Ultrastability of metallic supercooled liquid induced by vibration

The range of supercooled liquid region (Delta T) is the key parameter for evaluating the thermal stability and glass-forming ability of metallic glasses. The enhancement of Delta T is of significance not only for the glass formation and stability, but also for their thermoplastic forming ability. Traditional approaches to increase Delta T are composition regulation or dynamical modulation, which are either time-consuming or difficult to be controlled. Here, through a high-frequency ultrasonic vibration treatment, we show that the Delta T of a La-based metallic glass can be significantly widened from 64 K to 83 K, around 30% increment. This behavior is physically originated from the denser atomic packing and a lower stable basin in the energy landscape induced by the ultrasonic vibration energy. This work might provide a ready route to stabilize the supercooled liquid and glass, and give an insight into the understanding of the glass-forming of amorphous materials. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Automated summary

By applying high-frequency ultrasonic vibration treatment, the supercooled liquid region (ΔT) of La-based metallic glass can be significantly widened, leading to a denser atomic packing and a lower stable basin in the energy landscape induced by ultrasonic vibration energy.