Top Industries Where Tungsten Carbide Industrial Products Are Used Extensively

Tungsten carbide is a very hard substance that is commonly used in industrial applications to produce metals such as steel, aluminum, and brass. Because carbide is so hard, it's a great material for making cutting tools, especially for cutting metals. It's three times tougher and twice as dense as steel. Cemented carbide, commonly known as tungsten carbide, is a chemical compound made up of tiny carbide particles cemented together by a binder metal, usually cobalt, though other metals such as titanium, tantalum, and nickel can be used to achieve other qualities.

Due to its severe wear qualities, cemented carbide has been employed in a wide range of industries. Here is a list of the few major industries where Tungsten carbide is used:

The automotive industry:

Though the automotive industry uses a variety of tools, some manufacturers are employing this durable material for much more. Porsche has just announced that the new 2019 Cayenne will have tungsten carbide breaks. Due to the durability and strength of tungsten metal, these breaks will produce substantially less brake dust and will likely endure far longer than other break materials.

The jewelry industry:

Tungsten carbide is exceptionally hard, ranging from 8.5 to 9 on the Mohs scale (just behind diamonds at 10). Because of its toughness and resistance to scratching, this material has become popular in the bridal jewelry industry.

The medical industry:

Because of its low breakage and durability, tungsten carbide is frequently used in medical equipment. Both remanufactured tungsten trash and raw material are valuable supplies for medical devices that must survive harsh environments.

The sporting goods industry:

Tungsten metal is used in hiking poles, rollerski poles for cross-country skiing, drive tracks for snowmobiling, and even horseshoeing. Additionally, tungsten studs are used in vehicles, motorbikes, and bicycle tires to improve traction on ice.

The mining industry:

Mining has remained a significant sector, with tungsten carbide playing a significant role in its development. Because tungsten carbide is so tough to break, miners have preferred it to other types of mining equipment. Miners have been able to accomplish their work faster, longer, and with far less breakage since carbide was introduced into the mining business.

Contact us today to discover more about the carbide recycling process, how tungsten influences a variety of industries, and where to acquire high-quality tungsten carbide industrial products.

Benefits of using Tungsten carbide industrial products

 The fact that Tungsten Carbide multiplies the life of wearing parts is no furtive, facts show that it can augment life by four to ten times in comparison to heat-treated steel, plummeting downtime as well as increasing the time spent in the field. However, where life is not only augmented by the surface hardness of the Tungsten carbide industrial products, a properly intended component utilizing Tungsten Carbide in the accurate places will be much more competent at penetrating as well as cutting the soil, resulting in negligible smear as well as compressive forces which would otherwise augment drag and fuel consumption.

Applying Tungsten carbide industrial products in key areas protect the shape and design of the part, making sure optimum performance throughout its entire life.

On a component without Tungsten Carbide, the edges wear becoming smoothed and more likely to smear as well as compress the soil when running through it. This compressive, smearing action of a damaged part acts on the soil at depth. Often this is at the problem depth when soil loosening, or the key seedbed deepness, serious for early crop emergence as well as essential root growth when cultivating. In either circumstance, smearing at this depth creates a fence for root growth, water as well as air movement. These barriers created by smearing are worsened when soil is damp, effectual water and air movement is crucial for crop establishment and growth. These barriers can also create localized flooding which even when provisional will diminish plant growth and yield potential.

In most cases with non-Tungsten Carbide parts, wear life is enhanced by making leading edges thicker, the thought being that they will last longer before the part loses its length as well as lifting effect. However, this bulkier part will wear to a more sternly rounded edge, further increasing the smearing.

Using Tungsten Carbide eradicates smearing, it enables the fraction to cut through the soil rather than compressing it, relieving compaction as well as giving drainage directly where it is required. The self-sharpening property of Tungsten Carbide makes sure the cutting edge will never round off, keeping its shape as well as high performance for the duration of its life.