The melting temperature of tungsten carbide is about 3140 degrees Celsius or 7500 degrees Fahrenheit. This means that it is a very stable compound and can be used for applications such as heating coils, filaments, tubes and other types of heating devices.
The tungsten in the alloy is the main component and it is often mixed with other elements like nickel and copper to add strength and durability. It is also plated onto sections of rockets and missiles that need to withstand tremendous heat, such as the engine nozzles that eject explosive streams of rocket fuel.
Tungsten is a hard, very dense, and extremely strong element that has a relatively high melting point. This property makes tungsten a great choice for many industrial applications and it is a valuable resource in the mining, construction, and metalworking industries.
It is a very good conductor of electricity and is also known for its excellent wear resistance. It can be used in a variety of applications and is especially useful for drilling holes and cutting through materials such as solid rock.
Alloying tungsten with carbon is a common method of preparing tungsten carbide. The carbon atoms in the alloy are bonded with tungsten atoms, creating a harder and more durable material than pure tungsten.
Another method of producing tungsten carbide is by reacting tungsten with hydrogen in a fluid bed process at temperatures between 1400 and 2000 degC. This method has been around since the late 1980s and is a cheaper option than other methods.