Carbon Fiber Reinforced Thermoplastic Manufacturer
Carbon (Xiamen) New Material Co., Ltd. is committed to offering a series of customized services of carbon fiber composite materials, focusing on carbon fiber modified materials such as reinforcement, conductivity, anti-static, etc. to meet your various application demands. Main matrix resins: PA6, PA66, PA12, PPA, TPU, PPS, PEEK, PC, PP, ABS, PBT, PEI and PEEK, etc.
Crafted through advanced manufacturing processes, our plastics seamlessly integrate the strength and lightweight properties of carbon fiber with the versatility of engineering plastics, delivering unparalleled performance in demanding applications.
Our carbon fiber-modified plastics boast exceptional strength-to-weight ratios, making them ideal for applications where weight reduction and structural integrity are paramount. Whether used in automotive components, aerospace structures, sporting goods, or industrial machinery, our materials offer unmatched strength, stiffness, and impact resistance, ensuring reliable performance even in the most challenging environments.
Backed by rigorous testing and quality assurance protocols, our carbon fiber-modified engineering plastics stand as a testament to innovation and excellence, empowering industries to push the boundaries of what's possible. Explore the possibilities with our range of advanced materials and experience the difference in performance and reliability firsthand.
Product By Features
Granular ABS CF20 Raw Materials for 3D FDM Prin...
1. 20% carbon fiber – optimal flow for FDM extrusion 2. 75MPa strength -150% stronger than standard ABS 3. 0.5% shrinkage -60% lower warping for FDM 4. 80mm/s printing -30% faster than filament 5. 260℃ stable – no-clog FDM nozzle performance
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Granulated ABS CF40 as Additive Manufacturing R...
1. 110MPa tensile strength -22% stronger than ABS CF30. 2. 40% carbon fiber content – enhances structural rigidity. 3. 125℃ HDT -42% higher heat resistance vs standard ABS. 4. 2kg/h extrusion rate -50% faster than filament printing. 5. <15% anisotropy – superior isotropic performance.
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PA6-LCF10 Industrial Wear-Resistant
PA6-LCF10 is a high-performance long carbon fiber reinforced nylon material with exceptional strength, lightweight properties, high temperature resistance, and superior wear resistance, making it an ideal choice for automotive, aerospace, electronics, and industrial components.
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Granular ABS CF30 for 3D FGF Technology
1. 90MPa tensile strength-200% stronger than pure ABS. 2. 7GPa flexural modulus – ideal for load-bearing structures. 3. 110℃ HDT- 35% higher heat resistance than standard ABS. 4. 0.3% shrinkage rate -70% lower than unfilled ABS. 5. 1.5kg/h extrusion rate – 3x faster than filament printing.
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PP-LCF10 Drone Structural Material
PP-LCF 10 : A high-strength, lightweight material designed for automotive components, electronic enclosures, and sports equipment. Offers a cost-effective metal alternative with customizable solutions to enhance product performance.
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Low Friction Coefficient ABS CF 40 for Large-fo...
ABS CF 40 is a carbon fiber-reinforced thermoplastic for large-format 3D printing, featuring ultra-low friction (COF<0.2), high strength (120MPa), and excellent dimensional stability. Ideal for wear-resistant, large-scale industrial components, it reduces weight by 30% vs metal while improving printability and durability.
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High Temperature Environments PPA-LCF50
PPA-LCF50 is an ultra high-performance polyphthalamide reinforced with 50% long carbon fibers, offering exceptional tensile strength (~200–215 MPa), extreme stiffness (~18–20 GPa), and excellent thermal resistance (HDT ~300 °C). Ideal for replacing metal in structural parts exposed to high loads, heat, and chemicals.
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Dimensionally Stable PPA-LCF40
PPA-LCF40 is a high performance polyphthalamide reinforced with 40% long carbon fibers, offering near metal strength (~180–195 MPa), exceptional stiffness (~15–17 GPa), and excellent thermal stability (HDT ~290 °C). Ideal for structural parts in automotive, electronics, and industrial systems where high load, heat, and chemical resistance are required.
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Dimensionally Stable PPA-LCF30
PPA-LCF30 is a high performance polyphthalamide reinforced with 30% long carbon fibers, offering excellent tensile strength (~155–170 MPa), high stiffness (~12–14 GPa), and reliable impact resistance. With superior thermal stability (HDT ~280 °C) and chemical resistance, it’s ideal for structural components in automotive, electronics, and industrial applications where metal replacement and long term…
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PPA-LCF20 Improved Stiffness
PPA-LCF20 is a high-performance polyphthalamide reinforced with 20% long carbon fibers, offering enhanced strength (~125–140 MPa), stiffness (~9–10 GPa), and excellent impact resistance (~70–90 J/m). Ideal for structural parts requiring durability, thermal stability (HDT ~270 °C), and chemical resistance in dynamic environments.
