Synthesis and mechanical properties of highly structure-controlled Zr-based metallic glasses by thermal rejuvenation technique

A novel thermal rejuvenation treatment facility for Zr-based bulk metallic glass (BMG) was developed, consisting of a rapid heating and indirect liquid nitrogen quenching process. The re-introduction of free volume into thermally rejuvenated BMG results in more disordered state. The rejuvenation improves ductility, implying that the re-introduced free volume aids in the recovery of the shear transformation zone (STZ) site and volume. Actually, it is confirmed that relaxation significantly reduces STZ volume; however, it is recovered by thermal rejuvenation. Molecular dynamics simulations also indicate that rejuvenation enhances homogeneous deformation. The current findings indicate that the thermal rejuvenation method is extremely effective for recovering or improving the ductility of metallic glass that has been lost due to relaxation.

Automated summary

A novel thermal rejuvenation treatment facility for Zr-based bulk metallic glass (BMG) was developed, which involves rapid heating and indirect liquid nitrogen quenching. The reintroduction of free volume into the thermally rejuvenated BMG leads to a more disordered state. The rejuvenation process improves ductility by aiding in the recovery of shear transformation zone (STZ) site and volume.