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Introduction to Titanium Carbide TiC Powder

An Introduction Titanium Carbide TiC Powder

Titanium carbide or TiC is a very common transition metal carbide having a NaCl type cubic crystal structures, high melting point, hardness and a high Young's modulus. high mechanical stability and wear and resistance to corrosion and excellent electrical conductivity and thermal conductivity. Therefore, it offers an extensive range of applications and a huge potential for cutting tools aerospace components, anti-wear coatings, foam, and infrared radiation ceramics materials.

applications of Titanium Carbide TiC Powder

1. Utilized to create various multiphase materials

Titanium carbide is a type of ceramic that belongs to the super-hard tooling materials TiC and TiN, WCand A12O and other raw materials comprised from various multiphase ceramic materials The materials are known for their very high melting temperature, a high hardness with excellent chemical stability. is the preferred material to use for cutting tools and wear-resistant parts while at the same time they are extremely electrically conductive which makes them the best choice for electrodes.

Cutting tool material: Thanks to the proportion of TiC dispersion of hard-particles in the matrix, composite cutting tools do not only improve the toughness however, they also certain extent, improve their toughness to fractures, greater than the raw tool's cutting. Cutting performance is a lot. A12o3-tic system-based ceramics could be used as armor material. For use as a tooling material, the harderness is higher than (C, N), and Ti(C, N) due to N. To create it for steel and other cutting materials the friction coefficient much lower. There are many advantages of cutting. Through the combination of the advantages of Ti and (C N, C) to create multiphase ceramics, it is a promising tool material is able to be made.

2. For coating purposes, they are used as materials.

Diamond coating: The manufacturing process for diamond tools follows mostly a powder metallurgy impregnation method. Because of the high interfacial energies between diamond and any general metal, the surface of the diamond cannot be filled with alloys or other metals that have a low melting temperature and the bonding performance is poor. Since the past few years, numerous researchers have conducted a great deal of study to enhance the bond strength between metal and diamond. The method of active metal is the most commonly used technique, which involves adding only a tiny amount of titanium in the metal bond vanadium, chromium, as well as other active metals. When used for liquid phase sintering in which the active element is high carbon compound forms elements, and the diamond affinity is significant, and easy to the enhancement of the diamond's surface to enable the metallurgical union of metal bond and diamond. However, the strength at the interface is determined by the amount of active metal used, sintering heat along with other variables. This requires liquid dissolution in the binder in order to allow the enhancement of active metal to the interface because this method is not suitable for the hot pressing sintering of metal and diamond powder over a brief time solid phase.

3. For preparing foam ceramics

In the capacity of a filter, ceramics are effective in removing inclusions in any fluid and its filtering mechanism is an agitation process and adsorption. The filter demands the chemical stability of the material particularly in the metallurgical sector which has a high melting filter, so this kind of material can be used to remove oxide in the majority, and also adapts to the filtering process of metal melt, the main pursuit with respect to resistance against thermal shock. Titanium carbide foams offer higher strength, hardness, electrical conductivity, as well as resistance to heat and corrosion over oxide foam ceramics.

4. For use in infrared radiation materials

Titanium carbide can be described as a kind of intermetallic compound, usually shows good chemical stability with without a change in the state of valence in the system. under high-temperature reduction in the making of samples. The components of titanium ions experience a delay to show up, aiming to the solid of titanium ions melting into the cordierite structural position, change of the structure. Comparing to a single-material it is more effective in radiation. the material close to 3tma is definitely improved, which is advantageous for its use in the area of high temperatures.

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