Silicon carbide is an extremely hard synthetically produced crystalline compound of carbon and silicon. It is commonly used in refractory and wear-resistant applications as well as solid state devices like light emitting diodes. American inventor Edward G. Acheson made this discovery while searching for ways to produce artificial diamonds; he named this new material carborundum. […]

El carburo de silicio es un excelente material cerámico no oxidado con propiedades excepcionales. Especialmente duro, el carburo de silicio es un material ideal para fabricar componentes resistentes al desgaste o abrasivos. También ofrece una excelente resistencia a la corrosión y puede funcionar con seguridad durante periodos prolongados en entornos ácidos, alcalinos y oxidantes. Además, su comportamiento a altas temperaturas lo hace adecuado para su uso en

El carburo de silicio es uno de los materiales más duros y resistentes de la Tierra, conocido por su resistencia, conductividad térmica y resistencia a los ácidos, cualidades que lo hacen idóneo para aplicaciones industriales. El carburo de silicio es un mineral natural conocido como moissanita; sin embargo, desde 1893 se produce en masa en forma de polvo y cristal para su uso como...

SiC is an extremely hard and refractory material with great wear resistance and corrosion protection, along with relatively low thermal expansion and conductivity properties, making it an attractive material choice for power electronics applications. Melted silica sand combined with coke carbon in an electric resistance furnace is processed into a very hard powder that can

NBSiC boasts high load carrying capacities at elevated temperatures, as well as being resistant to acids, molten salts and halogens. Furthermore, this low mass product can be formed into complex shapes to replace metal parts in various ways. Material features excellent resistance to brittle cracking and impact wear. Furthermore, rubber has superior abrasive wear resistance

Silicon carbide powder is commonly utilized as an abrasive-machining material in processes like grinding, honing and water jet cutting. Additionally, its hardness also allows it to function effectively as support material for high heat duty kilns used for ceramic or glass fusing firing operations. Though SiC is found naturally in small amounts in corundum deposits

Silicon carbide is one of the most desirable ceramic materials, offering outstanding properties such as hardness, strength, heat resistance and corrosion/oxidation resistance. Reaction sintering is the best solution for producing large, complex shape silicon carbide ceramics at scale. Unfortunately, however, its efficiency comes with some drawbacks such as uneven density distribution and cracking sintered products.

Recrystallized silicon carbide (RSiC) is an exceptional material with unparalleled mechanical and thermal properties, boasting outstanding mechanical and thermal characteristics as well as possessing an enhanced microstructure which enhances these attributes even further. RSIC boasts high thermal conductivity, excellent corrosion resistance, and can be formed into complex shapes without cracking or chipping. Furthermore, its properties

SiC is an ideal material to use for electric vehicle battery inverters due to its ability to withstand high voltages while providing more effective energy conservation and longer driving distances. Though silicon carbide (SiC) occurs naturally in small amounts in meteorites, corundum deposits, and kimberlite, most SiC sold today is synthetically produced and is hard

Silicon carbide powder is widely utilized for its hardness in abrasive machining processes such as grinding, honing, water-jet cutting and sandblasting. Additionally, bulletproof vests use silicon carbide to absorb projectile impacts. Carborundum grit is a widely used abrasive in modern lapidary applications. Additionally, it can be found as part of the carborundum collagraph printing technique.