Introduction to Titanium Carbide TiC Powder
A Brief Introduction Titanium Carbide TiC Powder
Titanium carbide also known as TiC is a standard transition metal carbide, with a NaCl-type Cubic crystal structure. a high melting point, hardness, high Young's modulus, excellent durability chemically, wear as well as corrosion resistant as well as excellent electrical conductivity and thermal conductivity. Therefore, it offers numerous applications and has a great potential in cutting tools aerospace components, high-wear coatings, foam ceramics and infrared radiation materials.
Technologies of Titanium Carbide TiC Powder
1. The multiphase materials are used to make different materials
Titanium carbide is a type of ceramic that belongs to super hard tooling materials, TiC and TiN, WC, A12O, and other raw material made of a variety of multiphase ceramics, these materials have a excellent melting-point, high hardness, excellent chemical stability, is the preferred material to use for cutting tools and wear-resistant parts, at the same time they have excellent electrical conductivity which makes them the best choice for electrodes.
Cutting tool material. Because of some percentages of TiC solid particle dispersion inside the matrix, the cutting tools made of composites not only help improve the toughness however, they also degree, increase their toughness to fractures, greater than the raw tool's cutting tools by a significant amount. A12o3-tic ceramics can be utilized as armor materials. As a tool material, the harderness is higher than (C, N) and Ti(C, N) due to N. To make it on steel and other cutting materials, the friction coefficient greatly reduced. There are many advantages of cutting. Through the combination of the advantages of Ti and (C, N) to form Multiphase Ceramics (MPC), a highly effective tool material can be prepared.
2. For coating purposes, they are used as materials.
Diamond coating: This production method of diamond tools is typically the impregnation of powder metal using the method. Due to the high interfacial energy between diamond and all metals or other alloys it is not able to be attracted by alloys or materials with a melting point of low which is why its bond performance is insufficient. 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 one that is most commonly employed one, which is the addition of an amount of titanium in metal bond, vanadium and chromium as well as others that are active, and tool for sintering in liquid phase that is active. It is high carbon compounds form elements, and the diamond affinity is high, which enables the enhancement of diamond's surface in order to achieve the metallurgical interaction of metal bond and diamond. However, the strength at the interface is determined by the amount of active metal in the mix, as well as the temperature of sintering and time as well as others, and needs that the binding agent dissolve to realize the enrichment of active metal at the interface as this technique is not suitable for hot press for sintering diamond and powder in a fast solid phase.
3. Used to prepare foam ceramics
In the capacity of a filter, ceramics are able to effectively eliminate inclusions from all fluids Its filtration mechanism is agitation and adsorption. The filter demands the chemical stability of the material, particularly in the metallurgical sector with a high melting filter, causing this kind of material to oxide in the majority, as well as to adjust to the filter of metal melt, which is the primary goal that is thermal shock resistance. Titanium carbide foam ceramics have superior strength, harderness, electrical conductivity, and also have better resistance to heat and corrosion than oxide foam ceramics.
4. Used in infrared radiation ceramic materials
Titanium carbonide is a sort of intermetallic compound, usually displayed good chemical stability. having no change in valence and, when the system is subject to high temperature reduction in the production of samples. The components of titanium ions show a delay effect to develop, which is a sign of titanium ion solid melting into the structure of the cordierite the structure. This is followed by a change in the structure. As compared to a single material its radiation performance of the compound near 3tma is obviously improved, which is suitable for use in the area of high temperatures.
Main Supplier of Titanium Carbide TiC Powder
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