The rate dependence of serrated flow and its effects on the stability of shear banding were systematically investigated in a prototypic bulk metallic glass.It was found that with the increase of external strain rate,the serra-ted flow is gradually suppressed and could completely disappear at a critical strain rate.The serration size,character-ized by the mean stress drop amplitude,decreases inversely with the strain rate,while the waiting time for serration decreases with the strain rate in a power-law manner.The rate dependence of the serrated flow has important effects on the dynamics and stability of shear banding process,and leads to an optimal plasticity achieved around the critical strain rate for the disappearance of serrated flow.These results are discussed and interpreted in terms of the mi-croscopic deformation theory and the stick-slip dynamics of shear banding for bulk metallic glasses.
参考文献
| [1] | J.W. Qiao;Y. Zhang;P.K. Liaw.Serrated flow kinetics in a Zr-based bulk metallic glass[J].Intermetallics,201011(11):2057-2064. |
| [2] | S.X. Song;T.G. Nieh.Flow serration and shear-band viscosity during inhomogeneous deformation of a Zr-based bulk metallic glass[J].Intermetallics,20099(9):762-767. |
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