Surface nanocrystallization by mechanical punching process for improving microstructure and properties of Cu-30Ni alloy
By yang MAO, Xiang; yang LI, Dong; zhong WANG, Zhang; ming ZHAO, Xiu & CAI, Lu
Published in Transactions of Nonferrous Metals Society of China
2013
Abstract
A punching process was employed to produce nanocrystalline on the surface of Cu-30Ni alloy. Compared with the original sample, corresponding changes of the grain size, mechanical properties and corrosion resistance of surface nanocrystalline induced by punching process were characterized by atomic force microscopy, nanoindentation, microhardness, electrochemical behavior and electron work function. It was observed that the grain size was about 40 nm in the topmost surface. The increasing mechanical properties were also demonstrated. Additionally, the dynamic polarization test showed that the surface nanocrystallization improved the resistance to electrochemical attacks. Such increasing corrosion resistance was identified with the higher EWF value. This study demonstrates that surface nanocrystallization can be generated by punching process, and thus mechanical properties and corrosion resistance of alloy can be improved.