摘要
采用冷变形+中间热处理方法制备Cu-15Cr-0.1Zr原位复合材料。这种Cr纤维原位强化复合材料的强度为1200MPa,导电率为73%IACS。研究了不同应变量下材料的微观组织演变和力学性能。随应变量的增加,强度增加,Cr相形态由枝晶演变为细小丝带状。研究不同中间退火工艺对材料性能的影响,结果表明,通过冷变形及适当的中间热处理可获得强度和导电率的较好组合。
Cu-15Cr-0.1Zr in situ composite was fabricated by cold drawing and intermediate heat treatment.Results of experiments demonstrate ultimate tensile strength of the in situ Cr fiber reinforced composite reaches 1200 MPa,electric conductivity reaches 73% IACS.The evolution of microstructure and mechanical properties of the material with different drawing ratio were investigated.With increasing drawings ratio,the dendrite chromium phase with a discontinuous distribution develops into fine fibrous bundles to result in the increase of strength.The influence of different intermediate heat treatment on properties was studied,and the results suggest that Cu-15Cr0.1Zr in situ composite which exhibits a good combination of strength and conductivity can be obtained by controlling draw ratio and proper intermediate heat treatment.
出处
《材料热处理学报》
EI
CAS
CSCD
北大核心
2010年第9期15-17,共3页
Transactions of Materials and Heat Treatment
基金
supported by the National Natural Science Funds(No.50571035)
National High-Tech.Research and Development Program of China(863Program,No.2006AA03Z528)
Henan Provincial Science Fund for Distinguished Scholar(No.0521001200)
关键词
原位复合材料
抗拉强度
导电率
微观组织
in-situ composite
tensile strength
electric conductivity
microstructure