It is highly disputed about the microstructure and evolution of shear bands (SBs) in metallic glasses (MGs) which affect their yielding and plasticity. We reconstruct the nanostructure of SBs in a bent heterogeneous Pd-based MG fiber with synchrotron X-ray nano-computed tomography and perform finite element analysis on their formation and evolution. It is found that apart from plain SBs (PSBs) under small shear offsets, a large amount of hidden SBs (HSBs) of density fluctuations appear inside the MG, which do not induce shear offsets. The average densities of the HSBs are similar to 5%-similar to 25% smaller than the matrix around, and their thicknesses range from similar to 100 nm to similar to 530 nm. The diversified structures of the HSBs closely relate to the MG's multiscale structural heterogeneity and local strain rate. The HSBs can develop into PSBs that are densified near surface caused by structural relaxation under high temperatures, or be smeared by free volume redistribution in the low-density central area. The results could further the understanding of the formation and evolution of SBs' microstructure in heterogeneous glassy materials.

• 单位
  上海大学; 中国科学院