High Purity MAX Special Ceramics Material Titanium Silicon Carbide Ti3SiC2 Powder,99% | 3pdm


Nov 30, 2022

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Good electrical conductivity (Ti3SiC2), thermal conductivity (high temperature resistance), oxidation resistance, and thermal shock resistance. Purity: 99% Particle Size: 325 mm About Titanium Silicon Carbide, Ti3SiC2 Puffer: A material with ceramic and metal properties, titanium carbide (chemical formula Ti3SiC2) is available. It is one the MAX phases. New type of ternary layer ceramic material made of titanium silicon carbide (Ti3SiC2) combines elements of both metal and ceramic. Not only is it a superior ceramic product, but it has high yield strengths, high melting points, high thermal stability, and high-temperature resistance. It can be used just like metal. It is more flexible than graphite and has a lower friction coefficient. A unique ceramic, titanium silicon carbide, is due to its ceramic-metallic properties. Therefore it can be used for both mechanical as well as electrical purposes. It has high-temperature stability, good electrical conductivity as well thermal conductivity. Additionally it is resistant to oxidation. Furthermore, this material can be worked with hardened metal tools because it exhibits a high degree of elongation when broken at high temperature. A novel material, titanium silicon carbide (“Ti3SiC2) (material scientists and physicists), is Titanium Silicon Carbide. High melting points, high strength as well modulus and excellent resistance against high temperature oxidation are some of the remarkable features. While titanium silicon carbide is a promising material for ceramics, its widespread use allows it to combine both the strengths of ceramics (ceramics) and metals. A high melting point at 3200°C makes titanium silicon carbide (Ti3SiC2) a promising ceramic material. The low density is 4.53 g/cm3, Young’s modus of 320 GPa. Vickers hardness is 4 GPa. High strength and ductility are also characteristics of Ti3SiC2. Ti3SiC2 are also electrically and thermally conductive. Ti3SiC2 can be used as a structural ceramic as well as in other applications, such as in commutation brush designs. Titanium Silicon Carbide Ti3SiC2 powder Product Performance :
This Ti3SiC2 Titanium silicon carbide powder offers high strength and flexibility, as well as high electrical conductivity and thermal conductivity.
An efficient method of making titanium dioxide from a mixture silicon carbide/silicon powder under vacuum. Ti3SiC2 can be synthesized using a mixture of titanium carbide and silicon powder. Due to its oxidizing capabilities and explosive nature, pure titanium powder can cause problems. This solid-phase reaction produces titanium silicon caride. Tic is found in the reactant product. A solid-phase reaction using TiSi, graphite and carbonite is the best way to produce pure titanium silicon carbide. The multi-step process is required to make pure titanium silicon carbonide. You can follow the following steps: TiSi (graphite) and graphite, at a Mole ratio of 0.420.290.29 are combined in the initial step. Place the tested piece in an evacuated silica test tube, where it is heated to 1100°C for 10 hours. This will produce TiC2, TiC and TISiC. You can then remove TiSi2 from the system with hydrofluoric.   TiS+12(HF)Yi (TiF)+2SF+6H2 It is possible to then oxidize TiC in TiO2 by using air (450°C) for 10 h. Next dissolve TiO2 with HSO or (NH). Pure titanium silicon carbonide (TisSiC2) can be obtained as a solid phase. Powders made by the above process must be sintered at high temperature in order to produce bulk material. Technical Parameter by Titanium Silicon Carbide Ti3SiC2 powder : Produktname Purity Atom Size Molecular Weight Density Titanium Silicon Carbide Ti3SiC2 99% 325 196 4.53 g/cm3 Titanium Silicon Carbide SiC2 Powder: Ti3SiC2 molten powder is used to create electronic materials such as high-temperature structure materials, electronic materials or electrode brushes. It also serves as an MAX ceramic material and a chemical anti-corrosion substance. Many advantages can be found in titanium silicon carbide, both ceramic and metal. The conductivity of electricity as well as heat is excellent, making it similar to metal. It is easy-to-process, soft, sensitive to thermal shock, plastic at high temperatures and easily manipulated. It’s also resistant against oxidation and high temperatures like ceramics. It is more resistant to high temperatures than any other high-temperature alloys. Titinium silicon carbide can be used as a high heat material. It has twice the electrical conductivity as graphite. It is extremely wear-resistant. This makes it an ideal brush material for AC motor transitional brushes. It can achieve SiN due to its high-temperature strengths, oxidation resistivity and thermal shock resistant. The high temperature resistance and high conductivity of metal smelted electromaterials makes it possible to use them. It is both a valuable research material and a promising application prospect. Storage of Titanium Silicon Carbide – Ti3SiC2 powder : Ti3SiC2 Ti3SiC2 dust dispersion performance, and the use of Ti3SiC2 particles will be affected if there is a damp reunion. Ti3SiC2 titanium silicon caride Ti3SiC2 dry powder must be vacuum packed and kept in cool and dry rooms. Ti3SiC2 dust should never be subject to extreme stress. Shipping & Packing Titanium Silicon Carbide Ti3SiC2 powder : There are many kinds of packing available depending on the quantity and type of titanium silicon carbonide Ti3SiC2 granules. Packing for titanium silicon carbide Ti3SiC2 – vacuum Packaging, 100g or 500g. 25 kg/barrel. Shipping Ti3SiC2 titanium silicon carbide powder: can be sent out by Sea, Air, or Express as soon after receipt of payment.

Titanium Silicon Carbide – Powder Properties

Titanium silicocarbide, titanium carbide titanium carbide alloy TiSiC2 TiSiC 12202-82-3 Ti3SiC2 195.71 Appearance Black Powder Melting Point N/A Boiling Point N/A Density 4.5 g/cm3 Solubility H2O N/A Thermal Expansion 9×106 degC-1

Titanium Silicon Carbide – Health & Safety Information

Warn Hazard Statements H315-H319-H351-H335 Hazard Codes Risk Codes R36/37/38 R40 Safety Declarations N/A Transport Information IGN for all types of transport
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