Introduction to Titanium Carbide TiC Powder

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Introduction to Titanium Carbide TiC Powder

Titanium carbide also known as TiC is a standard transition metal carbide having a NaCl type cubic crystal structure, a high melting point, high hardness as well as a very high Young's permeability, excellent durability chemically, wear resistance and corrosion resistance and good electrical conductivity and thermal conductivity. Therefore, it offers many different applications with great potential for cutting tools as well as aerospace components, protective coatings against wear, foams, and infrared radiation ceramics materials.

Uses of Titanium Carbide TiC Powder

1. Made up of various multiphase materials

Titanium carbide-based ceramics are super hard tool materials TiC and TiN, WCand A12O and other raw materials comprised from various multiphase ceramic materials These ceramics have a large melting point and hardness, and high with excellent chemical stability. is the ideal material for cutting tools and wear-resistant equipment, at the same time they are extremely electrically conductive is the material of choice for electrodes.

Cutting tool material: As a result of a certain percentage of TiC solid particle dispersion inside the matrix, the composite cutting tools do not only to increase the strength however, they also degree, increase the strength of the fractures, much higher than the natural tool cutting. Cutting performance is a lot. A12o3-tic systems can be used as armor materials. For use as a tooling material, its hardness is superior to (C, N), and Ti(C, N) because of N to enable it to be applied to steel and other cutting materials, the friction coefficients to be greatly reduced. Numerous advantages can be gained from cutting. Combining the advantages of Ti and (C N, C) to create Multiphase Ceramics (MPC), a highly effective tool material can be created.

2. Used as coating materials

Diamond coating: This production technique for diamond tools employs mostly a powder metallurgy impregnation method. Because of the large the interfacial force between diamond and common metal or alloy the diamond surface cannot be permeated by alloys or metals that have a low melting temperature and the bonding performance is low. In recent years, many researchers have conducted lots of studies to improve the strength of bonds between diamond and metal matrix. The method that is active is the one that is most commonly employed one, which is the addition of some titanium to the metal bond, vanadium and chromium as well as other active metals. When used to sinter liquids which is the active metal. The active metal has composed of high carbon molecules to form elements and the affinity for diamonds is substantial, making it easy to enhance the diamond's surface in order to achieve the metallurgical combination of metal bond and diamond. But, the strength of the interface can be affected by the amount of active metal, the sintering temperature along with other variables, and it requires removal of the binder to enable the enrichment of active metal to the interface since this method isn't suitable for the hot pressing or sintering between diamond and powder over a brief time solid phase.

3. For preparing foam ceramics

For filtration, foam ceramics have the ability to remove impurities in all kinds of fluids and their filtration method is the agitation and adsorption. This filter requires chemical solidity of the substance, particularly in the metallurgical field using a high melting filter, so this kind of material will be oxidized generally, but it also has the ability to adjust to the filter of the metal melt, the most important goal with respect to resistance against thermal shock. Titanium carbide foam clays have greater hardness, strength, electrical conductivity and heat, plus corrosion and heat resistance than oxide foam ceramics.

4. For use in infrared radiation materials

Titanium carbide is one of the types of intermetallic chemical compound, that usually exhibits good chemical stability, no changes in valence state or valence state. The system is operating under conditions of high-temperature reduction in the making of samples. Some titanium ions show a delay effect and appear, hoping to melt into the structure of cordierite structure , and changing the structure. When compared with a single substance, the radiation performance of the titanium carbide near 3tma level is evidently improved, which is suitable for use in the field of high temperature.

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