new material
Carbon/Carbon composite connecting plates are high-performance structural components designed for industrial applications requiring superior mechanical strength, thermal resistance, and electrical conductivity. Manufactured using advanced carbon-carbon composite materials, these plates provide optimized durability, minimal thermal expansion, and exceptional load-bearing capacity. They are widely used in aerospace engineering, semiconductor manufacturing, high-temperature furnace systems, and energy storage applications, ensuring reliable structural stability in extreme conditions.
Product Overview
The Carbon-Carbon Composite Connecting Plate is made from high-strength carbon fibers and high-purity carbon materials, offering excellent high-temperature performance, corrosion resistance, and tensile strength. It is widely used in advanced technology fields such as aerospace and rocket missiles. The plate excels in areas such as weight, corrosion resistance, thermal expansion, and thermal stability, particularly in extreme working environments.
Key Features
- High Tensile Strength: Exhibits very high tensile strength and a superior strength-to-weight ratio, ideal for high-strength applications.
- High Modulus Performance: The elastic modulus exceeds 240 GPa, offering excellent rigidity and stability.
- Lightweight & High Strength: Its density is less than a quarter of steel and half that of aluminum alloys, with a specific strength 16 times that of steel and 12 times that of aluminum alloys.
- High-Temperature and Low-Temperature Resistance: Can operate stably at temperatures up to 3000°C, while still maintaining flexibility at -180°C.
- Corrosion Resistance: Resists acids and corrosion from various media, making it suitable for use in harsh environments.
- Low Thermal Expansion: It resists cracking under large temperature fluctuations, ensuring structural stability.
- Radiation Shielding: Provides effective radiation protection, making it suitable for high-radiation environments such as nuclear applications.
- Electrical Conductivity: Offers good electrical conductivity, making it suitable for applications requiring electrical conductivity.
Applications
- Aerospace: Used in high-temperature components for rockets, missiles, and aerospace equipment.
- High-Temperature Environments: Ideal for structural components in applications such as jet engines, high-temperature gas turbines, and rocket engines.
- Military Industry: Used in key components requiring corrosion resistance, heat stability, and durability.
- Radiation Protection: Widely used in the nuclear industry and nuclear power plants as a radiation protection material.
- High-Tech Industries: Applied in conductors, high-strength connection plates, and other high-precision industries.
