Reactive cluster model of metallic glasses
Abstract
Though discovered more than a half century ago metallic glasses remain a scientific enigma. Unlike crystalline metals, characterized by short, medium, and long-range order, in metallic glasses short and medium-range order persist, though long-range order is absent. This fact has prompted research to develop structural descriptions of metallic glasses. Among these are cluster-based models that attribute amorphous structure to the existence of clusters that are incommensurate with crystalline periodicity. Not addressed, however, are the chemical factors stabilizing these clusters and promoting their interconnections. We have found that glass formers are characterized by a rich cluster chemistry that above the glass transformation temperature promotes exchange as well as static and vibronic sharing of atoms between clusters. The vibronic mechanism induces correlated motions between neighboring clusters and we hypothesize that the distance over which these motions are correlated mediates metallic glass stability and influences critical cooling rates.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Feb 24, 2014
- Source ID
- 10.1063/1.4865336
Entities
People
- Jonathan Miorelli
- Mark E Eberhart
- Travis E. Jones
Organizations
- Colorado School of Mines
- Office of Naval Research
- University of Sydney