Introduction to PA12 LCF5

PA12 LCF5 is a high-performance thermoplastic composite material. It uses Nylon 12 as the base material and incorporates 5% long carbon fibers as reinforcing fillers. The superior properties of this material have led to its wide application in multiple fields.

Composition Components
The basis of PA12 LCF5 is Nylon 12. This material itself has excellent toughness and chemical resistance. By adding 5% long carbon fibers, the strength and rigidity of the material are enhanced, enabling it to exhibit better stability under load.

Performance Advantages
1. Superior Mechanical Strength: The addition of long carbon fibers significantly improves the tensile strength and flexural strength of the material.
2. Good Heat Resistance: It can maintain good physical properties in high-temperature environments, making it suitable for high-temperature applications.
3. Chemical Corrosion Resistance: It shows excellent corrosion resistance to various chemical substances, making it applicable in the chemical industry.
4. Low Water Absorption: The relatively low water absorption rate allows this material to maintain stable performance even in humid environments.
5. Lightweight and High Strength: Compared with metal materials, PA12 LCF5% is lighter in weight while ensuring strength, which helps reduce the overall weight of the product.
6. Good Electrical Insulation: In applications in the electrical field, this material exhibits outstanding insulation performance.

Production Process
PA12 LCF5 is produced using an infiltration process. During this process, long carbon fibers and the Nylon 12 base material are combined through hot melting, achieving uniform dispersion and ensuring the consistency of the composite material’s performance.

Application Fields
PA12 LCF5 is widely used in multiple fields such as automobiles, aerospace, electronics and electrical, and medical devices. For example, it is used in structural parts in the automotive industry, lightweight components in aircraft, and antistatic parts in electronic products.

Application Case: Practice in Antistatic Products

During the manufacturing process of electronic products, electrostatic discharge (ESD) is a potential threat that can lead to circuit damage and a decline in product performance. To solve this problem, an electronic equipment manufacturer decided to use PA12 LCF5 composite material to manufacture the casing of its products.

The manufacturer chose Carbon (Xiamen) New Material as the supplier of PA12 LCF5. This material has excellent performance in terms of antistatic properties, with a surface resistivity lower than 10^-6 Ω, meeting the antistatic standards for electronic products. The casing is designed as a lightweight structure, taking advantage of the low water absorption property of PA12 LCF5 to ensure stable performance even in humid environments.

During the production process, after strict testing, the final product still demonstrated good electrical insulation and antistatic performance in extreme environments. According to the test data, compared with traditional materials, the casing made of PA12 LCF5 material has shortened the electrostatic release time by 20%, significantly reducing the impact of static electricity on internal components.

Through the application of this material, the manufacturer has successfully improved the reliability and market competitiveness of its products, demonstrating the great potential of PA12 LCF5 in the field of antistatic for electronic equipment.

Obtain information such as product specifications, performance, and prices, and then select a suitable product according to your own requirements. At the same time, you can ask the manufacturer to provide samples for testing to ensure that the material meets your usage requirements.

If you are interested in purchasing this composite material, please directly contact the manufacturer, Carbon (Xiamen) New Material.

If you want to obtain more information about carbon fiber-reinforced modified thermoplastic composite materials by watching videos, please click here.