Carbon/Carbon Composite Box Products

Product Overview
Carbon/Carbon composite boxes are designed specifically for the high-temperature graphitization process of lithium-ion battery anode materials. This advanced material combines the excellent properties of carbon fibers and carbon-based materials, offering exceptional electrical performance, high specific strength, excellent thermal shock resistance, and high space efficiency. Compared to traditional graphite materials, carbon/carbon composites provide superior cost-performance at high temperatures, making them ideal for use in demanding environments where high temperature, stability, and strength are required.

Key Features

• Excellent Electrical Performance: The material maintains stable electrical properties, even under high temperature and high current conditions.
• High Specific Strength: Carbon/Carbon composites offer outstanding specific strength, making them ideal for lightweight and high-strength applications.
• Superior Thermal Shock Resistance: These materials can withstand thermal shocks even at high temperatures, ensuring long-term stability and reliable performance.
• High Space Efficiency: With its high strength and heat resistance, the material allows for more compact designs, saving space.
• Outstanding High-Temperature Performance: Compared to traditional materials, Carbon/Carbon composites have better high-temperature stability and thermal conductivity, making them suitable for high-temperature processing environments.

Applications

• Battery Industry: Used in the high-temperature graphitization process for lithium-ion battery anode materials, providing a stable environment for the process.
• High-Temperature Metallurgy: Employed as a high-temperature container material in metal smelting and heat treatment processes.
• Aerospace: Ideal for high-temperature environments in the aerospace industry, offering reliable performance in extreme conditions.
• High-Temperature Chemical Processes: Used for efficient thermal insulation and stable control in high-temperature chemical reactions.
• High-Temperature Experiments: Suitable for scientific research and experimental environments that require stable operation under high-temperature conditions.