Structure and Stability of an Amorphous Metal
- 12 October 1998
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 81 (15), 3159-3162
- https://doi.org/10.1103/physrevlett.81.3159
Abstract
Using molecular dynamics simulations, with a realistic many-body embedded-atom potential, and a novel method to characterize local order, we study the structure of pure nickel during the rapid quench of the liquid and in the resulting glass. In contrast with previous simulations with pair potentials, we find more crystalline order and fewer icosahedra for slower quenching rates, resulting in a glass less stable against crystallization. It is shown that there is not a specific amorphous structure, only the arrest of the transition from liquid to crystal, resulting in small crystalline clusters immersed in an amorphous matrix with the same structure of the liquid.Keywords
This publication has 33 references indexed in Scilit:
- Liquid landscapeNature, 1998
- Local investigation of the glass transition: Molecular dynamics and Voronoï tessellationEurophysics Letters, 1997
- Microstructural analysis of simulated liquid and amorphous NiPhysical Review B, 1996
- Microstructural analysis of simulatedglassPhysical Review B, 1994
- Icosahedral clustering in a supercooled liquid and glassThe Journal of Chemical Physics, 1991
- Icosahedral Ordering in the Lennard-Jones Liquid and GlassPhysical Review Letters, 1988
- Bond-orientational order in liquids and glassesPhysical Review B, 1983
- Crystal Structure and Pair Potentials: A Molecular-Dynamics StudyPhysical Review Letters, 1980
- Interaction potentials and their effect on crystal nucleation and symmetryThe Journal of Chemical Physics, 1979
- Packing models and structural specificityJournal of Non-Crystalline Solids, 1978