摘要
研究了不同时效工艺对Cu-Zn-Cr合金的力学性能、电学性能及其显微组织的影响。结果表明:固溶-冷变形后合金的时效过程由过饱和固溶体的析出过程和基体的再结晶两个过程控制;合金高强度主要来源于加工硬化和第二相铬粒子的析出强化,合金的高导电性则主要来源于贫化后成份接近于铜锌固溶体的基体。
The Effect of aging treatment on mechanical properties, electrical conductivity and microstructure of the alloy Cu-Zn-Cr were studied. The results show that the aging process of the alloy after solution treatment and cold deformation was controlled by both precipitation of the supersaturated solid solution and recrystallization of the matrix. The high strength comes from strain hardening and precipitation strengthening of the precipitated chromium particles. And the high electroconductivity is mainly due to the composition close to Cu-Zn solid solution matrix after precipitation.
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2003年第2期126-129,共4页
Rare Metal Materials and Engineering
基金
科技部创新基金项目(00c26214300352)
关键词
铜合金
时效
再结晶
析出
copper alloy
aging
recrystallization
precipitation
