Introduction to Titanium Carbide TiC Powder
The Introduction of Titanium Carbide TiC Powder
Titanium carbide, also known as TiC is a common transition metal carbide that features a NaCl cubic structure. It has a high melting point, hardness and high Young's molecular, high chemical stability, high wear as well as corrosion resistant as well as good electrical conductivity and thermal conductivity. Therefore, it offers many different applications as well as a lot of potential for cutting tools parts, aerospace components and the foam ceramics and coatings that resist wear, and infrared radiation ceramics materials.
Utilization of Titanium Carbide TiC Powder
1. Useful to make a variety of multiphase materials
Titanium carbide clays are high-density tool materials like TiC and TiN, WC, and A12O and other raw materials composed of different multiphase ceramic materials The materials are known for their excellent melting-point, hardness, and high and excellent chemical stability. It is the preferred material to use for cutting tools, wear-resistant pieces and also they exhibit excellent electrical conductivity, is the preferred material for electrodes.
Cutting tool material: Due to some percentages of TiC solid particle dispersion inside the matrix, composite cutting tools not only enhance the hardness however, they also, to a certain extent, improve the toughness of the fractures than that of pure tool cutting. This can be a big improvement. A12o3-tic-tic-system ceramics can be used as armor materials. It is a suitable tool material. the hardness is greater than (C N, C), and Ti(C N, C) due to N. To enable it to be applied to steel and other cutting materials friction coefficient much lower. Numerous advantages can be gained from cutting. By combining the advantages Ti and (C N, C) to form Multiphase Ceramics (MPC), a promising tools material can also be prepared.
2. It is used to coat materials.
Diamond coating: The production method for diamond tools is typically the impregnation of powder metal using the method. Because of the large energy interfacial between diamond and all metals or other alloys, the diamond's surface can't be attracted by alloys or materials having a low melting points which is why its bond performance is low. In the last few years, many experts have conducted a lot of work on improving the strength of bonds between the metal matrix and diamond. The method that is active is the most well-known method approach, that is adding a small amount of titanium to strengthen the bond between metal and vanadium and chromium as well as any other active metals for sintering liquid phase in which the active element is composed of high carbon molecules to form elements, and the affinity for diamonds is enormous, and allows for increase the strength of the diamond surface in order to create the metallurgical union of diamond and metal bond. However, the interface strength is determined by the amount of active metal in the mix, as well as the temperature of sintering in addition to other variables. It is necessary to achieve liquid dissolution in the binder in order to realize the enrichment of active metal towards the interface since this method isn't suitable for the hot pressing or sintering between diamond and powder in a short time solid phase.
3. Used to prepare foam ceramics
A filter, ceramics are able to effectively eliminate inclusions from all fluids and their filtration method is the agitation and adsorption. The filter must be chemically stability of the materials, particularly in the metallurgical field with a very high melting point filter, causing this kind of material can be used to remove oxide generally, however, it can also be adapted to the filtering process of metal melt, the principal goal for thermal shock resistant. Titanium carbide-based foam ceramics have stronger strength, harderness electrical conductivity, and also have better resistance to heat and corrosion over oxide foam ceramics.
4. Infrared radiation ceramics are used in materials
Titanium Carbide is a form of intermetallic material, typically shows good chemical stability with having no change in valence and it is under the condition of high-temperature reduction in the production of samples. Parts of titanium ions experience a delay that appear, with the intention of the solid titanium ion melting into the structure of the cordierite arrangement, changing the structure. In comparison to a single component, the radiation performance of the material near 3tma is significantly improved, and is beneficial for the use in the area of high temperatures.
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