Role of Cryogenic Cycling Rejuvenation on Flow Behavior of ZrCuAlNiAg Metallic Glass at Relaxation Temperature

In this work, the effects of cryogenic cycling rejuvenation on the flow behavior of ZrCuAlNiAg metallic glass (MG) in the range of relaxation region from 0.7 up to 0.9 glass transition temperature (T-g) were investigated. For this purpose, nanoindentation and strain-rate jump tests were carried out to show the strain response of glassy alloy. According to the jump test, the increase in applied temperature leads to the rise in induced strain in both of as-cast and rejuvenated samples. It was also uncovered that the rejuvenated sample is sensitive to the higher strain rates leading to the significant overshoot in the flow stresses. In addition, the nanoindentation results indicated that the loading process induced a significant anelastic strain in the rejuvenated sample at 0.9T(g), demonstrating the possible formation and percolation of shear transformation zones (STZs) in the rejuvenated amorphous structure.

Automated summary

This study investigated the flow behavior of ZrCuAlNiAg metallic glass under different temperatures through nanoindentation and strain-rate jump tests. The results revealed that the rejuvenated samples were more sensitive to strain rates, leading to a significant increase in flow stresses.