Tungsten-copper alloys are known for their copper content ranging from 10% to 50%.

2. The alloy is produced by powder metallurgy, offering excellent electrical and thermal conductivity, high-temperature strength, and strong plasticity.

At extremely high temperatures, such as below 3000°C, copper in the alloy will undergo liquefaction and evaporation, absorbing a large amount of heat and reducing the surface temperature of the material.

Therefore, these two types of materials are not only referred to as metal wicking materials.

5. Tungsten copper alloy combines the benefits of both metals, tungsten and copper. Tungsten has a high melting point (with a melting point of 3410°C), and copper has a melting point of 1080°C. Additionally, tungsten has a high density (19.25g/cm³), while copper has a density of 8.92/cm³.

6. Copper boasts superior conductivity and heat transfer properties. Tungsten copper alloys (with compositions generally ranging from WCu7 to WCu50) exhibit uniform microstructure, high-temperature resistance, high strength, resistance to electrical arc erosion, and a large density.