Introduction to Titanium Carbide TiC Powder
A Brief Introduction Titanium Carbide TiC Powder
Titanium carbide, also known as TiC is a very common transition metal carbide having a NaCl type cube crystals, high melting point, high hardness as well as a very high Young's permeability, high Chemical stability, Wear and corrosion resistance, as well as good electrical conductivity and thermal conductivity. This means it can be used in many applications and great potential in cutting tools and aerospace components, foam ceramics, wear-resistant coatings and infrared radiation materials.
Applications of Titanium Carbide TiC Powder
1. Made up of various multiphase materials
Titanium carbide ceramics belong to super hard tool materials, TiC and TiN as well as WC, A12O and other raw materials composed of 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 equipment, at the same time they have excellent electrical conductivity and are the most popular material for electrodes.
Cutting tool material: Thanks to an amount of TiC hard particle dispersion within the matrix, composite cutting tools do not only improve the toughness however, they also degree, increase the strength of the fractures, much higher than the natural tool cutting. The cutting performance of the composite tools is significantly. A12o3-tic system ceramics may also be used as armor-grade materials. As a tool material, the toughness is more than (C N, C) and Ti(C N, C) because of N to make it on steel and other cutting materials, the friction coefficient is significantly reduced. It has many advantages when cutting. Combining the advantages of Ti and (C, N) to create multiphase ceramics, an promising tool material is able to be made.
2. Useful as coating materials
Diamond coating: The manufacturing method for diamond tools is generally the powder metallurgy impregnation method. Because of the high interaction energy between diamonds and any general metal, the diamond's surface can't be affected by any alloy or metal that has a low melting as well as its bonding capacity is low. Since the past few years, numerous experts have conducted a lot of research to increase the strength of bonds between metal and diamond. The method that is active is one of the most extensively used that is, for example, adding only a tiny amount of titanium in the metal bond vanadium, chromium and any other active metals to sinter liquids where the active material is made up of high carbon compounds. These form the elements and the affinity for diamonds is significant, and easy to improve the surface of diamond that allows for the metallurgical bond of metal bond and diamond. The strength of the bond is influenced by the amount of active metal and sintering temperature, time, and others, and needs the dissolution of the binder in order to enable the enrichment of active metal toward the interface, as this method isn't suitable for the hot pressing sintering process of diamond and powder within a short solid phase.
3. It is used to make foam ceramics.
As a filtering device, foam ceramics have the ability to remove impurities in all kinds of fluids and their filtration method is the agitation and adsorption. The filter needs the chemical solidity of the substance, especially in the industry of metallurgical with a high melting point filter, so this kind of material is able to be oxided most of the time, as well as to adjust to the metal filter melt, which is the main objective for thermal shock resistant. Titanium carbide foams offer more strength, hardness, electrical conductivity, as well as corrosion and heat resistance as compared to oxide foams.
4. Infrared radiation ceramics are used in materials
Titanium carbide is an example of intermetallic substance, and has usually shows good chemical stability with that is, there is no change in valence, and the system is under high-temperature removal of samples. The components of titanium ions display a delay phenomena appearing, in the hope of titanium ion solid melting into the cordierite structure , and changing the structure. As compared to a single material its radiation properties of the material near 3tma is evidently improved, which is conducive to the application in the area of high temperatures.
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