Technical Specifications:
- Chemical Composition:
- Primary Ingredient: Tungsten Carbide (WC).
- Purity: 99.95% (ultra-high purity for advanced industrial and technological applications).
- Particle Size:
- Particle Size Range: 30–100 nm (nanometers).
- Particle Shape: Spherical or slightly irregular, depending on synthesis method.
- Crystal Structure:
- Structure: Hexagonal close-packed (hcp), contributing to excellent hardness and durability.
- Thermal Properties:
- Melting Point: ~2,870°C, suitable for extreme thermal environments.
- Thermal Conductivity: High (~84 W/m·K), enabling efficient heat dissipation.
- Thermal Stability: Exceptional resistance to high temperatures and thermal shock.
- Mechanical Properties:
- Hardness: Extremely hard (~9 on the Mohs scale).
- Density: ~15.7 g/cm³, making it ideal for applications requiring high mass density.
- Color: Gray or metallic gray.
Applications:
- Cutting Tools and Wear-Resistant Components:
- Purpose: High hardness and durability make WC ideal for cutting and machining applications.
- Application: Used in carbide tools, milling cutters, and drill bits for precision machining.
- Abrasives:
- Purpose: Exceptional hardness makes WC effective in abrasive applications.
- Application: Incorporated into grinding wheels, polishing compounds, and surface finishing materials.
- Coatings:
- Purpose: Provides wear resistance, thermal stability, and corrosion protection.
- Application: Used as a coating for industrial machinery, molds, and automotive components.
- Aerospace and Defense:
- Purpose: Combines lightweight properties with high strength and thermal resistance.
- Application: Utilized in turbine blades, structural components, and high-performance aerospace applications.
- Metal Matrix Composites (MMCs):
- Purpose: Reinforces composites to enhance mechanical properties such as strength and wear resistance.
- Application: Added to MMCs for aerospace, automotive, and industrial applications.
- Energy Storage:
- Purpose: Improves the performance and stability of energy storage devices.
- Application: Used in electrodes for lithium-ion batteries, supercapacitors, and other advanced energy systems.
- Catalysis:
- Purpose: Acts as a catalyst or support material in various chemical reactions.
- Application: Utilized in hydrogen production, hydrocarbon reforming, and other catalytic systems.
- Additive Manufacturing:
- Purpose: Enhances the thermal and mechanical properties of 3D-printed materials.
- Application: Integrated into advanced powders and resins for additive manufacturing processes.
- Nuclear Applications:
- Purpose: High-temperature stability and radiation resistance make WC suitable for nuclear environments.
- Application: Used in reactors and as a structural material in nuclear applications.
- Wear-Resistant Parts:
- Purpose: Provides longevity and performance under extreme stress.
- Application: Used in bearings, valves, and other high-wear industrial components.
Key Benefits:
- Superior Hardness and Durability: Ideal for cutting tools, abrasives, and high-wear applications.
- Thermal Stability: Maintains structural integrity under extreme temperatures.
- Corrosion Resistance: Excellent resistance to oxidation and chemical degradation.
- High Purity: Ensures consistent performance for sensitive applications in aerospace, energy, and catalysis.
- Nanoscale Properties: Enhanced reactivity and surface area improve dispersion in composites and coatings.
Tungsten Carbide Nanopowder (WC) is a high-performance material for cutting tools, abrasives, coatings, composites, and energy applications, offering exceptional hardness, thermal stability, and wear resistance for advanced industrial and technological innovations.
