中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2014年
11期
3645-3651
,共7页
赵文娟%徐东生%赵敬伟%王皞
趙文娟%徐東生%趙敬偉%王皞
조문연%서동생%조경위%왕호
γ-TiAl合金%倾斜晶界%分子动力学%拉伸变形%断裂
γ-TiAl閤金%傾斜晶界%分子動力學%拉伸變形%斷裂
γ-TiAl합금%경사정계%분자동역학%랍신변형%단렬
gamma TiAl alloy%tilt grain boundary%molecular dynamics%tensile deformation%fracture
采用分子动力学(MD)方法研究γ-TiAl合金中?110?对称倾斜界面的断裂行为,模拟在不同温度与应变速率下垂直界面方向的拉伸变形。结果表明:晶粒的相对取向及晶界特定的原子结构是影响位错形核临界应力的两个主要因素。取向差角度大于90°的Σ3(111)109.5°、Σ9(221)141.1°和Σ27(552)148.4°界面,位错在晶界处形核和扩展;取向差角度小于90°的Σ27(115)31.6°和Σ11(113)50.5°界面,无位错在晶界处形核,当应力达到峰值后界面直接断裂。γ-TiAl 双晶的断裂机制为微裂纹在界面处的形核及沿界面扩展;不同取向差界面的区别在于裂纹前端有无塑性区增韧。
採用分子動力學(MD)方法研究γ-TiAl閤金中?110?對稱傾斜界麵的斷裂行為,模擬在不同溫度與應變速率下垂直界麵方嚮的拉伸變形。結果錶明:晶粒的相對取嚮及晶界特定的原子結構是影響位錯形覈臨界應力的兩箇主要因素。取嚮差角度大于90°的Σ3(111)109.5°、Σ9(221)141.1°和Σ27(552)148.4°界麵,位錯在晶界處形覈和擴展;取嚮差角度小于90°的Σ27(115)31.6°和Σ11(113)50.5°界麵,無位錯在晶界處形覈,噹應力達到峰值後界麵直接斷裂。γ-TiAl 雙晶的斷裂機製為微裂紋在界麵處的形覈及沿界麵擴展;不同取嚮差界麵的區彆在于裂紋前耑有無塑性區增韌。
채용분자동역학(MD)방법연구γ-TiAl합금중?110?대칭경사계면적단렬행위,모의재불동온도여응변속솔하수직계면방향적랍신변형。결과표명:정립적상대취향급정계특정적원자결구시영향위착형핵림계응력적량개주요인소。취향차각도대우90°적Σ3(111)109.5°、Σ9(221)141.1°화Σ27(552)148.4°계면,위착재정계처형핵화확전;취향차각도소우90°적Σ27(115)31.6°화Σ11(113)50.5°계면,무위착재정계처형핵,당응력체도봉치후계면직접단렬。γ-TiAl 쌍정적단렬궤제위미렬문재계면처적형핵급연계면확전;불동취향차계면적구별재우렬문전단유무소성구증인。
Molecular dynamics (MD) simulations were carried out to study the fracture behaviors of several symmetric tilt grain boundaries inγ-TiAl bicrystals with?110? misorientation axes. Tensile deformation along direction perpendicular to grain boundary was simulated under various strain rates and temperatures. The results indicate that the relative orientation of the grains and the presence of certain atom units are two critical factors of the interface structure affecting the stress required for dislocation nucleation. Dislocations nucleate and extend at or near the symmetric tilt grain boundaries during the tensile deformation ofΣ3 (111) 109.5°,Σ9 (221) 141.1° andΣ27 (552) 148.4° interfaces. ForΣ27 (115) 31.6° andΣ11 (113) 50.5° interfaces, the interfaces fractured directly in a cleavage manner due to no dislocation emitted from the boundary. The tensile fracture mechanisms of the bicrystals are that micro-cracks nucleate at the grain boundary and propagate along the interface. The variance of crack propagation is whether there is accommodation of plastic region at the crack tips.