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Introduction to Titanium Carbide TiC Powder

An Introduction Titanium Carbide TiC Powder

Titanium carbide, also known as TiC is a common transition metal carbide with NaCl-type cubic crystal structure. high melting point, hardness and a high Young's modulus. high chemical stability, wear resistance and corrosion resistance as well as good thermal and electrical conductivity. This means it can be used in an array of uses and is a good candidate for cutting tools and aerospace components, anti-wear coatings, foam, and infrared radiation ceramics materials.

Utilization of Titanium Carbide TiC Powder

1. Made up of various multiphase materials

Titanium carbide ceramics make up super hard tool materials, TiC and TiN along with WC, A12O and various other raw materials comprised of different multiphase ceramic materials The materials are known for their great melting rate, a high hardness and excellent chemical stability. It is the preferred material to use for cutting tools, wear-resistant components as well as they offer excellent electrical conductivity which makes them the best choice for electrodes.

Cutting tool material. Because of an % of TiC hard particles dispersed in the matrix, the cutting tools made of composites not only help to further improve the hardness however, they also, to a certain extent, improve the strength of the fractures, much higher than that of pure tool cutting performance a lot. A12o3-tic system-based ceramics could serve as armoring materials. In the role of a tooling material it has a higher hardness than (C, N) and Ti(C, N) due to N. To enable it to be applied to steel and other cutting materials friction coefficient is greatly reduced. It has many advantages when cutting. Through the combination of the advantages of Ti and (C, N) to form multiple-phase ceramics. A promising tool material can be created.

2. They are also used for coatings.

Diamond coating: The production method for diamond tools is mostly a powder metallurgy impregnation method. Because of the high interaction energy between diamonds and more general metallic or alloy the diamond surface cannot be infiltrated by metal or alloy with a low melting point and its bonding capability is not as good. In recent years, many scholars have conducted a lot of studies on increasing the strength of bonds between diamond and metal matrix. The method of active metal is the one that is most commonly employed technique, which involves adding tiny amounts of titanium to strengthen the bond between metal and vanadium, chromium, as well as other active metals. When used for sintering liquid phase, the active metal is high carbon compounds form elements and the affinity for diamonds is substantial, making it easy to the enhancement of diamond's surface to enable the metallurgical connection of diamond and metal bond. However, the interface strength depends on the quantity of active metal, sintering temperatures and time as well as other factors, and demands liquid dissolution in the binder in order to achieve the enrichment of active metal towards the interface because this method is not appropriate for hot pressing sintering process of diamond and powder in a short time solid phase.

3. It is used to make foam ceramics.

For filtration, foam ceramics effectively removes inclusions in all fluids The mechanism of filtration is the agitation and adsorption. The filter must have the chemical stability of the material especially in the industry of metallurgical using a high melting filter, so this kind of material can be used to remove oxide in the majority, but it also has the ability to adjust to the filtering of metal melt, which is the primary goal for thermal shock resistant. Titanium carbide foam ceramics possess more strength, hardness, electrical conductivity, in addition to corrosion resistance and heat than oxide foam ceramics.

4. Infrared radiation ceramics are used in materials

Titanium carbide is one of the types of intermetallic chemical compound, that usually exhibits good chemical stability, there is no change in the valence state and, when the system is subject to high-temperature reduction of the process of making samples. Some titanium ions can show delay that appear, with the intention of titanium ion solid melting into the cordierite structural position, change of the structure. When compared with a single substance the radiation efficiency of the material in the vicinity of 3tma has evidently improved, which is ideal for applications in the field of high temperature.

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