Long Carbon Fiber Reinforced Thermoplastics
Long CF reinforced thermoplastics allow them to be more easily combined with other materials (such as thermoplastic resins) to form composite materials, thereby giving full play to their excellent mechanical properties and design flexibility. Advantages: 1. High Strength and Stiffness 2. Lightweight 3. Corrosion resistance and wear resistance 4. Excellent thermal conductivity 5. Design Flexibility
Application: 1. Aerospace 2. Automotive Industry 3. Sports Equipment 4. Energy Industry 5. Construction Industry
Product By Features
PA66-LCF30 Heat Resistance Material
PA66-LCF30 is a high-performance composite material combining 30% long carbon fiber with nylon 66, offering exceptional tensile strength (up to 250 MPa), stiffness, durability, and wear resistance. Ideal for automotive, industrial, and consumer applications, it excels in components that require high mechanical performance, impact resistance, and long-term reliability under extreme…
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Heat Resistance Material PA66-LCF20
PA66-LCF20 is a high-performance composite material with 20% long carbon fiber reinforcement in nylon 66 (PA66). It offers significantly enhanced tensile strength (up to 200 MPa), increased stiffness, and excellent impact and wear resistance. With a lightweight profile, PA66-LCF20 is ideal for automotive, industrial, and consumer applications that require high…
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High-Strength PA66-LCF10 Carbon Fiber
PA66-LCF10 is a durable nylon 66 composite reinforced with 10% long carbon fiber, offering enhanced tensile strength (up to 150 MPa), lightweight density (~1.3 g/cm³), and reliable impact and wear resistance. Ideal for automotive, industrial, and consumer applications requiring moderate strength and durability.
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Anti Static PP LCF 20 Pellet
PP LCF 20, a 20% long glass fiber reinforced polypropylene, offers excellent mechanical properties like high strength and impact resistance. It also has improved thermal and dimensional stability, good wear and corrosion resistance, low specific gravity, and good processability.
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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.
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LCFRTP Long Carbon Fiber Filled PA ABS PP LCF R...
LCFRTP is short for Long Carbon Fiber Reinforced Thermoplastics and offers high strength, stiffness, and corrosion resistance. Its low density and good dimensional stability are pluses. Also has insulation and anti-EMI properties.
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Lightweight PA6-LCF60 Exceptional Strength
PA6-LCF60 is a composite material reinforced with 60% long carbon fibers, featuring a density of 1.4-1.6 g/cm³. It offers high tensile strength (150-200 MPa) and impact resistance (100-150 kJ/m²), making it ideal for automotive and industrial applications. With excellent wear resistance (below 0.1 mm³/kWh), it provides superior performance in demanding…
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PA6-LCF50: High Performance Lightweight Composite
PA6-LCF50 is a polyamide composite reinforced with 50% long carbon fibers, achieving a lightweight density of approximately 1.4-1.5 g/cm³. It features high tensile strength (100-150 MPa) and excellent impact resistance (50-100 kJ/m²), making it ideal for demanding automotive and industrial applications. With superior wear resistance (below 0.1 mm³/kWh) and thermal…
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Next-Generation Polyamide Composite: PA6-LCF40
PA6-LCF40 is a polyamide composite reinforced with 40% long carbon fibers, providing a lightweight density of approximately 1.4 g/cm³. It boasts high tensile strength (200-250 MPa) and exceptional impact resistance (up to 300%), making it ideal for demanding automotive and industrial applications. With excellent rigidity, thermal stability up to 220°C,…
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Advanced Polyamide Composite: PA6-LCF30
PA6-LCF30 is a polyamide composite reinforced with 20% long carbon fibers, providing a lightweight density of approximately 1.4 g/cm³. It boasts high tensile strength (200-250 MPa) and exceptional impact resistance (up to 300%), making it ideal for demanding automotive and industrial applications. With excellent rigidity, thermal stability up to 220°C,…
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High-Performance Polyamide Composite PA6-LCF20
PA6-LCF20 is a polyamide composite reinforced with 20% long carbon fibers, providing a lightweight density of approximately 1.4 g/cm³. It boasts high tensile strength (200-250 MPa) and exceptional impact resistance (up to 300%), making it ideal for demanding automotive and industrial applications. With excellent rigidity, thermal stability up to 220°C,…
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PA6-LCF10: A Versatile Polyamide Composite
PA6-LCF10 is a polyamide composite with 10% long carbon fibers, offering a lightweight density of about 1.3 g/cm³. It features moderate tensile strength (150-200 MPa) and improved impact resistance (up to 200%). Ideal for automotive and industrial applications, PA6-LCF10 combines flexibility, durability, and thermal stability up to 200°C, making it…
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WEAR RESISTANCE
CONDUCTIVE MATERIALS
HIGH STRENGTH
ANTI STATIC
SCRATCH RESISTANCE
ABRASION RESISTANCE
ECO FRIENDLY
LIGHT WEIGHT
Main characteristics
1. Outstanding mechanical strength – They possess high tensile and compressive strengths.
2. Excellent stiffness – Ensuring rigidity in various applications.
3. Good fatigue resistance – Can withstand repeated loading without significant degradation.
4. Superior impact toughness – Absorb and disperse impact energy effectively.
5. Low density – Leading to lightweight products.
6. High heat resistance – Maintain performance at elevated temperatures.
7. Excellent chemical resistance – Resist the effects of various chemicals.
8. Good electrical conductivity – Suitable for certain electrical applications.
9. Rapid molding process – Shorten production cycles.
10. Recyclability – Contribute to environmental protection and cost savings.
11. Design flexibility – Enable complex shapes and structures.
12. Long-term dimensional stability – Retain shape and size over time.
Company Advantage
Customization Production Capacity
Carbon (Xiamen) New Material Co., Ltd. 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.
Efficient Supply Chain Management
Carbon (Xiamen) New Material has a mature supply chain that ensures raw material supply and on-time product delivery. Close ties with global suppliers guarantee quality. Cooperation with logistics experts ensures fast transportation. Real-time tracking predicts and resolves issues.
Professional R & D Team
Carbon (Xiamen) New Material Co., Ltd. has a team of experienced material scientists, engineers, and technical experts. They innovate and improve products. Material scientists enhance interfaces, engineers optimize designs, and experts use tech for monitoring and efficiency.
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.
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 Long CF Thermoplastic Composites?
Long CF Thermoplastic Composites are a type of advanced material having long carbon fibers in a thermoplastic matrix, offering high strength and other excellent properties.
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What are the main advantages of Long CF Thermoplastic Composites?
They provide high strength, stiffness, lightweight, good heat resistance, and excellent fatigue resistance.
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How are Long CF Thermoplastic Composites different from short CF ones?
Long fibers offer better mechanical properties and load-bearing capacity.
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In which industries are they commonly used?
Aerospace, automotive, electronics, and sports equipment industries.
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Can long carbon fiber reinforced thermoplastics be recycled?
Yes, but the process depends on the specific thermoplastic used.
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How difficult is it to process these composites?
Processing can be challenging and requires specialized equipment.
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What is the impact of fiber orientation on the properties?
Fiber orientation significantly affects strength and stiffness in specific directions.
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Are they more expensive than traditional materials?
Typically, but the performance justifies the cost in many high-performance applications.
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How do environmental factors affect their performance?
Moisture and UV radiation have limited effects, but extreme conditions may cause some changes.
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Can they be combined with other materials?
Yes, they can be combined with metals or other polymers for specific properties.
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What are the future trends in the development of these composites?
Continued improvement in properties, easier processing, and wider application areas.
