Orientation and strain rate dependent tensile behavior of single crystal titanium nanowires by molecular dynamics simulations
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2018年第5期
论文作者:Le Chang Chang-Yu Zhou Hong-Xi Liu Jian Li Xiao-Hua He
文章页码:864 - 877
摘 要:Molecular dynamics simulation was employed to study the tensile behavior of single crystal titanium nanowires(NWs)with1120,1100and[0001]orientations at different strain rates from 108s-1to1011s-1.When strain rates are above 1010s-1,the state transformation from HCP structure to amorphous state leads to super plasticity of Ti NWs,which is similar to FCC NWs.When strain rates are below 1010s-1,deformation mechanisms of Ti NWs show strong dependence on orientation.For1120orientated NW,1011compression twins(CTs)and the frequently activated transformation between CTs and deformation faults lead to higher plasticity than the other two orientated NWs.Besides,tensile deformation process along1120orientation is insensitive to strain rate.For 1100orientated NW,prismaticslip is the main deformation mode at 108s-1.As the strain rate increases,more types of dislocations are activated during plastic deformation process.For[0001]orientated NW,1012extension twinning is the main deformation mechanism,inducing the yield stress of[0001]orientated NW,which has the highest strain rate sensitivity.The number of initial nucleated twins increases while the saturation twin volume fraction decreases nonlinearly with increasing strain rate.
Le Chang1,Chang-Yu Zhou1,Hong-Xi Liu2,Jian Li1,Xiao-Hua He1
1. School of Mechanical and Power Engineering,Nanjing Tech University2. School of Mechanical Engineering,Jiangsu University of Science and Technology
摘 要:Molecular dynamics simulation was employed to study the tensile behavior of single crystal titanium nanowires(NWs)with1120,1100and[0001]orientations at different strain rates from 108s-1to1011s-1.When strain rates are above 1010s-1,the state transformation from HCP structure to amorphous state leads to super plasticity of Ti NWs,which is similar to FCC NWs.When strain rates are below 1010s-1,deformation mechanisms of Ti NWs show strong dependence on orientation.For1120orientated NW,1011compression twins(CTs)and the frequently activated transformation between CTs and deformation faults lead to higher plasticity than the other two orientated NWs.Besides,tensile deformation process along1120orientation is insensitive to strain rate.For 1100orientated NW,prismaticslip is the main deformation mode at 108s-1.As the strain rate increases,more types of dislocations are activated during plastic deformation process.For[0001]orientated NW,1012extension twinning is the main deformation mechanism,inducing the yield stress of[0001]orientated NW,which has the highest strain rate sensitivity.The number of initial nucleated twins increases while the saturation twin volume fraction decreases nonlinearly with increasing strain rate.
关键词:
