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- Title
Relaxation Pathways in Metallic Glasses.
- Authors
Gallino, Isabella; Busch, Ralf
- Abstract
At temperatures below the glass transition temperature, physical properties of metallic glasses, such as density, viscosity, electrical resistivity or enthalpy, slowly evolve with time. This is the process of physical aging that occurs among all types of glasses and leads to structural changes at the microscopic level. Even though the relaxation pathways are ruled by thermodynamics as the glass attempts to re-attain thermodynamic equilibrium, they are steered by sluggish kinetics at the microscopic level. Understanding the structural and dynamic pathways of the relaxing glassy state is still one of the grand challenges in materials physics. We review some of the recent experimental advances made in understanding the nature of the relaxation phenomenon in metallic glasses and its implications to the macroscopic and microscopic properties changes of the relaxing glass.
- Subjects
METALLIC glasses; CHEMICAL relaxation; GLASS transition temperature; THERMODYNAMIC equilibrium; MICROSCOPY; CHEMICAL kinetics
- Publication
JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2017, Vol 69, Issue 11, p2171
- ISSN
1047-4838
- Publication type
Article
- DOI
10.1007/s11837-017-2573-6