Pressure-induced amorphization of ZrTiCuNiBe bulk glass-forming alloy

20 August 2001

journal article
research article
Published by AIP Publishing in Applied Physics Letters

Vol. 79 (8) , 1106-1108
https://doi.org/10.1063/1.1396321

Abstract

{Zr}_{41} {Ti}_{14} {Cu}_{12.5} {Ni}_{10} {Be}_{22.5}

alloy can be cooled under high pressure (HP) to a bulky glassy state at very low cooling rates. The structure and properties of the bulk metallic glass (BMG) are investigated by differential scanning calorimetry, x-ray diffraction, ultrasonic study, and density measurements. The effects of pressure on the glass formation are discussed from the points of view of nucleation kinetics and thermodynamics. The BMG obtained under HP is in a high-density amorphous state that is different in structure and property from low-density amorphous phase quenched in water. Solidification under HP is a promising way not only for synthesizing BMGs with more densely packed structures and different properties, but also for understanding the glass formation mechanism.

Keywords

This publication has 17 references indexed in Scilit:

Microstructural transformation in a ${Zr}_{41} {Ti}_{14} {Cu}_{12.5} {Ni}_{10} {Be}_{22.5}$ bulk metallic glass under high pressure
Physical Review B, 2000
Supersoftening of transverse phonons in ${Zr}_{41} {Ti}_{14} {Cu}_{12.5} {Ni}_{10} {Be}_{22.5}$ bulk metallic glass
Physical Review B, 2000
Microstructure, decomposition, and crystallization in ${Zr}_{41} {Ti}_{14} {Cu}_{12.5} {Ni}_{10} {Be}_{22.5}$ bulk metallic glass
Physical Review B, 1998
High-pressure x-ray diffraction of ${SiO}_{2}$ glass
Physical Review Letters, 1992
Pressure effect on superconducting transition-temperature relaxation behavior of the ${Zr}_{70}$ ${Cu}_{30}$ amorphous alloy on annealing at elevated pressures
Physical Review B, 1989
Formation of near stoichiometric A15Nb3Si from annealing an amorphous alloy under high pressure
Zeitschrift für Physik B Condensed Matter, 1988
Spectroscopic Evidence for Pressure-Induced Coordination Changes in Silicate Glasses and Melts
Science, 1988
An apparently first-order transition between two amorphous phases of ice induced by pressure
Nature, 1985
Pressure induced structural relaxation in amorphous solids ? example of Fe40Ni40P14B6
Journal of Materials Science Letters, 1984
Phase Changes
Published by Elsevier ,1956