What are the advantages of silicon carbide?

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Silicon carbide overview

Silicon carbide is a compound made of silicon and carbon. This compound is found in a mineral called moissanite. The natural form of silicon carbide is named after the French pharmacist Dr. Ferdinand Henri Moissan. Moissanite is commonly found in meteorites, kimberlites and corundum. Therefore, most commercial silicon carbide is synthetic. While naturally occurring silicon carbide is hard to find on Earth, it is quite abundant in space.

What are the advantages of silicon carbide?

The characteristics of silicon carbide include stable chemical properties, high thermal conductivity, low thermal expansion coefficient, good wear resistance, high hardness (Mohs hardness of 9.5, second only to the world's hardest diamond (grade 10), excellent thermal conductivity, resistance to Strong oxidation and high temperature, etc.

Is silicon carbide harder than steel?

Silicon carbide ceramics are more than four times harder than stainless steel.

Is silicon carbide stronger than diamond?

Silicon carbide has a Mohs hardness of 9.5, second only to the hardest diamond in the world.

Application of nano silicon carbide

Silicon carbide nanomaterials have high forbidden band width, high critical breakdown electric field and thermal conductivity, small dielectric constant and high electron saturation mobility, as well as strong radiation resistance and good mechanical properties. It is an ideal material for high-frequency, high-frequency electronic and optoelectronic devices. High power, low energy consumption, high temperature resistance, radiation resistance. The room-temperature photoluminescence exhibited by SiC nanowires makes them ideal materials for the fabrication of blue light-emitting diodes and laser diodes. Recent studies have shown that micron-sized SiC whiskers have been used to strengthen ceramic matrices, metal matrices and polymer matrix composites. These composites all showed good mechanical properties. As you can imagine, the strength and stiffness are higher, and the aspect ratio is higher. The large-scale SiC one-dimensional nanomaterials as the reinforcement phase of the composites will further enhance its performance. SiC one-dimensional nanomaterials have excellent characteristics such as low threshold field strength, high current density, high temperature stability, etc., and are expected to be used as electric field emission materials. Using this characteristic, the third generation of new electronic light sources can be made, and will be used in image display technology. play a huge role in it. With the deepening of the research, the researchers also found that the excellent characteristics such as one-dimensional high current density and high temperature stability are expected to be used as electric field emission materials. Using this characteristic, the third generation of new electronic light sources can be made, which will be displayed in the image display. It plays a huge role in technology. With the deepening of the research, the researchers also found that the excellent characteristics such as one-dimensional high current density and high temperature stability are expected to be used as electric field emission materials, and the third generation of new electronic light sources can be made by using this characteristic. , and will play a huge role in image display technology. With the deepening of research, researchers also found that one-dimensional SiC nanostructures have broad application prospects in the fields of hydrogen storage, photocatalysis and sensing. Features include large specific surface area, high surface activity, low bulk density, excellent mechanical, thermal, electrical and chemical properties, i.e. high hardness, high wear resistance and good self-lubrication, high thermal conductivity, low thermal expansion coefficient and high temperature strength and other characteristics. Nano silicon carbide powder has the characteristics of high purity, small particle size distribution and high specific surface area: this product has stable chemical properties and high thermal conductivity. Small thermal expansion coefficient, good wear resistance. The microhardness is 2840~3320kg/mm2, the hardness is between corundum and diamond, and the mechanical strength is higher than that of corundum. Nano-silicon carbide has excellent thermal conductivity and is also a kind of semiconductor. It can resist oxidation at high temperature and manufacture structural devices: such as sliding bearings, liquid fuel nozzles, crucibles, high-power high-frequency molds, semiconductor components, etc. It is used in metallurgy, chemical industry, Machinery, aerospace, energy and other industries. Surface treatment of metals and other materials: composite materials such as tools, molds, heat-resistant coatings, heat-dissipating surface coatings, anti-corrosion coatings and wave-absorbing coatings: preparation of metal-based, ceramic-based and polymer-based composite materials.

Nano silicon carbide price

The price of nano-silicon carbide will change randomly with the production cost, transportation cost, international situation and market supply and demand of nano-silicon carbide. Tanki New Materials Co., Ltd. aims to help industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full range of customized services. If you are looking for Nano Silicon Carbide products, please feel free to send an inquiry to get the latest price of Nano Silicon Carbide.

Nano silicon carbide suppliers

As a global nano-silicon carbide supplier, Tanki New Materials Ltd. has extensive experience in the performance, application and cost-effective manufacturing of advanced engineered materials. The company has successfully developed a series of powder materials (including boron carbide, hard alloy aluminum, titanium carbide, etc.), high-purity target materials, functional ceramics and structural devices, and provides OEM services.

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