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Introduction to Titanium Carbide TiC Powder

A Brief Introduction Titanium Carbide TiC Powder

Titanium carbide, also known as TiC is a typical transition metal carbide with NaCl-type Cubic crystal structure. high melting point, hardness with a high Young's modus, high chemical stability, high wear and resistance to corrosion and good thermal and electrical conductivity. Therefore, it offers an extensive range of applications and excellent potential for cutting tools and aerospace components, high-wear coatings, foam ceramics, and infrared radiation ceramics materials.

Utilization of Titanium Carbide TiC Powder

1. The multiphase materials are used to make different materials

Titanium carbide ceramics are extremely hard tool materials, TiC and TiN, WC, and A12O and other raw materials comprised of various multiphase materials These materials possess a great melting rate, high hardness and superior chemical stability. is the most preferred material for cutting tools, wear-resistant components in addition, they have excellent electrical conductivity, is the preferred material for electrodes.

Cutting tool material: As a result of a percentage of TiC hard particles dispersed in the matrix, composite cutting tools are not just able to improve the hardness however, to a degree, increase crack toughness, which is greater than the pure tool cutting. The cutting performance of the composite tools is significantly. A12o3-tic-tic-system ceramics can serve as armor materials. As a material for tools, the hardness is greater than (C N, C), and Ti(C N, C) due to N. To allow it to be used on steel and other cutting materials the friction coefficients are greatly reduced. The material offers many advantages to cutting. By combining the advantages of Ti and (C, N) to form multiphase clays, a highly effective tool material is able to be made.

2. As coating materials

Diamond coating: The production method of diamond tools is typically the impregnation of powder metal using the method. Due to the high interfacial energies between diamond and generally-used metal or alloy the diamond's surface is not permeated by alloys or metals with a lower melting point which is why its bond performance is not as good. Recent years have seen many researchers have conducted a great deal of research to increase the strength of bonds between metal and diamond. The method that is active is the one that is most commonly employed and involves adding tiny amounts of titanium in the bond of metal, chromium, vanadium, and other active metals. Using these tools for sintering in liquid phase that is active. It is high carbon compounds are the basis of elements and the affinity for diamonds is high, which enables increase the strength of the diamond surface in order to create the metallurgical connection of metal bond and diamond. However, the strength of an interface can be affected by the amount of active metal in the mix, as well as the temperature of sintering and time as well as other factors, and demands the dissolution of the binder to realize the enrichment of active metal toward the interface, as this method isn't appropriate for hot pressing sintering process of diamond and powder over a brief time solid phase.

3. Useful for preparing foam ceramics

As a filtering device, foam ceramics are able to effectively eliminate inclusions in all fluids The mechanism of filtration is the agitation and adsorption. The filter needs the chemical stability of the materials, especially in the metallurgical process that uses a high melting filtering, which means this type of material can become oxide most of the time, but also to adapt to the filtering process of metal melt, the principal goal on the side of thermal shock. Titanium carbide foam ceramics possess superior strength, harderness, electrical conductivity and heat plus corrosion and heat resistance than oxide foam ceramics.

4. Used in infrared radiation ceramic materials

Titanium carbide can be described as a kind of intermetallic compoundthat has generally had good chemical stability and no change of valence state, and the system is in the process of high-temperature reduction in the production of samples. The titanium ions have delay phenomenon to develop, which is a sign of the solid of titanium ions melting into the structure of the cordierite arrangement, changing the structure. If compared with a single metal its radiation performance of the substance near 3tma is substantially improved, making it suitable for use in the area of high temperatures.

Main Provider of Titanium Carbide TiC Powder

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