CF20 is a high-performance composite material made from nylon 66 reinforced with 20% carbon fiber. It features a tensile strength of 140-180 MPa, impact strength of 80-120 kJ/m², and a wear rate of less than 0.1 mm³/kWh, making it ideal for automotive, sporting, and consumer applications.
Learn MoreProduct Feature Box
WEAR RESISTANCE
HIGH STRENGTH
LIGHT WEIGHT
SCRATCH RESISTANCE
ABRASION RESISTANCE
CONDUCTIVE MATERIALS
ANTI STATIC
ECO FRIENDLY
Exceptional Traits of CF Nylon Composites
1. Exceptional mechanical properties
It has high strength and hardness, capable of withstanding large loads and stresses.
2. Lightweight
Compared to traditional materials, it is lighter, helping to reduce the weight of the overall structure, which is of great significance in fields such as aerospace and automotive.
3. Good wear resistance
This enables it to perform well in components with frequent friction, prolonging the service life of the product.
4. Outstanding thermal stability
It can maintain stable performance in high-temperature environments and is suitable for high-temperature working components such as engines.
5. Conductivity and antistatic properties
This feature can prevent the accumulation of static electricity in the electronic and electrical fields, ensuring the safe operation of equipment.
6. Chemical resistance
It can resist the erosion of various chemicals and adapt to different working environments.
7. Design flexibility
It can be customized in shape and size according to specific needs to meet complex design requirements.
8. Cost-effectiveness
Although the initial cost may be higher, due to its long service life and high performance, it is cost-effective in the long run.
For example, in the aerospace field, its lightweight and high-strength characteristics help reduce the fuel consumption of aircraft. In electronic devices, conductivity and antistatic properties ensure the normal operation of the equipment without being affected by static electricity interference.
Company Advantage
Excellent After-sales Service
Carbon (Xiamen) New Material offers all-round, prompt, and professional after-sales support. A dedicated team responds within 24 hours. They solve problems remotely or on-site and provide installation and maintenance training. Feedback is used to improve service. The company also establishes long-term relationships with customers by providing regular maintenance checks and updates, ensuring the longevity and optimal performance of its products.
Stringent Quality Control System
Carbon (Xiamen) New Material has a comprehensive quality inspection process in place, from raw material selection to finished product delivery. In raw material procurement, high-precision tests are done. During production, each step is monitored and sampled. Non-destructive testing checks for defects in finished products. This meticulous approach, coupled with continuous improvement efforts based on quality data analysis, ensures that every product leaving the factory meets or exceeds the most stringent industry standards.
Modern Factory Facilities
In modern factory facilities, carbon fiber-reinforced thermoplastic composites are becoming increasingly important. They are precisely manufactured on highly automated production lines, combining the advantages of carbon fibers and thermoplastics. With strict quality checks and continuous R&D, they are delivered efficiently to customers worldwide, facilitating industrial development.
Advanced Laboratory Equipment
1. Performance Testing Equipment Equipped with universal material testing machines, dynamic mechanical analyzers (DMA), thermogravimetric analyzers (TGA), differential scanning calorimeters (DSC), thermal conductivity testers, electrical property testers, etc., to comprehensively evaluate various properties of the materials. 2. Microstructure Analysis Instruments Including scanning electron microscopes (SEM), transmission electron microscopes (TEM), X-ray diffraction analyzers (XRD), etc., for observing and analyzing the microstructure and phase distribution of the materials.
Customization Production Capacity
Carbon (Xiamen) New Material is flexible and can meet unique customer demands. For aerospace, it uses advanced design and simulation for complex, high-performance parts. For the automotive industry, it combines strength with aesthetic and surface treatment. By closely collaborating with customers at every stage of the production process and leveraging its technical expertise, the company ensures that the final product precisely aligns with the customer's specifications and expectations.
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!
-
FAQ 1: What are the key properties of Nylon Fiber-Reinforced Composites?
Answer: These composites typically exhibit increased strength, stiffness, and improved heat resistance compared to plain nylon.
-
FAQ 2: How are Nylon Carbon Fiber Reinforced Materials manufactured?
Answer: They are usually produced through processes such as injection molding or extrusion, where carbon fibers are incorporated into the nylon matrix.
-
FAQ 3: In what applications are Nylon Fiber-Reinforced Composites commonly utilized?
Answer: They are frequently found in automotive components, aerospace parts, and industrial machinery due to their high performance.
-
FAQ 4: What are the advantages of using Nylon Carbon Fiber Reinforced Materials over traditional metals?
Answer: They offer weight reduction, better corrosion resistance, and design flexibility.
-
FAQ 5: How does the cost of Nylon Fiber-Reinforced Composites compare to other composites?
Answer: The cost can vary depending on the specific formulation and manufacturing process, but it may be higher than some common composites.
-
FAQ 6: Are Nylon Carbon Fiber Reinforced Materials recyclable?
Answer: To some extent, but the recycling process can be challenging and may not be as straightforward as for some other materials.
-
FAQ 7: What kind of maintenance is required for products made from Nylon Fiber-Reinforced Composites?
Answer: Generally, minimal maintenance is needed. Regular cleaning and inspection for damage are often sufficient.
-
FAQ 8: Can the properties of Nylon Carbon Fiber Reinforced Materials be customized?
Answer: Yes, by adjusting the composition and processing parameters, the properties can be tailored to specific requirements.
-
FAQ 9: How do environmental factors affect the performance of Nylon Fiber-Reinforced Composites?
Answer: Exposure to extreme temperatures, humidity, and UV radiation can have an impact, but they are designed to withstand certain environmental conditions.
-
FAQ 10: What are the latest trends in the development of Nylon Carbon Fiber Reinforced Materials?
Answer: Current trends include the development of more efficient manufacturing methods, improved fiber-matrix adhesion, and enhanced material performance.
