Introduction to Titanium Carbide TiC Powder
An Introduction Titanium Carbide TiC Powder
Titanium carbide also known as TiC is a popular transition metal carbide that features a NaCl cubic crystal structure, high melting point, hardness as well as a high Young's Modulus, high quality chemical stability, excellent wear resistance and corrosion resistance, as well as excellent electrical conductivity and thermal conductivity. Therefore, it has an extensive range of applications as well as a lot of potential for cutting tools parts, aerospace components and resistant coatings for wear, foam ceramics and infrared radiation materials.
Technologies of Titanium Carbide TiC Powder
1. In the manufacture of various multiphase materials
Titanium carbide is a type of ceramic that belongs to extremely hard tool materials, TiC and TiN, WC, A12O as well as other raw materials that are made of multiphase ceramics These materials feature a excellent melting-point, a high hardness and superior chemical stability. is the most popular material for cutting tools, wear-resistant products as well as they exhibit excellent electrical conductivity is the material of choice for electrodes.
Cutting tool material: Because of the proportion of TiC hard particle dispersion within the matrix, composite cutting tools don't just enhance the hardness however, they also some extent, enhance crack toughness, which is greater than that of pure tool cutting performance a lot. A12o3-tic system-based ceramics could serve as armoring materials. For use as a tooling material, the hardness is higher than (C, N) and Ti(C, N) because of N to create it for steel and other cutting materials friction coefficient is significantly reduced. Brings many advantages to cutting. Through the combination of the advantages of Ti and (C, N) to form Multiphase Ceramics (MPC), a highly effective cutting material can be produced.
2. It is used to coat materials.
Diamond coating: The production method for diamond tools is mostly a powder metallurgy impregnation method. Due to the high energy interfacial between diamond and generally-used metal or alloy, the surface of diamond is not permeated by alloys or metals that has a low melting, and its bond performance is poor. In the last few years, many researchers have conducted lots of research to increase the strength of bonds between the metal matrix and diamond. The method that is active is the one most frequently used technique, which involves adding some titanium in metal bond, chromium, vanadium, and other active metals. Using these tools for sintering in liquid phase which is the active metal. The active metal has composed of high carbon molecules to form elements, and the affinity for diamonds is enormous, and allows for the enhancement of diamond's surface and thereby achieving the metallurgical combination of diamond and metal bond. However, the interface strength can be affected by the amount of active metal and sintering temperature as well as other parameters. It requires liquid dissolution in the binder to make it possible to enrich the active metal at the interface because this method is not suitable for hot press for sintering diamond and powder in a fast solid phase.
3. It is used to make foam ceramics.
as a filtering agent, ceramics are capable of removing inclusions in all types of fluids The mechanism of filtration is an agitation process and adsorption. The filter must have the chemical stability of the material especially in the industry of metallurgical that has a high melting point filtering. This type of material to oxide in the majorityof cases, and also adapts to the metal filter melts, which is the major goal that is thermal shock resistance. Titanium carbide ceramics are characterized by higher strength, toughness, electrical conductivity and heat, plus corrosion and heat resistance than oxide foam ceramics.
4. For use in infrared radiation materials
Titanium Carbide is a form of intermetallic material, typically shows good chemical stability with having no change in valence and it is subject to high-temperature reduction in the production of samples. The components of titanium ions experience a delay and appear, hoping to the solid of titanium ions melting into the structure of cordierite arrangement, changing the structure. In comparison to a single component, the radiation performance of the material in the vicinity of 3tma has evidently improved, which is suitable for use in the area of high temperature.
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