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Silicon Carbide Drives a Revolution in Power Electronics

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, […]

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反应键合碳化硅

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

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氮化键合碳化硅

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

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碳化硅喷嘴

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

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碳化硅的结构和应用

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.

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碳化硅的用途

Silicon carbide is an outstanding nonoxide ceramic material with exceptional properties. Particularly hard, silicon carbide makes an ideal material for making wear-resistant components or abrasives. It also offers excellent corrosion resistance and can operate safely for extended periods in acid, alkali and oxidative environments. Furthermore, its high temperature performance makes it suitable for use in

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碳化硅的特性和应用

Silicon carbide is one of the hardest and strongest materials on Earth, known for its strength, thermal conductivity and acid resistance – qualities which make it suitable for applications across industries. SiC is a naturally-occurring mineral known as moissanite; however, since 1893 it has been mass produced as powder and crystal form for use as

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碳化硅粉末

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

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碳化硅粉末

碳化硅粉末通常用作研磨、珩磨和水射流切割等工艺中的磨料加工材料。此外,碳化硅的硬度也使其能够有效地用作陶瓷或玻璃熔化烧制过程中高温窑炉的支撑材料。尽管碳化硅在自然界中少量存在于刚玉矿床中

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