Technical Specifications:
- Chemical Composition:
- Primary Ingredient: Zirconium Nitride (ZrN).
- Purity: 99.9% (high purity for advanced industrial applications).
- Particle Size:
- Particle Size: 800 nm (nanometers).
- Particle Shape: Typically cubic or irregular, depending on the synthesis method.
- Crystal Structure:
- Structure: Cubic, contributing to excellent mechanical, thermal, and electrical properties.
- Thermal Properties:
- Melting Point: ~2,980°C, making it suitable for extreme temperature applications.
- Thermal Conductivity: ~30 W/m·K, ensuring efficient heat dissipation.
- Thermal Stability: High resistance to thermal shock and extreme conditions.
- Mechanical Properties:
- Hardness: High hardness (~8–9 on the Mohs scale), ideal for wear-resistant applications.
- Density: ~7.09 g/cm³.
- Color: Yellowish-gold.
Applications:
- Coatings:
- Purpose: Provides wear resistance, oxidation protection, and a decorative golden finish.
- Application: Used in cutting tools, molds, dies, and decorative coatings for jewelry and watches.
- Aerospace and Defense:
- Purpose: Combines high strength, wear resistance, and thermal stability for aerospace components.
- Application: Utilized in high-temperature turbine blades, thermal protection systems, and structural components.
- Electronics:
- Purpose: High electrical conductivity and thermal stability make ZrN suitable for electronic applications.
- Application: Used in thin films, electrodes, and thermal management systems for semiconductors.
- Hard Coatings for Tools:
- Purpose: Enhances durability and lifespan of tools under high wear and stress conditions.
- Application: Applied to cutting tools, drills, and high-performance machining components.
- Energy Applications:
- Purpose: Improves stability and efficiency in energy storage and conversion devices.
- Application: Incorporated into advanced energy systems, including batteries and fuel cells.
- Nuclear Applications:
- Purpose: High melting point and radiation resistance make ZrN suitable for nuclear environments.
- Application: Used in nuclear reactors and as a protective material in nuclear systems.
- Additive Manufacturing:
- Purpose: Enhances the thermal and mechanical properties of 3D-printed materials.
- Application: Integrated into advanced powders for additive manufacturing.
- Catalysis:
- Purpose: Acts as a catalyst or support material in chemical processes.
- Application: Used in hydrocarbon reforming, hydrogen production, and other catalytic reactions.
- Biomedical Applications:
- Purpose: Biocompatibility and chemical stability make it suitable for medical devices.
- Application: Used in implants, surgical instruments, and prosthetic coatings.
- Decorative Applications:
- Purpose: Yellowish-gold color provides an attractive and durable finish.
- Application: Applied in luxury goods such as watches, jewelry, and decorative architectural elements.
Key Benefits:
- High Hardness and Wear Resistance: Ideal for coatings, cutting tools, and high-stress applications.
- Thermal and Electrical Conductivity: Suitable for electronics and energy systems.
- Chemical and Oxidation Resistance: Ensures long-term performance in harsh environments.
- Aesthetic Appeal: Distinctive golden color adds decorative value alongside functional durability.
- Nanoscale Properties: High surface area enhances reactivity and integration into composites.
Zirconium Nitride Nanopowder (ZrN) is a high-performance material for coatings, aerospace components, electronics, and decorative applications, offering exceptional durability, thermal stability, and electrical conductivity for advanced industrial and technological innovations.
