Overview of nano silicon carbide:
Silicon carbide (SiC) is a hard compound containing silicon and carbon. A semiconductor that occurs in nature in the form of the extremely rare mineral montmorillonite, but has been produced in large quantities in powder and crystal form and used as an abrasive since 1893. Silicon carbide particles can be sintered together to form very hard ceramics that are widely used in applications that require high durability, such as automotive brakes, automotive clutches, and ceramic plates in bulletproof backplates. Large single crystals of silicon carbide can be grown by the Lely method, and they can be cut into gemstones called synthetic mozurites.
Before the invention of boron carbide in 1929, silicon carbide was the hardest known synthetic material. It has a Morse hardness of 9, which is close to diamond. In addition to hardness, silicon carbide crystals have fracture properties that make them useful for grinding wheels as well as sandpaper and cloth products. Its high thermal conductivity, combined with its high temperature strength, low thermal expansion and chemical resistance, make silicon carbide valuable in the manufacture of high temperature bricks and other refractory materials. It is also classified as a semiconductor with conductivity between metal and insulating material. The combination of this property and its thermal properties makes SiC a promising replacement for traditional semiconductors such as silicon in high temperature applications.
SiC 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.Ideal material for electronic and optoelectronic devices with high frequency,high power,low energy consumption,high temperature resistance and radiation resistance devices.
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:
What is the scope of application of nano-silicon carbide?
SiC 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 electronic and optoelectronic devices with high frequency,high power,low energy consumption,high temperature resistance and radiation resistance.The room temperature photoluminescence shown by SiC nanowires makes it an ideal material for manufacturing blue light emitting diodes and laser diodes.Recent studies have shown that: micron-scale SiC whiskers have been used to strengthen ceramic matrix,metal matrix and polymer matrix composite materials.These composite materials all show good mechanical properties.It can be imagined that the strength and hardness are higher and the aspect ratio is higher.Large SiC one-dimensional nanomaterials as the reinforcement phase of composite materials will further enhance their performance.SiC one-dimensional nanomaterials have:low threshold field strength,high current density,high temperature stability and other excellent characteristics,which are expected to be used as electric fields Emitting materials,using this feature can be made into a third-generation new electronic light source,and will play a huge role in image display technology.With the deepening of research, researchers also found that one-dimensional SiC nanostructures are useful for hydrogen storage,photocatalysis and Sensing and other fields have a wide range of application prospects.Features include large specific surface area,high surface activity,low loose density,excellent mechanical,thermal,electrical and chemical properties, that is,high hardness, high wear resistance and good The characteristics of self-lubricating,high thermal conductivity,low thermal expansion coefficient and high high temperature strength. Nano silicon carbide powder has the characteristics of high purity,small particle size distribution range,and high specific surface area:this product has stable chemical properties and high thermal conductivity.The coefficient of thermal expansion is small,and the wear resistance is good.The microhardness is 2840~3320kg/mm2.Its hardness is between corundum and diamond,and its mechanical strength is higher than corundum.Nano-silicon carbide has excellent thermal conductivity and is also a 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.used in metallurgy,chemical,machinery,aerospace and energy industries.Metals and other materials Surface treatment:tools,molds,heat-resistant coatings,heat dissipation surface coatings, anti-corrosion coatings and wave-absorbing coatings,etc.Composite materials:preparation of metal-based,ceramic-based,and polymer-based composite materials.
The price of nano silicon carbide:
The price of nano-silicon carbide will vary randomly with the production cost, transportation cost, international situation and the market supply and demand of nano-silicon carbide. Tanki New Materials Co.,Ltd. aims to help various industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full set 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.
Suppliers of nano silicon carbide:
As a global supplier of nano silicon carbide,Tanki New Materials Co.,Ltd has extensive experience in the performance,application and cost-effective manufacturing of advanced and engineered materials.The company has successfully developed a series of powder materials(including boron carbide,carbide Aluminum,titanium carbide,etc.),high-purity targets,functional ceramics and structural devices,and provide OEM services.