典型文献
Comparison of formation and evolution of radiation-induced defects in pure Ni and Ni-Co-Fe medium-entropy alloy
文献摘要:
High-entropy alloys(HEAs)and medium-entropy alloys(MEAs)have attracted a great deal of attention for develop-ing nuclear materials because of their excellent irradiation tolerance.Herein,formation and evolution of radiation-induced defects in NiCoFe MEA and pure Ni are investigated and compared using molecular dynamics simulation.It is observed that the defect recombination rate of ternary NiCoFe MEA is higher than that of pure Ni,which is mainly because,in the process of cascade collision,the energy dissipated through atom displacement decreases with increasing the chemical disorder.Consequently,the heat peak phase lasts longer,and the recombination time of the radiation defects(interstitial atoms and vacancies)is likewise longer,with fewer deleterious defects.Moreover,by studying the formation and evolution of dislocation loops in Ni-Co-Fe alloys and Ni,it is found that the stacking fault energy in Ni-Co-Fe decreases as the ele-mental composition increases,facilitating the formation of ideal stacking fault tetrahedron structures.Hence,these findings shed new light on studying the formation and evolution of radiation-induced defects in MEAs.
文献关键词:
中图分类号:
作者姓名:
Lin Lang;Huiqiu Deng;Jiayou Tao;Tengfei Yang;Yeping Lin;Wangyu Hu
作者机构:
Key Laboratory of Hunan Province on Information Photonics and Freespace Optical Communications,School of Physics and Electrical Sciences,Hunan Institute of Science and Technology,Yueyang 414006,China;School of Physics and Electronics,Hunan University,Changsha 410082,China;College of Materials Science and Engineering,Hunan University,Changsha 410082,China
文献出处:
引用格式:
[1]Lin Lang;Huiqiu Deng;Jiayou Tao;Tengfei Yang;Yeping Lin;Wangyu Hu-.Comparison of formation and evolution of radiation-induced defects in pure Ni and Ni-Co-Fe medium-entropy alloy)[J].中国物理B(英文版),2022(12):494-502
A类:
NiCoFe
B类:
Comparison,formation,evolution,induced,defects,pure,medium,entropy,High,alloys,HEAs,MEAs,have,attracted,great,attention,develop,nuclear,materials,because,their,excellent,irradiation,tolerance,Herein,investigated,compared,using,molecular,dynamics,simulation,It,observed,that,recombination,rate,ternary,higher,than,which,mainly,process,cascade,collision,energy,dissipated,through,displacement,decreases,increasing,chemical,disorder,Consequently,heat,peak,phase,lasts,longer,interstitial,atoms,vacancies,likewise,fewer,deleterious,Moreover,by,studying,dislocation,loops,found,stacking,fault,mental,composition,increases,facilitating,ideal,tetrahedron,structures,Hence,these,findings,shed,new,light
AB值:
0.517445
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