Introduction to Titanium Carbide TiC Powder

An Introduction Titanium Carbide TiC Powder

Titanium carbide, also known as TiC is a typical transition metal carbide that has a NaCl-type cubic crystal structure. a high melting point, high hardness with a high Young's modus, excellent durability chemically, wear resistance and corrosion resistance and good thermal and electrical conductivity. This means it can be used in a wide range of applications and is a good candidate for cutting tools and aerospace components, high-wear coatings, foam ceramics and infrared radiation materials.

The applications for Titanium Carbide TiC Powder

1. In the manufacture of various multiphase materials

Titanium carbide-based ceramics are super-hard tool materials, TiC and TiN along with WC, A12O and other raw material made of different multiphase ceramic materials They have a great melting rate, a high hardness with excellent chemical stability. is the most preferred material for cutting tools, wear-resistant components and also they possess excellent electrical conductivity which makes them the best choice for electrodes.

Cutting tool material: Thanks to some percentages of TiC dispersion of hard particles in the matrix, cutting tools made of composites not only help to improve the hardness and durability, but also to a degree, increase the toughness of fractures, which is higher than the pure tool cutting. This can be a big improvement. A12o3-tic system-based ceramics could be used as armor-grade materials. As a tool material, it has a higher hardness than (C, N) and Ti(C, N) because of N to create it for steel and other cutting materials, the friction coefficient greatly reduced. Brings many advantages to cutting. By combining the advantages Ti and (C N, C) to create Multiphase Ceramics (MPC), a promising tools material can also be prepared.

2. It is used to coat materials.

Diamond coating: The production process for diamond tools follows most often the powder metallurgy impregnation method. Because of the high cross-facial energy that diamond has with general metal or alloy, it is not able to be penetrated by alloys or metals with a lower melting point and its bonding performance is not great. In recent years, a lot of experts have conducted a lot of study to enhance the strength of bonds between metal and diamond. The method of active metal is the most widely used technique, which involves adding some titanium in the bond of metal, vanadium or chromium. any other active metals for sintering in liquid phase and the active metal is high carbon compounds , which form elements, and the diamond affinity is enormous, and allows for increase the surface of the diamond which allows the metallurgical mixture of diamond and metal bond. The strength of the interface is influenced by the quantity of active metal in the mix, as well as the temperature of sintering, time, and other parameters. It requires liquid dissolution in the binder in order to allow the enhancement of active metal toward the interface, due to the fact that this method is not appropriate for hot pressing or sintering between diamond and powder in a very short solid phase.

3. It is used to make foam ceramics.

as a filtering agent, ceramics can effectively remove inclusions in all kinds of fluids, and its filtration mechanism is Adsorption and agitation. The filter requires the chemical solidity of the substance, particularly in the metallurgical field using a high melting filtering. This type of material will oxidize in the majority, but also to adapt to the filter of the metal melt, the most important goal and goal of thermal shock resistivity. Titanium carbide ceramics are characterized by superior strength, harderness, electrical conductivity and heat and also have better resistance to heat and corrosion as compared to oxide foams.

4. Utilized in infrared radiation materials

Titanium carbide is a type of intermetallic material, typically demonstrated good chemical stability, not undergoing any changes in valence and it is at a high temperature reduction of the preparation of samples, parts of titanium ions have delay phenomenon that appear, with the intention of melt the titanium ion into the cordierite structural position, change of the structure. Comparing to a single-material the radiation efficiency of the compound near 3tma is obviously improved, which is advantageous for its use in the area of high temperatures.

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