Journal Article10.1016/J.MSEA.2019.138026
Dislocation structure evolution under electroplastic effect
Siqi Xiang,Xinfang Zhang +1 more
154
TL;DR: In this article, the effect of high current density electropulsing (103 A/mm2 for 150 μs) on the residual stress of quenched steel was investigated with the objective of determining the electroplastic effect on plastic strain and dislocation evolution.
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Abstract: In this study, the effect of high current density electropulsing (103 A/mm2 for 150 μs) on the residual stress of quenched steel was investigated with the objective of determining the electroplastic effect on plastic strain and dislocation evolution. The residual stress and dislocation density, which were closely related to the plastic strain, were significantly reduced through electropulsing. The direct effect of drift electrons on the dislocation motion, instead of side effects such as skin, pinch, instantaneous thermal expansion stress, and Joule heating, primarily contributes to the plastic strain. Employing the thermally activated plastic flow concept, the drift electrons were also found to have an effect on the thermally activated dislocation motion in addition to the force exerted on the dislocations by an electron wind. Under the action of drift electrons, the movement of vacancies and dislocations were enhanced, which accelerated the dislocation annihilation. In contrast, affected by the electron wind force, Frank-Read source failed to produce a large amount of dislocations, thereby simultaneously decreasing the dislocation multiplication rate. Finally, the dislocation density decreased and the dislocation structure was rearranged parallel to the direction of motion of the drift electrons.
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Citations
Defect reconfiguration in a Ti-Al alloy via electroplasticity.
Shiteng Zhao,Shiteng Zhao,Ruopeng Zhang,Ruopeng Zhang,Yan Chong,Yan Chong,Xiaoqing Li,Xiaoqing Li,Anas Abu-Odeh,Eric Rothchild,Daryl C. Chrzan,Daryl C. Chrzan,Mark Asta,Mark Asta,J. W. Morris,Andrew M. Minor,Andrew M. Minor +16 more
TL;DR: Transmission electron microscopy reveals the electroplastic effects in a Ti–Al alloy, which can be uncoupled from Joule heating effects, and enhances wavy slip of dislocations, reconfiguring the dislocation pattern, and hence increases the ductility.
228
Revealing the pulse-induced electroplasticity by decoupling electron wind force
TL;DR: In this paper , the defect dynamics in Au nanocrystals under pulse conditions were investigated by decoupling the electron wind force via a properly-designed in situ TEM electropulsing experiment.
Electromagnetic shocking induced fatigue improvement via tailoring the α-grain boundary in metastable β titanium alloy bolts
Donghao Zhang,Dapeng Shi,Feng Wang,Dongsheng Qian,Yubao Zhou,Jianjian Fu,Ming Chen,Dongsheng Qiu,Shaofeng Jiang +8 more
TL;DR: Electromagnetic shocking (EMS) improves fatigue life in metastable β titanium alloy bolts by refining α-grain boundaries, reducing dislocation density, and enhancing stress transfer, resulting in increased fatigue life and reduced electrical resistivity.
52
Tailoring the residual stress and mechanical properties by electroshocking treatment in cold rolled M50 steel
TL;DR: In this paper, the effect of electroshocking treatment (EST) on the microstructure, residual stress and mechanical properties of cold-rolled M50 steel has been investigated, and the results show that the EST accelerates the movement and annihilation of dislocation and thus promotes the local recrystallization.
48
Rapidly modifying microstructure and mechanical properties of AA7150 Al alloy processed with electropulsing treatment
Kai Chen,Lihua Zhan,Wenfang Yu +2 more
TL;DR: In this paper, an electropulsing treatment (EPT) has been proposed to study dissolved precipitations and modify microstructures of AA7150 Al alloy faster than conventional solid solution treatment (SST).
35
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