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Introduction to Titanium Carbide TiC Powder

A Brief Introduction Titanium Carbide TiC Powder

Titanium carbide also known as TiC is a standard transition metal carbide that features a NaCl cubic structure. It has a high melting point, high hardness and a high Young's modulus. It also has excellent durability chemically, wear resistance and corrosion resistance and excellent electrical conductivity and thermal conductivity. Therefore, it offers many applications and great potential in cutting tools as well as aerospace components, foam ceramics, wear-resistant coatings and infrared radiation materials.

Uses of Titanium Carbide TiC Powder

1. Used to make various multiphase materials

Titanium carbide ceramics are super hard tooling materials, TiC and TiN, WC, A12O, and other raw materials composed from various multiphase ceramic materials These ceramics have a very high melting temperature, hardness, and high and exceptional chemical stability. is the most preferred material for cutting tools and wear-resistant parts and also they are extremely electrically conductive which makes them the best choice for electrodes.

Cutting tool material: Thanks to the percentage of TiC dispersion of hard particles in the matrix, cutting tools made of composites not only help enhance the hardness, but also to a certain extent, improve the toughness of the fractures than the natural tool cutting. Cutting performance is a lot. A12o3-tic system ceramics can also be used as armor material. In the role of a tooling material the hardness is higher 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 coefficient is significantly reduced. The material offers many advantages to cutting. Through the combination of the advantages of Ti and (C N, C) to create Multiphase Ceramics (MPC), a promising tool material can be created.

2. Used as coating materials

Diamond coating: The production method of diamond tools is most often the powder metallurgy impregnation method. Due to the high interaction energy between diamonds and generally-used metal or alloy the diamond's surface is not permeated by alloys or metals having a low melting points and its bonding performance is poor. In the last few years, many researchers have conducted a great deal of research to increase the bond strength between diamond and the metal matrix. The method of active metal is the one that is most commonly employed approach, that is adding tiny amounts of titanium in the bond of metal, vanadium or chromium. other active metals. When used in the liquid phase sintering, the active metal is high carbon compounds are the basis of elements and the diamond affinity is large, allowing for improve the surface of diamond that allows for the metallurgical combination of metal bond and diamond. However, the strength at the interface is determined by the amount of active metal used, sintering heat and time as well as other parameters, and requires for the breaking down of binder to enhance the activity of the metal towards the interface as this technique is not appropriate for hot pressing sintering of diamond and metal powder within a short solid phase.

3. For preparing foam ceramics

As a filtering device, foam ceramics can effectively remove inclusions in all types of fluids, and its filtration mechanism is the agitation and adsorption. This filter requires chemical stability of the material, especially in the metallurgical process with a high melting point filter, causing this kind of material can be used to remove oxide most of the time, however, it can also be adapted to the filtering of metal melt, the main pursuit that is thermal shock resistance. Titanium carbide foam clays have stronger strength, harderness electrical conductivity and heat, as well as corrosion and heat resistance than oxide foam ceramics.

4. For use in infrared radiation materials

Titanium carbide is an example of intermetallic compound, usually demonstrated good chemical stability, having no change in valence and, when the system is subject to high temperature reduction in the production of samples. The titanium ions display a delay phenomena and appear, hoping to melt into the structure of the cordierite structural position, change of the structure. Compared with a single material it is more effective in radiation. the titanium carbide near 3tma level is obviously improved, which is conducive to the application in the area of high temperatures.

Main Source of Titanium Carbide TiC Powder

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