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PPA-LCF10 High Mechanical Strength
PPA-LCF10 is a high performance polyphthalamide reinforced with 10% long carbon fibers, offering improved impact resistance, fatigue durability, and moderate stiffness (~6–7 GPa). With good thermal stability (HDT ~260 °C) and excellent chemical resistance, it’s ideal for structural parts under dynamic loads or vibration.
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PPA-CF60 Lightweight Structural Components
PPA-CF60 is a high-performance polyphthalamide (PPA) reinforced with 60% short carbon fibers, offering exceptional stiffness (~23–25 GPa), high tensile strength (~230–245 MPa), and outstanding thermal resistance (HDT ≥ 300 °C). Ideal for replacing metal in structural parts exposed to high loads, heat, and chemicals.
Learn MoreProduct Feature Box
CONDUCTIVE MATERIALS
SCRATCH RESISTANCE
ECO FRIENDLY
LIGHT WEIGHT
ANTI STATIC
HIGH STRENGTH
WEAR RESISTANCE
ABRASION RESISTANCE
Short CF Reinforced Series
Carbon fiber typically consists of very fine strands of carbon atoms, usually bundled together to form larger fibers. These fibers are incredibly strong and stiff, making them ideal for reinforcing materials in various applications, from aerospace components to sports equipment.
Long CF Reinforced Series
The main advantage of long carbon fiber over traditional carbon fiber is its ability to distribute loads more effectively and resist deformation under stress. This makes long carbon fiber composites particularly well-suited for applications requiring high impact resistance and structural integrity, such as automotive parts, where they can replace metal components while offering significant weight savings.
Quality Assurance
Excellent quality, guaranteed reputation: We are well aware of the importance of quality, so we always adhere to strict quality control and inspection processes to ensure that our products and services meet the highest quality standards. Our reputation is widely recognized in the industry, which is the result of our continuous efforts.
Customer first, service first: We know that customer satisfaction is the key to our success. Therefore, we always adhere to the principle of customer first and aim to provide services that exceed customer expectations. Our service team is always oriented to customer needs and provides personalized solutions.
Company Advantage
Modern Advanced Factory
Carbon (Xiamen) New Material Co., Ltd. provides customers with a variety of choices. We have always maintained close and good cooperative relationships with our customers, which gives our product prices an advantage in the market and allows customers to benefit from them.
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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How can I contact the manufacturer of a product that interests me?
When you find a product you are interested in, you can contact the manufacturer directly by sending an email and we will get back to you as soon as possible.
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How do I find the products that interest me?
All you need to do is enter the keyword, product name in the search window and press the Enter key on your keyboard. Your search results page will then be displayed. You can also search within the product category pages on the home page. Each category is divided into subcategories, allowing you to refine your search and find products that interest you.
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Where will I find a buying guide?
Please contact our after-sales service directly and we will provide you with a comprehensive operating guide.
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What are CF Reinforced Thermoplastic Composites?
CF Reinforced Thermoplastic Composites are materials where carbon fibers are incorporated into a thermoplastic matrix. They combine the strength and stiffness of carbon fibers with the processability and recyclability of thermoplastics. For instance, they are used in automotive parts like bumper beams.
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What are the benefits of CF Reinforced Thermoplastic Composites over traditional composites?
The key benefits include faster production cycles, easier recyclability, and better impact resistance. They also offer design flexibility. An example is in the manufacturing of consumer electronics casings where complex shapes can be achieved more easily.
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How are CF Reinforced Thermoplastic Composites processed?
Common processing methods include injection molding, extrusion, and compression molding. Injection molding is widely used for mass production. For example, in the production of small components for the medical industry.
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What industries use CF Reinforced Thermoplastic Composites?
They are utilized in aerospace, automotive, medical, and sports equipment industries. In aerospace, they can be found in interior components. In the medical field, they might be used in prosthetics.
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How does the carbon fiber content affect the properties of the composites?
Higher carbon fiber content generally leads to increased strength and stiffness but may reduce ductility. A moderate content is often balanced for specific applications. For example, a higher content might be preferred in structural parts of a race car.
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What are the challenges in using CF Reinforced Thermoplastic Composites?
Challenges include higher material costs, complex processing equipment requirements, and ensuring uniform fiber dispersion. Issues with adhesion between the fibers and the matrix can also arise. An example is in achieving consistent quality in large-scale production.
