中文摘要：

采用熔铸一中间热处理-变形工艺制备了形变Cu-11Cr-0．07Ag原位复合材料，利用扫描电镜、数字微欧计及液晶电子拉力试验机研究了材料的微观组织、力学性能和导电性能。结果表明：随着冷加工变形量的增加，铸态无序分布的Cr枝晶状组织逐渐转为沿线拉方向排列，形成定向排列的Cr纤维，抗拉强度大幅提高，电导率略有下降。经适当冷加工变形和中间热处理后的形变Cu-11Cr-0．0TAg原位复合材料具有较好的强度和电导率匹配。冷加工变形量为8时，其抗拉强度和电导率分别达到851MPa和73．9％IAcS。

英文摘要：

Deformation-processed Cu - 11Cr - 0.07Ag in situ composite was prepared by the cast and the thermo mechanical treatment process. The microstructure, mechanical and electrical properties were investigated by scanning electronic microscope, tensile- testing machine and microhmmeter. The results indicate that, with increasing cold deformation strain, the initially randomly distributed Cr dendrites in the as-cast Cu - 11Cr -0.07Ag alloy transform into Cr fibres of the deformation-processed in situ composite aligned parallel to the drawing axis, and the tensile strength increases, while the conductivity decreases. The good combination of strength and conductivity of the deformation-processed Cu- 11Cr- 0.0TAg in situ composite is achieved by using the proper cold deformation and heat treatment. The composite achieves a tensile strength of 851 MPa and a conductivity of 73.9 IACS when the cold deformation strain is 8.