Outstanding Characteristics of PA66 CF Composites
PA66 CF Reinforced Composites, also known as Polyamide 66 Carbon Fiber Reinforced Composites, offer several outstanding functional characteristics. Polyamide 66 Carbon Fiber Reinforced Composite Materials exhibit exceptional mechanical strength and stiffness. The addition of carbon fibers significantly enhances the material's tensile and compressive properties, making it suitable for applications that require high load-bearing capacity, such as in automotive and aerospace components.
PA66-Based Carbon Fiber Reinforced Composites have good thermal stability. PA66 Composites Strengthened by Carbon Fiber can withstand elevated temperatures without significant degradation in performance, enabling their use in environments with heat exposure. Carbon Fiber Reinforced PA66 Composites also demonstrate improved wear resistance, reducing the likelihood of component failure due to friction and abrasion. Reinforced Composites of PA66 with Carbon Fiber have low moisture absorption, which helps maintain dimensional stability and mechanical properties over time. Their electrical conductivity can be tailored to meet specific requirements, opening up possibilities in electronics and electrical applications. The combination of PA66's inherent properties and the reinforcing effect of carbon fibers makes these composites a preferred choice in many demanding engineering and industrial applications.
Product By Features
PA66-CF10 High Strength & Lightweight
PA66-CF10 is a high-performance composite material made from nylon 66 reinforced with 5% carbon fiber. It features a tensile strength of 90-120 MPa, impact strength of 60-90 kJ/m², and a wear rate of less than 0.1 mm³/kWh, making it ideal for automotive, sporting, and consumer applications.
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PA66-CF5: 5% Carbon Fiber Reinforced Nylon 66
PA66-CF5 is a high-performance composite material made from nylon 66 reinforced with 5% carbon fiber. It features a tensile strength of 90-120 MPa, impact strength of 60-90 kJ/m², and a wear rate of less than 0.1 mm³/kWh, making it ideal for automotive, sporting, and consumer applications.
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PA66-CF33 Raw Materials PA66 CF 30 Composites
PA66-CF33 (Model: PA6-CF-BCA3) is a composite with 33% carbon fiber reinforced nylon 66 (polyamide 66). It has enhanced properties and is widely used in auto, electronics, aerospace. For example, makes parts and casings.
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Carbon Fiber Reinforced PA66-CF Plastic Raw Mat...
PA66-CF, a polyamide 66 reinforced with carbon fiber, combines excellent properties. Products like PA66 CF20/30/40 vary in carbon fiber content and applications.
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Plastic PA66 CF Raw Materials Producer Nylon PA...
PA66 CF is a carbon fiber reinforced nylon PA66 composite material. It is composed of a PA66 (polyamide 66) matrix and carbon fiber. PA66 has characteristics such as high strength, high rigidity, good heat resistance and thermal stability. Carbon fiber is lightweight, high-strength, high-modulus, corrosion-resistant, and has a low expansion…
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High Strength PA66-CF60 for Suspension System
PA66-CF60 has high strength (about 70% higher tensile strength than standard nylon 66), is lightweight due to high carbon fiber content, has excellent thermal resistance up to 230°C, outstanding chemical resistance, good electrical insulation for safety in electronic devices, low water absorption for stable performance in humid environments, and good…
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PA66 LCF50 Compound Raw Material Manufacturer
PA66 LCF50 integrates polyamide 66 with 50% long carbon fibers, significantly boosting strength, stiffness, and durability. Designed for rigorous applications in automotive, aerospace, and industrial sectors, it offers exceptional lightweight performance and robust mechanical properties, ensuring reliability under demanding conditions.
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Competitive Price Nylon 66 CF40 Composites PA66...
Nylon 66 CF40 combines the superior properties of Nylon 66 with the enhanced mechanical characteristics provided by 40% carbon fiber reinforcement. This results in a high-performance material suitable for diverse applications across industries demanding lightweight, strong, and durable materials.
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PA66 CF20 Black PA66-CF-BCA2 Manufacturer
PA66 CF20 combines the properties of PA66 with the benefits of carbon fiber reinforcement, resulting in a high-performance material suitable for a wide range of demanding applications across various industries like automobile parts.
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PA66 CF10 Plastic Raw Materials
In recent years, “plastics replacing steel” has become the mainstream of the times. Plastic products need to have high strength, high heat resistance, conductivity, antistatic and other properties. Huashida Engineering Plastics has been committed to modifying plastics for 20 years. PA66 CF10 plastics have high rigidity, high heat resistance and…
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PA66 CF30 Reinforcement Compound Manufacturer
The density of PA66/CF composite material like pa66 cf30 is less than 1.3. Compared with the density of steel (7.85), it is less than one-sixth of its density, achieving the purpose of lightweight and conducive to energy saving and consumption reduction. As the CF content increases, the tensile strength and…
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Nylon 66 PA66 Filled with 30% Carbon Fiber Comp...
