Liquid phase and supercooled liquid phase welding of bulk metallic glasses

## Abstract We report the mechanical relaxation behaviors in typical supercooled liquids of bulk metallic glasses (BMGs). The metallic supercooled liquids are ideal systems for studying intrinsic motions of glass‐former supercooled liquids because their structure is close to the simple “dense rando

A method is introduced as a standard to characterize the formability, the maximum strain a bulk metallic glass (BMG) can undergo in its supercooled liquid state before it eventually crystallizes. When considering accuracy and practicality it was found that the maximum diameter to which a 0.1 cm 3 BM

AbstractÐThe workability of the supercooled liquid in metallic glass has been examined through the extrusion of a Zr 65 Al 10 Ni 10 Cu 15 at.% bulk glassy alloy with a wide supercooled liquid region. The metallic glass exhibited superplastic-like deformation behavior at high strain rates, resulting

Electron-irradiation-induced phase transformations in supercooled liquid, amorphous and crystalline phases were investigated in Zr 66.7 Cu 33.3 (numbers indicate at.%) metallic glass. The supercooled liquid and amorphous phases were unstable under electron irradiation at and above 552 K: C11 b -Zr 2