PA66-LCF50 UV-resistant Material

PA66-LCF50 UV-resistant Material - Carbon Fiber Compounds Manufacturer | Supplier

PA66-LCF50 is a composite material made of 50% carbon fiber-reinforced polyamide 66 (PA66), offering exceptionally high strength, rigidity, and heat resistance. This material is suitable for applications that require high load-bearing capacity and high-temperature environments, such as automotive, aerospace, and industrial equipment, providing significant dimensional stability and impact resistance. With the addition of carbon fibers, PA66-LCF50 also exhibits improved thermal conductivity and a lower friction coefficient, making it ideal for applications requiring wear resistance.

Model number: PA66-LCF-BCA5
Matrix Resin: Nylon6 6(Polyamide66) (PA66)
Reinforcing Filler: Carbon fiber
Appearance: Granules
Grade: Injection/extrusion grade
Packaging: 25kgs/bag

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PA66-LCF50 Overview

Definition: PA66-LCF50 is a high-performance composite material that combines nylon 66 (PA66) with 50% long carbon fiber reinforcement. This advanced composite significantly enhances strength, stiffness, and wear resistance while keeping a manageable weight, making it ideal for very demanding applications in engineering and industrial sectors that require extreme mechanical performance, high load-bearing capacity, and durability.

Key Features of PA66-LCF50

Exceptional Tensile Strength:
With 50% long carbon fiber, PA66-LCF50 achieves a tensile strength that surpasses that of PA66-LCF30, reaching even higher values ideal for high-stress applications. This allows it to handle heavier mechanical loads and perform reliably in applications where the highest level of strength is critical.

Increased Stiffness and Durability:
The 50% carbon fiber content dramatically boosts the material’s stiffness and durability, making it highly resistant to deformation under stress. PA66-LCF50 can support sustained loads in challenging environments, positioning it as an excellent choice for applications demanding maximum rigidity and long-term structural integrity.

Enhanced Impact and Wear Resistance:
PA66-LCF50 offers a notable improvement in impact resistance, performing well in dynamic applications and environments with frequent impact or vibrations. Additionally, its wear resistance is exceptional, ideal for components exposed to high friction or continual movement, such as gears and bushings, reducing maintenance and enhancing service life.

Application Industries

Automotive Industry:
PA66-LCF50 is suitable for critical, high-strength automotive components like suspension parts, engine housings, and structural mounts that require extreme durability and stability. Its high strength-to-weight ratio supports lightweighting in vehicles without sacrificing performance.

Industrial Equipment:
In industrial machinery, PA66-LCF50 serves in components such as brackets, bearings, and support structures that must withstand high loads, resist wear, and endure high-impact forces, ensuring reliable long-term operation even in harsh environments.

Consumer Goods:
High-performance consumer products, including sports equipment, power tools, and high-durability electronic housings, benefit from PA66-LCF50’s robust properties, offering users long-lasting products that resist impact, wear, and environmental stressors.

Summary Table

Category	Details
Definition	PA66-LCF50: A composite material with 50% long carbon fiber in PA66.
Advantages	1. Exceptional Tensile Strength: Higher than PA66-LCF50.
	2. Increased Stiffness and Durability.
	3. Superior Impact and Wear Resistance.
Industries of Application	1. Automotive Industry
	2. Industrial Equipment
	3. Consumer Goods

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PA66-CF strength

PA66-LCF (Polyamide 66 with Long Carbon Fiber) is a high-strength composite material that combines the durability of polyamide 66 with the reinforcing properties of long carbon fibers. This combination significantly enhances the material's tensile strength, flexural strength, and impact resistance. PA66-LCF offers superior mechanical performance, with improved stiffness and dimensional stability, making it suitable for high-stress applications in automotive, aerospace, and industrial sectors. Its exceptional strength and durability under extreme conditions make it ideal for components that require both toughness and lightweight characteristics.

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PA66-LCF heat resistance

PA66-LCF (Polyamide 66 with Long Carbon Fiber) offers excellent heat resistance, maintaining its mechanical properties at elevated temperatures. With a high heat deflection temperature, it is suitable for applications in automotive engine compartments, industrial machinery, and other high-temperature environments. This enhanced thermal stability ensures PA66-LCF performs reliably even under prolonged exposure to heat.

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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.
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.
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.
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.
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.
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.