new material
Carbon/Carbon composite crucible products are high-performance refractory containers designed for extreme thermal environments, offering superior heat resistance, chemical stability, and mechanical durability. Manufactured using advanced carbon-carbon composite materials, these crucibles provide optimized thermal conductivity, minimal thermal expansion, and extended service life. They are widely used in metallurgical refining, semiconductor processing, aerospace applications, and high-temperature furnace operations, ensuring reliable material containment and high-efficiency thermal management.
Product Overview
The Carbon/Carbon composite crucible is specifically designed for the high-temperature carbonization process after coating lithium battery anode materials. It offers excellent high-temperature performance and chemical stability. This product is durable with a long service life, large loading capacity, high strength, low ash content, and exceptional impact resistance. It can withstand high temperatures and meet complex process requirements. Carbon/Carbon composite crucibles are widely used in high-temperature material processing and metallurgy, providing efficient solutions for demanding industries.
Key Features
- Long Service Life: The material has a long service life, making it suitable for long-term high-temperature operation and reducing the frequency of replacements.
- Large Loading Capacity: The crucible can accommodate a large amount of material, enhancing production efficiency.
- High Strength: The crucible is highly mechanically strong, able to withstand heavy loads and impacts, making it ideal for high-strength environments.
- Low Ash Content: The low ash content ensures that no impurities are introduced during processing, making it perfect for applications that require high purity.
- Excellent Impact Resistance: The material can resist impacts, even under high temperatures or other extreme conditions, ensuring stable processing.
Applications
- Battery Industry: Used in the high-temperature carbonization process after coating lithium battery anode materials, ensuring stability and efficiency throughout the process.
- High-Temperature Metallurgy: Widely used in the metallurgy industry in high-temperature environments, as a high-strength, heat-resistant material.
- Heat Treatment: Suitable for high-temperature heat treatment processes, withstanding both temperature and material loading pressure.
- Material Processing: Acts as a crucial container material during high-temperature processing of ceramics, graphite, and other materials, providing reliable support.
- Chemical Industry: Used as containers and reaction vessels in high-temperature chemical processes, ensuring chemical stability and heat resistance.
| Indicator Name | Unit | 2D C/C Sagger | 2.5D C/C Sagger | Graphite Sagger |
| Design Thickness | mm | 6~8 | 6~8 | 12.5-15 |
| Bending Strength | MPa | ≥50 | ≥35 | ≥18 |
| Compressive Strength | MPa | ≥125 | ≥115 | ≥30 |
| Ash Content | % | ≤0.08 | ≤0.08 | ≤0.5 |
| Thermal Shock Resistance | - | Strong | Strong | Weak |
| Impact Resistance | - | Strong | Strong | Weak |
| Wear Resistance | - | Strong | Strong | Weak |
| High-Temperature Service Life | - | Long | Long | Short |
