Torsional properties of bamboo-like structured Cu nanowires
Recently,researchers reported that nanowires (NWs) are often polycrystalline,which contain grain or twin boundaries that transect the whole NW normal to its axial direction into a bamboo like structure.In this work,large-scale molecular dynamics simulation is employed to investigate the torsional behaviours of bamboo-like structured Cu NWs.The existence of grain boundaries is found to induce a considerably large reduction to the critical angle,and the more of grain boundaries the less reduction appears,whereas,the presence of twin boundaries only results in a relatively smaller reduction to the critical angle.The introduction of grain boundaries reduces the torsional rigidity of the NW,whereas,the twin boundaries exert insignificant influence to the torsional rigidity.NWs with grain boundaries are inclined to produce a local HCP structure during loading,and the plastic deformation is usually evenly distributed along the axial axis of the NW.The plastic deformation of both perfect NW and NWs with twin boundaries is dominated by the nucleation and propagation of parallel intrinsic stacking faults.This study will enrich the current understanding of the mechanical properties of NWs,which will eventually shed lights on their applications.
Grain Boundary Twin Boundary Nanowire Torsion Molecular Dynamics
Haifei Zhan Yuantong Gu
School of Chemistry,Physics and Mechanical Engineering,Queensland University of Technology,Brisbane,QLD,4001,Australia
国际会议
北京
英文
1-9
2013-06-16(万方平台首次上网日期,不代表论文的发表时间)