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机构地区:[1]西北有色金属研究院
出 处:《稀有金属材料与工程》1997年第5期40-43,共4页Rare Metal Materials and Engineering
摘 要:采用松装熔渗方法制备Cu50Cr50真空断路器用触头材料。研究了电解Cr粉粒度、粉末的含氧量及添加Ni粉末对Cu50Cr50触头材料性能的影响。结果表明,使用粒度为75μm~150μm的预处理电解铬粉末和无氧铜块,在干燥的氢气气氛中,于1200℃进行30min熔渗,可获得含氧量为003%、含氮量(003~0006)%、[质量]密度(78~79)g/cm3、电导率(150~176)×107/Ω·m的Cu50Cr50触头材料。添加Ni有利于提高触头材料的[质量]密度,但其电导率却有所降低。采用真空熔渗方法,可使Cu50Cr50触头材料的含氮量降至0003%。A contact material for medium voltage vacuum power switches has been produced by loose-packing and impregnating. The effects of electrolytic Cr powder size, oxygen and nitrogen contents, and the third element Ni content on the properties of contact material have been studied. Impregnating an electrolytic Cr powder(76μm~150μm) compact with OFHC-Cu for 30 minutes at 1200℃ in dry hydrogen, a good Cu50Cr50 contact material with 003% oxygen and (0003~0006)% nitrogen, a density of (78~79)g/cm3 and good conductivity ((150~176)×107/Ω·m) can be obtained The inclusion of a third element, Ni, increases the density of contact material, but diminishes the conductivity; The optimal Ni content is 02%~06% The nitrogen content of the contact material can be decreased to 0003% by impregnating in vacuum
分 类 号:TM241.014[一般工业技术—材料科学与工程]
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