A Quick Rundown of

The Top Applications of Tungsten Carbide

Many metal compounds exist across the planet and are heavily used for various purposes however, none of them have the particular properties of tungsten carbide. By combining carbon and tungsten, and alloy is formed that exhibits great resistance to pitting, heat, scratches and rust. 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. This compound is capable of being moulded into numerous shapes, sharpened with precision and can be grafted or melded with different metals without any problems. To top it all off, scrap from tungsten carbide is a very recyclable material, making this alloy very useful for virtually all kinds of applications. The following are some top applications of tungsten carbide.

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. In fact, approximately 65% of the global tungsten carbide market is used to manufacture mining and cutting 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. Despite the incredible durability of carbide tips and bits, replacing them periodically is still unavoidable. 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 helps ensure production costs are low while workers still get to use the best quality tools and accessories every day.

Numerous industrial alloys can be made from tungsten carbide. It is thought that about 17% of the tungsten carbide used is derived from the creation of composite materials and specialized alloys containing other metals. Carbide can be combined with other materials such as copper, nickel, silver and iron to create materials necessary for industrial gear making, commercial construction applications, the aeronautical industry, radiation shielding materials and the manufacture of electronics.

Of the world’s global tungsten carbide supply, slightly over 10% is used for the exclusive manufacture of 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.

The Essential Laws of Explained

The Essential Laws of Explained