Amazing Advantages Of Using Tungsten
Tungsten is a pure silver-white and lustrous metal, this metal resists attacks from alkalis, acids, and oxygen. Tungsten carbide is an alloy of tungsten, predominantly carbon, nickel, and titanium. Tungsten itself a strong metal when it combines others, it maximizes its positive characteristics. This combination creates really strong products like the tungsten carbide button and tungsten carbide rings which are highly durable. Tungsten is a most durable and strong metal, is used across hundreds of industries in a great variety of applications. Here are some advantages of tungsten outlined, which explain why it is used so widely.
High density:
Tungsten profits from a very high density. It is the highest among all the metals. As a result of this advantage of high density, it can hold much more weight in a small package. It is commonly used where high mass is required in a small size. For instance, it is a fantastic option for making aircraft ballast, racing car ballast, and kinetic munitions, due to the tungsten high-density property.
Low thermal expansion:
Tungsten metal has the lowest coefficient of thermal expansion among all pure metals. If you compared to common manufacturing materials like steel, this provides it the advantage of added stability under high heat also. The structural solidity of tungsten unmatched by other metals. Especially it is useful when strong rigidity is required at high temperatures.
Resistance to high temperature:
Among all the purest metals, tungsten pure metal has the highest melting point that is 3422°C. It is highly beneficial in many situations. For example, this property makes tungsten a perfect material for high-temperature environments. Due to this nature, it is widely used in the automatic, aerospace, and construction industries. Regularly, it is used to create alloys and super-alloys. Due to the extremely high melting point, it strengthens the alloy.
Electronic structure:
Tungsten metal is widely used in environments involving high levels of radiations and electronics industry because of tungsten conductive properties and relative inertness. Along with tungsten very high density, it is the main source of metal for X-ray targets and many other high-energy radiation shields. Frequently this metal finds use in electrodes, conductors, and metallic films.