结构陶瓷是具有耐高温、耐冲刷、耐腐蚀、高硬度、高强度、低蠕变速率等优异力学、热学、化学性能,常用于各种结构部件的先进陶瓷。 结构陶瓷具有优越的强度、硬度、绝缘性、热传导、耐高温、耐氧化、耐腐蚀、耐磨耗、高温强度等特色,因此,在非常严苛的环境或工程应用条件下,所展现的高稳定性与优异的机械性能,在材料工业上已倍受瞩目,其使用范围亦日渐扩大。而全球及国内业界对于高精密度、高耐磨耗、高可靠度机械零组件或电子元件的要求日趋严格,因而陶瓷产品的需求相当受重视,其市场成长率也颇可观。
结构陶瓷(Structure Ceramics),又称工程陶瓷(Engineering Ceramics),是用于制造机械结构零件的陶瓷,结构陶瓷具有优越的强度、硬度、绝缘性、热传导、耐高...
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As a kind of high-performance structural ceramic materials, boron carbide shows excellent properties, such as low density, high melt-point, high hardness, high modulus, well chemical stability and strong neutron absorption ability.
碳化硼是一种高性能结构陶瓷材料,具有低密度、高熔点、高硬度、高模量、化学稳定性好等特点。
参考来源 - BZrO2 is one of the inorganic nonmetallic materials which have excellent heat resistance, wear-resistance, corrosion resistance. At present, it is widely applied in Hi-Tech fields, such as electronic ceramics, function ceramics and structure ceramics, etc.
ZrO2是一种耐高温、耐磨损、耐腐蚀的无机非金属材料,目前广泛地应用于电子陶瓷、功能陶瓷和结构陶瓷等高科技领域。
参考来源 - ZrO·2,447,543篇论文数据,部分数据来源于NoteExpress
密封面材料:结构陶瓷或超硬表面合金材料二种。
Seal the surface material: Structure pottery or exceeding two kinds alloy materials of hard surface.
结构陶瓷具有高强度、耐高温和耐磨蚀等优点,作为摩擦学部件已得到广泛的应用。
Structural ceramics possess such features as high strength, resistance to high temperature, high erosion-abrasion resistance, so structural ceramics are widely used as tribological parts.
纳米结构陶瓷涂层材料具备许多优异的物理力学性能,在工业上有广泛的应用前景。
With many excellent physical mechanics property, nanostructured ceramic coatings will be extensively used in industry.
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