Technical Specifications:
- Chemical Composition:
- Primary Ingredient: Tantalum Carbide (TaC).
- Purity: 99+% (high purity for advanced applications).
- Particle Size:
- Particle Size: 300 nm (nanometers).
- Particle Shape: Typically spherical or irregular, depending on the synthesis process.
- Crystal Structure:
- Structure: Cubic, known for its exceptional mechanical and thermal properties.
- Hardness:
- Extremely hard (~9–10 on the Mohs scale), making it suitable for wear-resistant applications.
- Thermal Properties:
- Melting Point: ~3,880°C, among the highest melting points of any material.
- Thermal Conductivity: High (~21–27 W/m·K), ensuring efficient heat dissipation.
- Thermal Stability: Retains properties at extreme temperatures.
- Density: ~14.5 g/cm³.
- Color: Gray to black.
Applications:
- Cutting Tools and Wear-Resistant Components:
- Purpose: High hardness and wear resistance make TaC ideal for machining and abrasive applications.
- Application: Used in carbide tools, cutting blades, and wear-resistant coatings.
- Refractory Materials:
- Purpose: Exceptional thermal stability and high melting point make TaC suitable for extreme environments.
- Application: Used in furnace linings, crucibles, and high-temperature reactor components.
- Aerospace and Defense:
- Purpose: Combines high strength and thermal resistance for aerospace applications.
- Application: Utilized in rocket nozzles, heat shields, and hypersonic vehicle components.
- Hard Coatings:
- Purpose: Protects surfaces from wear, corrosion, and extreme temperatures.
- Application: Applied as a coating for industrial tools, molds, and high-stress machine parts.
- Energy Storage Devices:
- Purpose: Enhances the performance of energy storage systems.
- Application: Used as a material for electrodes in supercapacitors and other advanced energy devices.
- Additive Manufacturing:
- Purpose: Improves the mechanical and thermal properties of 3D-printed materials.
- Application: Incorporated into powders and resins for high-performance additive manufacturing processes.
- Nuclear Applications:
- Purpose: High-temperature stability and resistance to radiation make TaC suitable for nuclear applications.
- Application: Used in reactors and as a structural material for nuclear systems.
- Composites:
- Purpose: Reinforces composites to improve mechanical strength and wear resistance.
- Application: Added to metal and ceramic matrix composites for aerospace, automotive, and industrial applications.
- Catalysis:
- Purpose: Acts as a catalyst or catalyst support in chemical reactions.
- Application: Used in hydrocarbon reforming, hydrogen production, and other catalytic processes.
- Thermal Management Systems:
- Purpose: High thermal conductivity makes TaC effective for heat dissipation.
- Application: Used in heat exchangers, cooling systems, and thermal barriers.
Key Benefits:
- Ultra-High Melting Point: Ideal for applications in extreme thermal environments.
- Exceptional Hardness: Provides superior wear resistance for cutting tools and coatings.
- Thermal Stability: Maintains structural and mechanical properties at extreme temperatures.
- Chemical Inertness: Resistant to oxidation, corrosion, and chemical degradation.
- Versatility: Suitable for aerospace, automotive, energy, and industrial applications.
Tantalum Carbide Nanopowder (TaC) is a cutting-edge material for cutting tools, refractory materials, aerospace components, and energy storage, offering unparalleled thermal resistance, hardness, and durability for advanced industrial and technological applications.