The density of PA66 carbon fiber is around 1.28. The strength of carbon fiber is 20 times than that of iron, and its strength will not decrease even at high temperatures of 2000°C. It is also resistant to fatigue and corrosion.
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CONDUCTIVE MATERIALS
HIGH STRENGTH
ECO FRIENDLY
ABRASION RESISTANCE
SCRATCH RESISTANCE
ANTI STATIC
LIGHT WEIGHT
Company Advantage
Advanced Production Technology
Carbon (Xiamen) New Material is equipped with state-of-the-art carbon fiber composite production processes and advanced equipment. It has highly automated layup devices for precise fiber control, ensuring mechanical property consistency. Advanced curing methods like vacuum-assisted or autoclave curing improve efficiency and product quality. The company also regularly invests in research and development to introduce innovative production techniques, enhancing its ability to meet diverse customer needs and stay ahead in the competitive market.
Stringent Environmental Protection Standards
Carbon (Xiamen) New Material follows environmental regulations. It uses recyclable materials, low-VOC resins, and eco-friendly auxiliaries. It has treatment facilities and works on energy reduction, contributing to sustainability. Furthermore, it actively promotes environmental awareness among its employees and partners, and participates in environmental protection initiatives within the industry to make a positive impact on the environment.
Professional R & D Team
Carbon (Xiamen) New Material 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. The team actively participates in industry conferences and workshops, fostering a culture of learning and knowledge sharing, which leads to continuous improvement in product development and process optimization.
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. The company also maintains a buffer stock of critical raw materials to mitigate supply chain disruptions and has contingency plans in place to handle unforeseen circumstances promptly.
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. The company also maintains a buffer stock of critical raw materials to mitigate supply chain disruptions and has contingency plans in place to handle unforeseen circumstances promptly.
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 does the cost of PA66 CF Reinforced Composites compare to other materials?
It is relatively higher due to the inclusion of carbon fibers, but its superior properties often justify the cost in high-performance applications.
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Can the electrical conductivity of PA66 CF Reinforced Composites be adjusted?
Yes, it can be tailored to meet specific requirements for various applications.
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How does the addition of carbon fibers affect the properties of PA66?
It significantly enhances the tensile and compressive properties, improving the overall performance.
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What chemical resistances do PA66 CF Reinforced Composites exhibit?
It has certain tolerance to common organic solvents, such as alcohols (e.g., ethanol, methanol), hydrocarbons (e.g., gasoline, kerosene). To a certain extent, it can resist the erosion of weak acidic solutions (such as dilute hydrochloric acid) and weak alkaline solutions (such as dilute sodium hydroxide solution). For example, in an industrial chemical environment, it can maintain stable performance under the condition of containing a certain concentration of mineral oil and silicone oil. However, it should be noted that its chemical resistance is not absolute. For strong oxidizing acids (such as concentrated nitric acid) and some strong polar solvents (such as dimethylformamide), a decrease in performance may occur. In practical applications, its chemical resistance should be fully evaluated and tested according to the specific chemical environment and usage requirements.
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What is the main advantage of PA66 CF Reinforced Composites?
It offers exceptional mechanical strength and stiffness, along with good thermal stability and low moisture absorption.
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What factors should be considered when choosing PA66 CF Reinforced Composites for a particular project?
The application environment, mechanical load, thermal conditions, and cost are important factors.
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In which industries are PA66 CF Reinforced Composites commonly used?
In which industries are PA66 CF Reinforced Composites commonly used?
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What are the application fields of PA66 CF Reinforced Composites?
The application fields of PA66 CF Reinforced Composites are extensive and mainly include the following aspects: Automotive field: It can be used to manufacture automotive engine parts, electrical components, body parts. There are many types of automotive products, such as underhood components, fan rings, handles, luggage accessories, etc. It can meet the requirements of miniaturization and lightweight of automobiles, and has excellent rigidity and heat resistance. Aerospace field: It is an important material for manufacturing aircraft parts, such as internal structures and external components of aircraft. Industrial applications: It is suitable for various industrial equipment parts, such as gears, power tool housings, transformer frames, etc. Electronic products field: It can be used to prepare internal brackets, connectors, coil frames of electronic products, etc., and has good electrical insulation and dimensional stability. Sports equipment: It is used to manufacture sports goods, such as rackets, clubs, etc., which can give full play to its high strength and impact resistance. Different PA66 CF Reinforced Composites with different carbon fiber contents and specific properties may vary in specific applications. In practical applications, it is necessary to make choices based on specific needs.
