典型文献
Unveiling the grain boundary-related effects on the incipient plasticity and dislocation behavior in nanocrystalline CrCoNi medium-entropy alloy
文献摘要:
The incipient plasticity and dislocation behavior in a nanocrystalline(NC)CrCoNi medium-entropy alloy were systematically investigated in terms of pop-in events during instrumental nano-indentation tests.Quantitative statistical analysis and molecular dynamic simulations were performed to reveal the effects of grain boundaries(GBs)on initial st(a)ges of plastic deformation.Multiple pop-in events appeared dur-ing loading on the NC CrCoNi.The first pop-in that represents the initial yielding was identified to be controlled by dislocation nucleation,which is in sharp contrast to the continuous elastic-plastic transi-tion mediated by GB mechanisms in NC pure metals.This can be attributed to the sluggish kinetics of the chemically complex GBs(CCGBs)in the NC CrCoNi that hinders diffusive GB activities but facilitates dislocation nucleation.Subsequent pop-ins were also found to be closely related to the extra dragging effects imposed by the CCGBs on dislocation propagation in the NC alloy.Moreover,the extremely small grain sizes and the consequent high-volume fraction of GBs in the NC alloy severely restrict the lengths of dislocation source and the radii of dislocation loop,giving rise to a higher critical stress,smaller ac-tivation volume and lower pop-in width as compared with its coarse-grained counterpart.These results provide new insights into the onset of nano-plasticity in concentrated multi-principal element alloys.
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中图分类号:
作者姓名:
Shuo Sun;Yang Yang;Chenxu Han;Guixun Sun;Yan Chen;Hongxiang Zong;Jiangjiang Hu;Shuang Han;Xiaozhou Liao;Xiangdong Ding;Jianshe Lian
作者机构:
Key Laboratory of Automobile Materials,Ministry of Education,College of Materials Science and Engineering,Jilin University,Changchun 130025,China;State Key Laboratory for Mechanical Behavior of Materials,Xi'an Jiaotong University,Xi'an 710049,China;College of Mechanical Engineering,Zhejiang University of Technology,Hangzhou 310014,China;School of Aerospace,Mechanical and Mechatronic Engineering,The University of Sydney,Sydney,NSW 2006,Australia
文献出处:
引用格式:
[1]Shuo Sun;Yang Yang;Chenxu Han;Guixun Sun;Yan Chen;Hongxiang Zong;Jiangjiang Hu;Shuang Han;Xiaozhou Liao;Xiangdong Ding;Jianshe Lian-.Unveiling the grain boundary-related effects on the incipient plasticity and dislocation behavior in nanocrystalline CrCoNi medium-entropy alloy)[J].材料科学技术(英文版),2022(32):98-107
A类:
CCGBs
B类:
Unveiling,boundary,related,effects,incipient,plasticity,dislocation,behavior,nanocrystalline,CrCoNi,medium,entropy,NC,were,systematically,investigated,terms,pop,events,during,instrumental,indentation,tests,Quantitative,statistical,analysis,molecular,dynamic,simulations,performed,reveal,boundaries,initial,ges,deformation,Multiple,appeared,loading,first,that,represents,yielding,was,identified,controlled,by,nucleation,which,sharp,contrast,continuous,elastic,transi,mediated,mechanisms,pure,metals,This,can,attributed,sluggish,kinetics,chemically,complex,hinders,diffusive,activities,facilitates,Subsequent,also,found,closely,extra,dragging,imposed,propagation,Moreover,extremely,sizes,consequent,volume,fraction,severely,restrict,lengths,source,radii,loop,giving,rise,higher,critical,stress,smaller,tivation,lower,width,compared,its,coarse,grained,counterpart,These,results,provide,new,insights,into,onset,concentrated,multi,principal,element,alloys
AB值:
0.532835
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