The cold rolling(CR)reduction dependence of microstructure evolutions and mechanical properties for Al0.5CoCr0.8FeNi2.5V0.2 high-entropy alloy(HEA)were investigated.The HEA remains FCC structures consisting of nanoscale ordered L12 phase,confirming the phase formation prediction.With increasing CR reduction,the textures transform from random ones to FCC rolling ones accompanied by dense slip bands and deformation twins.Under a 50％CR reduction,the deformation textures started to become evident and were governed by typical{111}＜112＞F,{110}＜100＞Goss and{112}＜111＞Cu texture components.When the CR reduction approached 90％,the deformation textures mainly contained the{110}＜111＞A,{114}＜110＞X,and{112}＜111＞Cu texture components.As a result,both Vickers hardness and ultimate strength increased,but the ductility decreased roughly.The enhanced strength should be attributed to the anisotropy and work hardening behavior from textures.The plastic deformation for the samples under low CR reductions was dominated by deformation twins and slip bands.However,under high CR reductions,the textures severely impeded the further propagation of pre-existing slip bands,leading to the rapid decrease of ductility.Therefore,the CR reduction should be carefully designed before optimal heat treatments to enhance the strength and ductility synergy.

Tongtong Sun;Weidong Song;Feilong Shan;Kaikai Song;Kun Zhang;Chuanxiao Peng;Honggang Sun;Lina Hu

School of Mechanical,Electrical&Information Engineering,Shandong University,264209,Weihai,China;State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,100081,Beijing,China;CAS Key Laboratory of Microgravity(National Microgravity Laboratory),Institute of Mechanics,Chinese Academy of Sciences,100190,Beijing,China;Key Laboratory for Liquid-Solid Structural Evolution&Processing of Materials(Ministry of Education),Shandong University,250061,Jinan,China

自然科学进展·国际材料（英文）

[1]Tongtong Sun;Weidong Song;Feilong Shan;Kaikai Song;Kun Zhang;Chuanxiao Peng;Honggang Sun;Lina Hu-.Phase formation,texture evolutions,and mechanical behaviors of Al0.5CoCro.8FeNi2.5V0.2 high-entropy alloys upon cold rolling)[J].自然科学进展·国际材料（英文）,2022(02):196-205

5CoCro,8FeNi2,5CoCr0

Phase,evolutions,mechanical,behaviors,Al0,5V0,high,entropy,alloys,upon,cold,rolling,CR,dependence,microstructure,properties,HEA,were,investigated,remains,FCC,structures,consisting,nanoscale,ordered,L12,phase,confirming,prediction,With,increasing,textures,transform,from,random,ones,accompanied,by,dense,slip,bands,deformation,twins,Under,started,become,evident,governed,typical,Goss,components,When,approached,mainly,contained,result,both,Vickers,hardness,ultimate,strength,increased,ductility,decreased,roughly,enhanced,should,attributed,anisotropy,work,hardening,plastic,samples,under,low,reductions,was,dominated,However,severely,impeded,further,propagation,existing,leading,rapid,Therefore,carefully,designed,before,optimal,heat,treatments,synergy

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