Silicon carbide powder can be used for blasting, tumbling and polishing various materials such as metal/gemstone. Both green and black tinted varieties of this material can be purchased. Silicon carbide (SiC) is an inorganic chemical compound composed of silicon and carbon found in nature as the rare mineral moissanite, though mass produced since 1893 for […]

Black silicon carbide grit is one of the toughest blasting media available and often used in rock tumblers to tumble and polish rocks. Black grit is an effective and cost-efficient abrasive material to use when tumbling rocks in a tumbler. Hard, durable and relatively inexpensive – perfect for the job! Hardness Black silicon carbide (also

Green silicon carbide, a synthetic material with the second highest hardness after diamond, is used in grinding wheels to remove unwanted surface materials. As its abrasive grains cut into metal surfaces they leave tiny chips which wear down and fracture to reveal fresh cutting points – thus providing continuous surface removal. Choosing the Right Grit

Silicon carbide, more commonly referred to as carborundum, is a hard and strong non-oxide ceramic with unique physical properties that is frequently used in abrasives and metallurgical applications. SiC is initially produced using the Acheson process; today it’s mass-produced using an electrical resistance brick furnace by mixing pure silica sand with finely ground coke, yielding

Silicon carbide (SiC) is an inorganic compound composed of silicon and carbon. While SiC occurs naturally as the extremely rare mineral moissanite, mass production has started in 1893 in powder form as an abrasive. Grains of SiC can be combined through sintering to produce hard ceramics that can be used in applications that demand durability,

Silicon carbide (SiC) is an extremely durable material used to manufacture an array of products. One of its key characteristics is its resistance to high temperatures, frequencies and voltages – something other materials cannot. Edward Acheson synthesized this compound artificially for the first time in 1891. Acheson’s discovery led to industrial applications, including abrasives and

SiC has an expansive bandgap that enables power systems to operate at higher temperatures, voltages and frequencies without incurring additional BOM costs, leading to lower costs overall and more efficient and smaller devices. Silicon carbide was, until 1929 when boron carbide was developed, the toughest known synthetic material with a Mohs hardness rating of 9,

Silicon carbide is known for its superior strength, temperature stability and resistance to wear and corrosion. Its use in furniture kilns, mechanical seals and semiconductor manufacturing equipment has led it to becoming an industry standard material. Reaction-bonded silicon carbide is manufactured through infiltration of liquid silicon into porous carbon preforms. The rate and efficiency of

Nitride-bonded silicon carbide (NBSIC) refractory brick material offers superior thermal shock resistance, alkali erosion resistance and slag resistance as well as outstanding chemical resistance against zinc, copper, aluminum and lead melts. Anti-wear performance of NBSIC particles varies with soil conditions, producing optimal results in light to medium conditions. Their particles feature small relatively isometric grains

Silicon carbide nozzles are widely utilized for spray, cleaning and sandblasting applications. Their superior durability means they remain their original diameter longer than metal alloy options. RBSIC reaction-bonded silicon carbide burner nozzles are designed to improve temperature uniformity during industrial heating processes and save energy by more effectively dispersing heat. High Temperature Resistance Silicon carbide