Silicon Carbide (SiC) is an extremely hard chemical compound consisting of silicon and carbon that forms semiconductor devices, and can be formed into hard ceramic materials for applications requiring high durability such as car brakes and bulletproof vests. SiC is widely recognized for its superior thermal conductivity. Here we explore the relationship between thermal conductivity, […]

碳化硅粉末可用于金属/宝石等各种材料的喷砂、滚揉和抛光。这种材料有绿色和黑色两种。碳化硅（SiC）是一种由硅和碳组成的无机化学化合物，在自然界中以稀有矿物莫桑石的形式存在。

黑色碳化硅磨粒是最坚硬的喷砂介质之一，常用于滚揉机中对岩石进行滚揉和抛光。在滚揉机中滚揉岩石时，黑色碳化硅砂粒是一种高效、经济的磨料。它坚硬、耐用，而且价格相对便宜，是工作中的理想之选！硬度 黑碳化硅（也称

绿碳化硅是一种合成材料，硬度仅次于金刚石，用于砂轮去除表面多余材料。当其磨粒切入金属表面时，会留下微小的切屑，这些切屑会磨损并断裂，露出新的切削点，从而实现连续的表面去除。选择正确的磨粒

碳化硅通常被称为碳化硅，是一种坚硬、强韧的非氧化物陶瓷，具有独特的物理特性，常用于磨料和冶金应用。碳化硅最初是用艾奇逊工艺生产的；如今，它是用电阻砖炉将纯硅砂与磨细的焦炭混合后大规模生产的。

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