Introduction to Titanium Carbide TiC Powder

Introduction to Titanium Carbide TiC Powder

Titanium carbide or TiC is a common transition metal carbide featuring a NaCl cube crystals, high melting point, high hardness as well as a very high Young's permeability, excellent quality chemical stability, excellent wear resistance and resistance to corrosion and high electrical conductivity and thermal conductivity. Thus, it is able to be used in many applications as well as a lot of potential for cutting tools, aerospace components, resistant coatings for wear, foam ceramics, and infrared radiation ceramics materials.

Technologies of Titanium Carbide TiC Powder

1. In the manufacture of various multiphase materials

Titanium carbide ceramics belong to super hard tool materials TiC and TiN as well as WC, A12O and other raw materials made from various multiphase ceramic materials These materials possess a extremely high melting points, high hardness and excellent chemical stability. is the most popular material for cutting tools and wear-resistant equipment but they have excellent electrical conductivity and is the most commonly used material for electrodes.

Cutting tool material: Because of some percentages of TiC dispersion of hard particles in the matrix, the composite cutting tools do not only improve the toughness however, to a degree, increase the toughness of fractures, which is higher than the standard cutting. The cutting performance of the composite tools is significantly. A12o3-tic systems can be used as armor-grade materials. In the role of a tooling material its hardness is superior to (C N, C), and Ti(C, N) due to N. To ensure that it is used on steel and other cutting materials the friction coefficients are greatly reduced. The material offers many advantages to cutting. Through the combination of the advantages of Ti and (C, N) to create Multiphase Ceramics (MPC), a promising tool material can easily be made.

2. As coating materials

Diamond coating: The production process for diamond tools follows typically the impregnation of powder metal using the method. Due to the high the interfacial force between diamond and general metal or alloy, the diamond's surface cannot be penetrated by alloys or metals with a lower melting point and the bonding performance is poor. Since the past few years, numerous scientists have conducted a large amount in research that has helped improve the bond strength between the metal matrix and diamond. The active metal method is the one most frequently used one, which is the addition of tiny amounts of titanium in the metal bond vanadium and chromium as well as other active metals. Using these tools to sinter liquids in which the active element is high carbon compounds , which form elements, and the diamond affinity is enormous, and allows for the enhancement of the diamond's surface in order to achieve the metallurgical bond of diamond and metal bond. However, the strength of an interface depends on the quantity of active metal used, sintering heat duration, as well as other variables. It is necessary to achieve liquid dissolution in the binder to enhance the activity of the metal to the interface as this method isn't suitable for hot press for sintering diamond and powder in a very short solid phase.

3. Utilized to prepare foam ceramics

As a filter, ceramics are able to effectively eliminate inclusions in all kinds of fluids The mechanism of filtration is an agitation process and adsorption. The filter is dependent on the chemical durability of the material particularly in the field of metallurgical production that uses a high melting filter, and this type of material can be used to remove oxide in the majorityof cases, as well as to adjust to the metal filter melt, which is the primary goal in the field of resistance to thermal shock. Titanium carbide ceramics are characterized by greater strength, harderness, heat and electrical conductivity, along with corrosion and heat resistance in comparison to oxide ceramics.

4. Used in infrared radio ceramic materials

Titanium carbide is one of the types of intermetallic material, typically showed good chemical stability, no change of valence state and, when the system is under high-temperature reduction in the making of samples, parts of titanium ions display a delay phenomena to show up, aiming to melt into the cordierite the structure. This is followed by a change in the structure. If compared with a single metal, the radiation performance of the compound near 3tma is obviously improved, which is perfect for use in the field of high temperature.

Main Provider of Titanium Carbide TiC Powder

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