碳化硅工业

Silicon carbide’s rigidity, hardness, and thermal conductivity make it an excellent material choice for use as mirrors in astronomical telescopes. Furthermore, its lapping films make an ideal coating material that polishes fiber-optic strand ends prior to splicing. But the limited supply of high-quality SiC wafers limits market growth. They are susceptible to flaws such as […]

碳化硅工业 阅读更多 "

碳化硅研磨纸

碳化硅砂纸是 DIY 爱好者进行家庭维修和翻新时不可或缺的工具,它具有无与伦比的硬度和耐用性,可进行高质量的表面处理。氧化铝砂纸能有效打磨木材、金属、玻璃和石材。此外,它比氧化铝砂纸的打磨强度更大。多功能性 碳化硅砂纸是以下设备的首选饰面材料

碳化硅研磨纸 阅读更多 "

碳化硅回收新工艺

Silicon carbide is an energy-efficient material that can enable electric vehicles to achieve greater driving distances without the need for active cooling systems and help decrease both size and weight of onboard battery management systems. Rice University researchers have developed an innovative process for upcycling pulverformed SiC waste into high-quality raw materials, known as flash

碳化硅回收新工艺 阅读更多 "

碳化硅晶须

Silicon carbide whiskers are commonly used to strengthen and toughen metal, ceramic, and polymer composites, providing increased fracture toughness, flexural strength, oxidation resistance, and fracture toughness properties of their composites. Dispersions of SiCw were assessed using a Malvern Nano ZS90 to analyze their surface Zeta potential, according to Stern double electric layer structure principles (Greenwood

碳化硅晶须 阅读更多 "

碳化硅的导电性

碳化硅是最轻、最坚硬的陶瓷材料之一,可轻松抵抗腐蚀、磨损和摩擦磨损。此外,碳化硅的半导体特性使其适用于高压应用,如电动汽车上的电力电子设备。对于 n 型半导体,可通过掺入氮或磷来增加碳化硅的导电性,而对于铝、硼或镁型半导体,则可通过掺入铝、硼或镁来增加导电性。

碳化硅的导电性 阅读更多 "

什么是碳化硅?

碳化硅是硅和碳的共价键化合物,质地坚硬,通常以粉末或固体形式制造,用于要求高耐久性的应用,如汽车制动器、离合器和防弹背心中使用的陶瓷片。摩尔质量是根据其化学式和元素周期表来计算的,表示其相对质量。

什么是碳化硅? 阅读更多 "

碳化硅特性

碳化硅是一种极其坚韧耐用的非氧化物陶瓷材料,具有许多理想特性。它可以承受极大的机械应力和压力,而不会在压力下开裂;此外,它还具有出色的防腐蚀能力,可以保护元件免受可能腐蚀元件的侵蚀性酸碱化学物质的侵蚀。蓝宝石的半导体特性使其在电子应用中具有无价之宝的价值:其

碳化硅特性 阅读更多 "

zh_CNChinese
滚动至顶部