Superplastic solid state welding of steel and copper alloy-based on laser quenching of
steel surface
steel surface
(College of Material Science and Engineering,
Henan University of Science and Technology, Luoyang 471003, China)
Henan University of Science and Technology, Luoyang 471003, China)
Abstract: Based on the feasibility of isothermal superplastic solid state welding of steel and copper alloy, the welded surface of steel surface was ultra-fined through laser quenching, and then the welding process tests between different base metals of 40Cr and QCr0.5 were made under the condition of non vacuum and non shield gas. The experimental results show that, with the sample surface of steel after laser quenching and that of copper alloy carefully cleaned, and under the pre-pressed stress of 56.6-84.9MPa, at the welding temperature of 750-800℃ and at initial strain rate of (2.5-7.5)×10-4s-1, the solid state welding can be finished in 120-180s so that the strength of the joint is up to that of QCr0.5 base metal and the expansion rate of the joint does not exceed 6%. The plastic deformation of the joint was further analysed. The superplastic deformation of the copper alloy occurs in welding process and the deformation of steel are little.
Key words: copper alloy; steel; laser quenching; superplastic deformation; solid state welding