Porous tantalum carbide graphite ring is a high-performance, high-temperature-resistant, and corrosion-resistant advanced material. It is widely employed in sealing and insulation components within high-temperature, high-pressure, and highly corrosive environments. This product combines the excellent properties of tantalum carbide and graphite, exhibiting outstanding thermal stability, electrical conductivity, and resistance to chemical corrosion. It is suitable for various fields including aerospace, semiconductor, chemical, and metallurgical industries.
Key Features
High-Temperature Resistance: The Porous Tantalum Carbide Graphite Ring operates stably in extreme temperatures (up to 3000°C), making it ideal for ultra-high-temperature environments.
Exceptional Corrosion Resistance: Leveraging the corrosion-resistant properties of tantalum, the product withstands acids, alkalis, and other aggressive chemical substances.
High Strength and Hardness: The material combination delivers outstanding mechanical strength and hardness, enabling it to endure significant pressure and friction.
Superior Thermal and Electrical Conductivity: The graphite component enhances thermal and electrical conductivity, maintaining reliable performance even under high temperatures.
Porous Structure: Its uniquely designed porous structure provides enhanced vibration damping and noise reduction, suited for demanding operational conditions.
Technical Specifications
Material: Tantalum Carbide-Graphite Composite
Shape: Ring/Customizable
Porosity: 15% – 35% (Customizable upon request)
Compressive Strength: >300 MPa
Temperature Range: -200°C to 3000°C
Electrical Conductivity: High conductivity, suitable for electrical applications
Chemical Stability: Exceptional resistance to most acids, alkalis, and oxidizing agents
Product Advantages
High Stability: Maintains structural integrity under extreme operating conditions, resisting deformation or damage.
Customization Services: Offers tailored porosity, dimensions, and shapes to meet specialized application requirements.
Energy Efficiency & Eco-Friendliness: Superior thermal conductivity and stability enhance operational efficiency while reducing energy consumption.
Long-Term Durability: Exceptional corrosion and temperature resistance ensure extended service life, lowering replacement frequency and lifecycle costs.
