The 9th International Conference on Multiscale Materials Modeling

講演情報

Symposium

E. Deformation and Fracture Mechanism of Materials

[SY-E8] Symposium E-8

2018年10月31日(水) 16:00 〜 17:30 Room2

Chairs: Hao Wang(Institute of Metal Research, CAS, China), Jun-Ping Du(Kyoto University, Japan)

[SY-E8] Ab initio investigation on the stacking fault energy and the c/a ratio in hexagonal metals and alloys

Gang Zhou, Hao Wang, Dong sheng Xu, Rui Yang (Institute of Metal Research, Chinese Academy of Sciences, China)

For structural materials with hexagonal close-packed structures, the stacking fault energy and the ratio of c/a are key factors which have strong correlation with many properties, such as the critical shear stress of dislocations and deformation twinning. We thus employed high-throughput ab initio calculations to investigate the stacking fault energy and the c/a ratio in hexagonal metals, Mg, Ti, Zr, Be and Zn, as well as in alloyed Mg and Ti. The result indicates that the ratio of the unstable stacking fault energy on the prism plane over that on the basal plane, γpb, is primarily relevant to the c/a ratio. In Be, Mg and Zn, γpb increases with c/a leading to increasing preference of basal slip, whereas in Ti and Zr, γpb changes unperceivably with c/a leading to the preference of prism slip. In alloyed Mg and Ti, alloying varies both the stacking fault energy and the c/a ratio and certain alloying elements significantly affect -slip preference in Mg, while alloying exhibits negligible influence on -slip preference in hexagonal Ti.