new material
Ti(C,N) metal ceramic sheets are high-performance materials featuring superior hardness, excellent wear resistance, and enhanced thermal stability. Manufactured through advanced sintering techniques, they are widely used in cutting tools, aerospace applications, and industrial machinery for precision engineering.
Product Overview
Ti(C,N) metal ceramic sheets are made from a composite of titanium, carbon, and nitrogen, offering excellent hardness, wear resistance, and oxidation resistance. This material combines the toughness and strength of metals with the high hardness and high-temperature resistance of ceramics, making it especially suitable for industrial applications in high-pressure, high-temperature, and harsh environments. Ti(C,N) metal ceramic sheets are widely used in tools, molds, and other applications that require high wear resistance and strength, providing long-term stability and excellent performance under extreme conditions.
Features
- High Hardness: Ti(C,N) metal ceramic sheets have exceptional hardness, making them ideal for handling high-intensity wear environments.
- Strong Wear Resistance: Excellent wear resistance makes them suitable for high-load and high-frequency abrasion environments, extending the tool's service life.
- High-Temperature Resistance: Ti(C,N) metal ceramics offer good thermal stability, maintaining performance at high temperatures without softening or deformation.
- Oxidation Resistance: With superior oxidation resistance, these materials can withstand long-term use in oxidative environments without degradation.
- High Strength: Combining the hardness of ceramics and the toughness of metals, these materials maintain excellent performance under impact loads.
- Good Thermal Conductivity: The good thermal conductivity of Ti(C,N) metal ceramics ensures stability and precision during high-temperature machining processes.
Applications
- Cutting Tool Manufacturing: Ideal for the production of cutting tools and drill bits, particularly for precision machining of hard materials.
- Mold Manufacturing: Widely used in the production of high-wear, high-strength molds, especially for metal forming, stamping, and other processes.
- Aerospace: Used in the aerospace industry for manufacturing high-performance parts that can withstand high temperatures and pressures.
- Automotive Manufacturing: Used in the automotive industry for producing high-wear parts, such as engine components and transmission parts.
- Machining: Commonly used in the cutting, milling, and grinding of high-hardness materials, offering high efficiency and precision.
- Metallurgical Industry: Used in the production of wear-resistant, corrosion-resistant parts, particularly for equipment operating in high-temperature environments.
