B. Miao, Yan Zhang, Guoxun Liu, Wenbin Wang, Gang Li, Yi Shan, X. Pu
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引用次数: 4
Abstract
Mechanical properties of two sorts of CuCr(75/25) contact materials adopted widely for vacuum interrupters were determined by standard tensile test and impact test, and fracture characteristics of these two materials after tests were analyzed by optical and SEM equipped with EDS. It was shown that the tensile strength, ductility and impact strength of Cu-25Cr alloy contact material by vacuum casting are superior to that of CuCr25 p/m contact material by sintering technique; Fractographs of these contact materials revealed distinct fracture mechanisms, i.e. dimply ductile fracture of Cu-25Cr alloy materials, in contrast with primarily cleavage fracture of Cr-particles and interfacial fracture between Cr and Cu-matrix in CuCr25 p/m materials. The influence of strength, ductility and interfacial bonding strength between Cr/Cu phases on the contact performance of contact materials were discussed