titanium carbide applications are found in a wide variety of industries and have seen steady growth. The market is driven by factors such as the economy, consumer preferences, and technological progress. A robust economy could increase the demand for this product, while a strong competitor or innovative technology may lower the market’s growth rate.
Titanium Carbide (TIC) is a gray metallic powder with a cubic system structure. It has high-wear resistance, perfect corrosion resistance and good electrical conductivity. It is used in a variety of thermal surfacing techniques, such as powder welding, oxyacetylene spraying or overlaying, plasma transferred arc (PTA) coating and overlaying, laser cladding and induction melting overlaying. It is also a raw material for other industrial uses, such as military aviation materials, hard alloys and cermet components.
Unlike other transition metals, titanium reacts very slowly with oxygen and forms a passivation layer that is extremely resistant to further oxidation. This makes titanium a good candidate for use in aerospace components, wear-resistant coatings and cemented carbide tools. In addition, it has very high strength, hardness, Young’s modulus, chemical stability and abrasion resistance, making it an excellent choice for cutting, milling and drilling applications.
Titanium carbide is often used in conjunction with tungsten carbide to form cemented carbide. This type of hardmetal has a WC phase that accounts for more than 50% of its total composition and is usually reinforced with a combination of cobalt, nickel and iron. It has a lower melting point than pure tungsten carbide and has a higher thermal conductivity.