In-situ observations on shear-banding process during tension of a Zr-based bulk metallic glass composite with dendrites

In-situ quasistatic tension experiments inside scanning electron microscope were performed to study shearbanding behaviors of a Zr-based bulk metallic glass composite with the 50% volume fraction of dendritic phases. It was observed that the shear band initiates at the interface of metallic glass matrix and dendrites, and then propagates in the glass matrix. Dendrites change the propagation direction of shear bands or terminate the shear band within them. Both modes facilitate the multiplication of shear bands in the glass matrix between dendrites. Upon further loading, shear bands preferentially develop into cracks in the matrix, but the dendrites significantly improve the crack resistance. This work provides the first-hand information of shear-banding and failure of the Zr-based metallic glass composite with dendrites.

Automated summary

In this study, in-situ quasistatic tension experiments inside a scanning electron microscope were conducted to investigate the shearbanding behaviors of a Zr-based bulk metallic glass composite with dendritic phases. It was observed that shear bands initiate at the interface of the metallic glass matrix and dendrites, and dendrites can alter the propagation direction of shear bands or stop them. This work provides valuable insights into the shear-banding and failure mechanisms of Zr-based metallic glass composites with dendrites.