Introduction to Titanium Carbide TiC Powder

An Introduction Titanium Carbide TiC Powder

Titanium carbide or TiC is a typical transition metal carbide that has a NaCl-type cubic crystal structure. high melting point, high hardness and a high Young's modulus. It also has excellent durability chemically, wear resistance and resistance to corrosion as well as high electrical conductivity and thermal conductivity. It has an extensive range of applications with great potential for cutting tools aerospace components, anti-wear coatings, foam and infrared radiation materials.

Applications of Titanium Carbide TiC Powder

1. Useful to make a variety of multiphase materials

Titanium carbide clays are super-hard tool materials, TiC and TiN, WC, A12O along with other raw materials made from various multiphase ceramic materials They have a great melting rate, hardness, and high as well as excellent chemical stability. is the best material for cutting tools, wear-resistant pieces as well as they offer excellent electrical conductivity and are the most popular material for electrodes.

Cutting tool material: As a result of an % of TiC dispersion of hard-particles in the matrix, Composite cutting tools do not just improve the toughness however, to a degree, increase the toughness of the fractures than the natural tool cutting capabilities a great deal. A12o3-tic ceramics can serve as armoring materials. As a tool material, its hardness is superior to (C, N) and Ti(C N, C) due to N. To make it on steel and other cutting materials, the friction coefficient much lower. There are many advantages of cutting. By combining the advantages of Ti and (C, N) to form Multiphase Ceramics (MPC), a promising cutting material can be produced.

2. Used as coating materials

Diamond coating: This production technique used to make diamond tools is most often the powder metallurgy impregnation method. Due to the high interfacial energies between diamond and all metals or other alloys it is not able to be affected by any alloy or metal with a melting point of low and bonding efficiency is low. Recent years have seen many scholars have conducted a lot in research that has helped improve the strength of bonds between the metal matrix and diamond. The active metal method is the most widely used technique, which involves adding an amount of titanium into the metal bond chromium, vanadium, and other active elements, as well as tools for sintering in liquid phase and the active metal is high carbon compound forms elements, and the diamond affinity is substantial, making it easy to increase the surface of the diamond in order to achieve the metallurgical mixture of diamond and metal bond. But, the strength of the interface is influenced by the amount of active metal in the mix, as well as the temperature of sintering duration, as well as other variables, and it requires for the breaking down of binder to make it possible to enrich the active metal towards the interface as this method isn't suitable for hot press sintering of the diamond and metal powder in a fast solid phase.

3. Useful for preparing foam ceramics

As a filtering device, foam ceramics are able to effectively eliminate inclusions in any fluid Its filtration mechanism is Adsorption and agitation. This filter requires chemical strength of the product, especially in the industry of metallurgical that uses a high melting filtering, which means this type of material is able to be oxided generally, however, it can also be adapted to the filtering mechanism of metal melt, the main pursuit of thermal shock resistance. Titanium carbide foam ceramics possess superior strength, harderness, electrical conductivity, along with corrosion and heat resistance more than oxide-based foam ceramics.

4. Utilized in infrared radiation materials

Titanium Carbide is a form of intermetallic chemical compound, that usually demonstrated good chemical stability, no changes in valence state as well as the system is subject to high-temperature removal of samples. The titanium ions exhibit a delay phenomenon to manifest, and are aimed at titanium ion solid melting into the cordierite structure , and changing the structure. Comparing to a single-material the radiation efficiency of the material in the vicinity of 3tma has definitely improved, which is ideal for applications in the area of high temperatures.

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