High Precision parts made of Tungsten Carbide
Tungsten carbide is a highly popular material that is used in the manufacturing of high precision parts due to its durability, strength, and high melting point. This material has become increasingly popular in recent years, especially in the manufacturing industry, where precision is a top priority. In this blog, we will explore the various applications of tungsten carbide high precision parts and how they are made.
Why Tungsten Carbide?
Tungsten carbide is a composite material that consists of tungsten powder that are held together by a metallic binder. The metallic binder can be cobalt, nickel, or other alloys. The combination of these two materials produces a product that is extremely hard, durable, and resistant to wear and tear. The hardness of tungsten carbide is second only to diamonds, making it a perfect material for high precision parts that require a high degree of strength and durability.
Applications of Tungsten Carbide High Precision Parts
Tungsten carbide high precision parts find their use in various industries, including aerospace, automotive, medical, testing equipment, and manufacturing. Here are some examples of how they are used:
Wear Parts: Tungsten carbide high precision parts are used in wear parts such as nozzles, valve seats, and bearings but also in special applications like punches, matrices, holder, guide rails, metal mesh production, sealing rings and many more. These parts are designed to withstand high levels of friction and wear, making them ideal for use in harsh environments.
Medical Instruments: Tungsten carbide high precision parts are used in the manufacture of medical instruments like dental drills and bone drills. The material’s high strength and durability make it ideal for use in surgical instruments that require precision and durability.
Electronic Components: Tungsten carbide high precision parts are also used in the production of electronic components such as wire guides and contact points. These parts are designed to withstand high temperatures and high levels of wear and tear.
How are Tungsten Carbide High Precision Parts Made?
The production of tungsten carbide high precision parts involves several steps, including:
Mixing: The tungsten powder and binder are mixed together in a ball mill to produce a homogenous mixture.
Pressing: The mixture is then pressed into the desired shape using a die or mold.
Sintering: The pressed part is heated in a furnace at a high temperature to bond the tungsten carbide particles together.
Finishing: The finished part is then machined to the desired shape and size using computer-controlled machines.
In conclusion, tungsten carbide is a remarkable material that has proven to be a game-changer in the manufacturing industry. It possesses exceptional properties that make it an ideal choice for producing high precision parts that require high wear resistance, toughness, and durability. Companies such as Graf Hartmetall have leveraged the unique qualities of tungsten carbide to manufacture cutting-edge tools and parts that are widely used in various applications. By using tungsten carbide, Graf Hartmetall has been able to meet the high demands of their customers by providing high precision parts that are able to withstand even the most extreme conditions. It’s safe to say that tungsten carbide is the material of the future and companies like Graf Hartmetall are at the forefront of its production and usage.
