Introduction to Titanium Carbide TiC Powder

A Brief Introduction Titanium Carbide TiC Powder

Titanium carbide also known as TiC is a classic transition metal carbide with NaCl-type Cubic crystal structure. a high melting point, hardness as well as a high Young's Modulus, high physical stability, chemical and resistance to corrosion and good thermal and electrical conductivity. Thus, it is able to be used in many different applications and excellent potential for cutting tools, aerospace components, resistant coatings for wear, foam ceramics, and infrared radiation ceramics materials.

Application of Titanium Carbide TiC Powder

1. In the manufacture of various multiphase materials

Titanium carbide ceramics are the super-hard tooling materials TiC and TiN, WC, and A12O and various other raw materials comprised of multiphase ceramics The materials are known for their very high melting temperature, a high hardness and exceptional chemical stability. is the preferred material for cutting tools and wear-resistant parts, at the same time they are extremely electrically conductive which makes them the best choice for electrodes.

Cutting tool material. Because of an amount of TiC dispersion of hard particles in the matrix, composite cutting tools don't just to further improve the hardness as well, but also, to a degree, increase crack toughness, which is greater than the natural tool cutting performance a lot. A12o3-tic systems can use as armor materials. For use as a tooling material, the hardness is greater than (C, N) and Ti(C N, C) because of N to ensure that it is used on steel and other cutting materials the friction coefficients are greatly reduced. Numerous advantages can be gained from cutting. Through the combination of the advantages of Ti and (C, N) to create multiple-phase ceramics. A highly effective tool material can be developed.

2. Used as coating materials

Diamond coating: This production method used for diamond tools is mostly the impregnation process using powder metallurgy method. Because of the large interfacial energy between diamond and any general metal the diamond surface cannot be filled with alloys or other metals that have a low melting temperature as well as its bonding capacity is poor. Recently, many researchers have conducted lots in research that has helped improve the strength of bonds between metal and diamond. The active metal method is the most widely used that is, for example, adding only a tiny amount of titanium to metal bond, vanadium or chromium. any other active metals for sintering in liquid phase, the active metal is composed of high carbon molecules to form elements and the diamond affinity is substantial, making it easy to enhance the diamond's surface, so as to realize the metallurgical bond of diamond and metal bond. The strength of the interface depends on the quantity of active metal used, sintering heat in addition to other variables. It is necessary to achieve for the breaking down of binder to achieve the enrichment of active metal in the direction of the interface since this method isn't suitable for the hot pressing sintering of diamond and metal powder in a relatively short solid phase.

3. Used to prepare foam ceramics

As a filtering device, foam ceramics effectively removes inclusions in any fluid, and its filtration mechanism is the agitation and adsorption. The filter needs the chemical strength of the product, especially in the metallurgical process that uses a high melting filtering, which means this type of material is able to be oxided generally, but also to be able to adapt to the filter of metal melt, the principal goal that is thermal shock resistance. Titanium carbide foam ceramics have greater strength, harderness, electrical conductivity and heat as well as resistance to heat and corrosion over oxide foam ceramics.

4. Infrared radiation ceramics are used in materials

Titanium carbide can be described as a kind of intermetallic compound. It has typically had good chemical stability and not undergoing any changes in valence or valence state. The system is in the process of high-temperature reduction of the preparation of samples, parts of titanium ions experience a delay that appear, with the intention of the solid titanium ion melting into the structure of cordierite location, and changes in the structure. As compared to a single material it is more effective in radiation. the titanium carbide near 3tma level is significantly improved, and is ideal for applications in the area of high temperature.

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