Abstract: Some new research achievements of electropulsing treatment (EPT) were summarized in this article to provide academic reference for the development of advanced alloys with excellent performance. It is found that the optimized microstructure of alloys after EPT should be consist of refined matrix, multiple phase structure, appropriate crystal orientation, wetted grain boundaries and entangled dislocations interacted with co-clusters. Based on this, the influences of different initial states on strengthening/toughening effect are needed to be researched. Besides, finite element simulation and in situ observation should also be applied to detect the dynamic procedure of EPT, and the necessary models must be built. Finally, it can be concluded that the nonequilibrium treatment with larger driving force and the evolution routes with smaller energy barrier will be the future study direction in this field.
王艺橦, 潘栋, 侯华兴, 郭庆涛, 李天怡, 厉文墨, 肖玉宝, 江坤. 高能电脉冲处理对金属材料强化和增韧作用影响的研究新进展[J]. 材料导报, 2022, 36(Z1): 21080093-7.
WANG Yitong, PAN Dong, HOU Huaxing, GUO Qingtao, LI Tianyi, LI Wenmo, XIAO Yubao, JIANG Kun. New Insights into the Effects of High-energy Electro-pulsing Treatment on Strengthening and Toughening of Metallic Materials: a Brief Review. Materials Reports, 2022, 36(Z1): 21080093-7.
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