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How to enhance the chemical resistance of PA66 CF Reinforced Composites?
Surface treatment: Treating the surface of the composite material chemically or coating it with a special protective coating, such as a polytetrafluoroethylene (PTFE) coating, can enhance its resistance to chemicals to a certain extent. Optimizing the formulation: Adjusting the ratio of PA66 and carbon fibers, or adding specific chemical-resistant additives, such as antioxidants and stabilizers, can improve the overall chemical resistance of the material. Employing special processing techniques: For example, using more refined injection molding or extrusion processes and controlling parameters such as processing temperature and pressure to make the material's structure more uniform and dense, thereby reducing the penetration and erosion of chemical substances. Conducting chemical modification: Carrying out chemical modification on PA66 by introducing some functional groups with better chemical resistance, or using specially treated carbon fibers, may improve the chemical resistance of the composite material. Forming multi-layered composites: Combining PA66 CF Reinforced Composites with other materials that have good chemical resistance to form a multi-layered composite structure, allowing the outer layer material to act as a barrier against the invasion of chemical substances. For instance, in some application scenarios that require a high degree of chemical resistance, such as chemical pipelines, a layer of corrosion-resistant polymer coating can be applied on the surface of PA66 CF Reinforced Composites first, or it can be combined with corrosion-resistant plastics such as polyvinyl chloride (PVC) to achieve a better chemical resistance effect.
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Are there any limitations to the use of PA66 CF Reinforced Composites?
They may have limited chemical resistance in some extremely aggressive environments and can be more difficult to process compared to some conventional materials.
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How can the durability of PA66 CF Reinforced Composites be ensured over time?
Proper storage, handling, and protection from harsh environmental conditions can contribute to long-term durability.
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What will be the future development trend of PA66 CF Reinforced Composites?
The future development trend of PA66 CF Reinforced Composites (Carbon Fiber Reinforced Nylon 66 Composites) may include the following aspects: Increasing market demand: With the continuous increase in the demand for high-performance materials in various application fields, the market demand for PA66 CF Reinforced Composites is expected to continue to rise due to its excellent performance. For example, in the automotive field, the trend of lightweighting of automobiles and the requirements for high load-bearing capacity and heat resistance of components will make its application in automotive manufacturing more extensive. In the aerospace field, the high requirements for material strength and stability will also promote its use. Further improvement of performance: Relevant research and technological innovation may prompt the continuous optimization of the material's performance. For example, by improving the distribution of carbon fibers and enhancing the interfacial bonding force, key performances such as mechanical strength, stiffness, heat resistance, and wear resistance can be further enhanced. Expansion into new application fields: In addition to the existing fields such as automobiles, aerospace, electronics, and electrical appliances, application opportunities may be found in more fields in the future. For instance, its application in high-end sports equipment, medical devices, new energy, and other fields is expected to expand. Deepening of domestic production: Currently, some key raw materials may rely on imports. With technological progress and industrial development, the degree of domestic production is likely to increase, which will help reduce costs, improve supply stability, and promote the wider application of this material in the domestic market. Composites with other materials: It may be combined with other materials to obtain more comprehensive performance and meet the needs of complex application scenarios. Improvement of processing technology: Continuously improve the processing technology to increase production efficiency, reduce costs, and achieve more complex product shapes and structures. Sustainable development: Against the backdrop of environmental protection and sustainable development, the future development may pay more attention to the recyclability of materials, reducing energy consumption and emissions during the production process, and other aspects. In conclusion, PA66 CF Reinforced Composites has a good development prospect in the future, but its specific development trend will also be affected by various factors such as technological breakthroughs, changes in market demand, policy orientation, and industry competition.
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How to improve the thermal stability of PA66 CF composites?
The following are some methods to improve the thermal stability of PA66 CF composites: Optimize carbon fiber content: Control the optimal proportion of carbon fiber content. Choose the right type of carbon fiber: Some types have better high-temperature resistance. Improve the preparation process: Optimize parameters such as injection molding to make the structure uniform and dense. Add thermal stabilizers: Such as antioxidants and thermal stability additives. Surface treatment: Improve the interfacial bonding between carbon fibers and the matrix. Composite modification: Compound with other high-temperature resistant materials. For example, in specific industrial applications, careful material selection and treatment, and the addition of additives can significantly improve the thermal stability.
