The Top Applications of Tungsten Carbide
There are numerous metal compounds all over the world used for different purposes however, none of them possess the specific features of tungsten carbide. When carbon is combined with tungsten, and alloy which is resistant to pitting, scratches, heat and rust is formed. In addition to this, carbide also has a very high density with a hardness close to diamond, great conductivity and an overall strength three times greater than that of steel. Carbide is capable of being grafted or melded with other metals without any fuss, sharpened with great precision and can be moulded into various shapes with relative ease. Top it all off, tungsten carbide scrap is among the best compounds for recycling in its class, which makes this alloy particularly valuable for nearly any kind of application. Here are some ways in which tungsten carbide can be put to great use.
Drilling and mining tools manufactured from cemented carbide have extensive construction applications and are responsible for the greatest use of tungsten carbide anywhere across the world. As a matter of fact, 65% of the tungsten carbide market worldwide goes into making cutting and mining tools such as drill bits and mining tips. Due to their incredible hardness and excellent resistance to wear and tear, most people prefer tungsten carbide products to stainless steel. Even though carbide tips and bits are very durable, they still require to be replaced periodically. However, it is quite fortunate that the material has great recycling incentives, which gives us yet another reason to consider its mass use. For each pound of tungsten carbide scrap, carbide recycling facilities such as carbide-USA could pay you top prices. This is necessary in keeping production costs low, while ensuring workers utilize the best quality tools and accessories every day.
Tungsten carbide is a useful material in the production of industrial alloys. It is approximated that about 17% of tungsten carbide usage is derived from the creation of composite materials and specialized alloys which contain other metals. Carbide can be combined with metals such as copper, silver, nickel and iron to form materials necessary for; commercial construction, industrial gear making, manufacturing electronics, the aeronautical industry and making radiation shielding materials.
Out of the global supply of tungsten carbide, slightly over 10% is utilised in the exclusive manufacture of different mill products which include but are not limited to mill inserts, and different kinds of end mills. Based on the material they are intended to come into contact with, such products vary in shape and size, but eventually end up being used in milling and grinding. Owing to carbide’s extreme hardness and ease of molding, it is possible to make accessories for precise milling with yields of the finest powder or coarsely grounded material.