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5-Dynamically reinforced heterogeneous grain structure prolongs ductility in a medium-entropy alloy with gigapascal yield strength

5-Dynamically reinforced heterogeneous grain structure prolongs ductility in a medium-entropy alloy with gigapascal yield strength

ID:40254261

大小:1.40 MB

页数:6页

时间:2019-07-29

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1、Dynamicallyreinforcedheterogeneousgrainstructureprolongsductilityinamedium-entropyalloywithgigapascalyieldstrengtha,1a,1a,bac,2a,b,2MuxinYang,DingshunYan,FupingYuan,PingJiang,EvanMa,andXiaoleiWuabStateKeyLaboratoryofNonlinearMechanics,InstituteofMechanics,ChineseAcade

2、myofSciences,100190Beijing,China;SchoolofEngineeringScience,cUniversityofChineseAcademyofSciences,100049Beijing,China;andDepartmentofMaterialsScienceandEngineering,JohnsHopkinsUniversity,Baltimore,MD21218EditedbyWilliamD.Nix,StanfordUniversity,Stanford,CA,andapprovedJ

3、une4,2018(receivedforreviewMay6,2018)Ductility,i.e.,uniformstrainachievableinuniaxialtension,12),twinningbecamedifficultinUFGgrains,and,atroomtem-diminishesformaterialswithveryhighyieldstrength.Evenforperature,strainhardeningremainedinadequatetosustainuni-theCrCoNimed

4、ium-entropyalloy(MEA),whichhasasimpleface-formelongationaftertheMEAyieldsat>1GPa(3).Ingeneral,centeredcubic(FCC)structurethatwouldbodewellforhighductility,plasticity-enhancingmechanismsinlow-SFEalloyssuchasphasethefinegrainsprocessedtoachievegigapascalstrengthexhaustt

5、hetransformation[transformation-inducedplasticity(TRIP)](10,strainhardeningabilitysuchthat,afteryielding,theuniformtensile30–33)andtwinning[twinning-inducedplasticity(TWIP)](1,2,strainisaslowas∼2%.Herewepurposelydeploy,inthisMEA,a34–41)alllosetheirpotencyinUFGandNGstr

6、uctures(34,35,three-levelheterogeneousgrainstructure(HGS)withgrainsizesspan-42,43).ningthenanometertomicrometerrange,impartingahighyieldHereweadvocateastrategygenerallyapplicableforsingle-strengthwellinexcessof1GPa.Thisheterogeneityresultsfromthisphaselow-SFEalloys,to

7、provideadequatestrainhardeningtoalloy’slowstackingfaultenergy,whichfacilitatescornertwinsinre-delaynecking.TheCrCoNiMEAisagoodmodeltoworkwith,crystallizationandstoresdeformationtwinsandstackingfaultsduringforsettinganexampleforsuchalloys.ThekeyideaunderlyingSCIENCESte

8、nsilestraining.Afteryielding,theelastoplastictransitionthroughourmicrostructuraldesignisasfollows.Weintentionallypushloadtra

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