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Erosion Resistance Tungsten Copper Alloy Block 14.1 - 17.0g/Cm3

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September 28, 2022
Category Connection: Tungsten Copper Alloy
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Tags:
#tungsten copper plate #tungsten copper electrode #tungsten copper rod
Brief: Discover the high-performance Arc Erosion Resistance Tungsten Copper Alloy Block with a density range of 14.1-17.0g/cm3. Ideal for aerospace, electronics, and high-voltage applications, this alloy combines tungsten's high melting point with copper's excellent conductivity for superior durability and performance.
Related Product Features:
  • High-density tungsten copper alloy with excellent arc erosion resistance for demanding applications.
  • Combines tungsten's high melting point (3410°C) and copper's superior electrical and thermal conductivity.
  • Available in various grades (WCu7 to WCu50) to suit different industrial needs.
  • Uniform microstructure ensures high temperature resistance and mechanical strength.
  • Easy to machine and dimensionally stable, making it ideal for precision components.
  • Used in aerospace, electronics, and high-voltage switches due to its reliable performance.
  • Low arc erosion rates achieved with optimal tungsten content (60-90%).
  • Metal sweat material properties absorb heat at extreme temperatures (above 3000°C).
FAQs:
  • What are the main applications of tungsten copper alloy blocks?
    Tungsten copper alloy blocks are widely used in aerospace, aviation, electronics, high-voltage switches, EDM electrodes, and military applications due to their high temperature resistance and excellent conductivity.
  • How does the tungsten content affect the alloy's performance?
    The tungsten content (60-90%) significantly influences arc erosion resistance and thermal properties. Higher tungsten content (e.g., 80%) provides the lowest arc erosion rates, making it ideal for high-performance applications.
  • Why is tungsten copper alloy considered a metal sweat material?
    At extreme temperatures (above 3000°C), the copper in the alloy liquefies and evaporates, absorbing heat and reducing surface temperature. This unique property makes it effective for high-heat applications.
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