Calorimetric observations of amorphous and crystalline Ni-Zr alloy formation by solid-state reaction
- 15 May 1988
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 37 (15), 9049-9052
- https://doi.org/10.1103/physrevb.37.9049
Abstract
Differential scanning calorimetry and x-ray diffraction are utilized in a study of solid-state vitrification of multilayered composites of Ni and Zr. In order to understand better and optimize the amorphizing reaction, we have examined the kinetics of competing reactions: the formation and growth of crystalline intermetallic compounds. The value of the activation energy, , of the initial crystallization of the growing amorphous phase is determined to be =2.0±0.1 eV, establishing an upper limit on the thermal stability of the amorphous-diffusion couple.
Keywords
This publication has 15 references indexed in Scilit:
- Differential scanning calorimetry study of solid-state amorphization in multilayer thin-film Ni/ZrApplied Physics Letters, 1987
- Calorimetric Study of Amorphization in Planar, Binary, Multilayer, Thin-Film Diffusion Couples of Ni and ZrPhysical Review Letters, 1986
- Solid-state reaction and structure in compositionally modulated zirconium-nickel and titanium-nickel filmsPhysical Review B, 1986
- Transmission electron microscopic observations of amorphous NiZr alloy formation by solid-state reactionApplied Physics Letters, 1986
- Diffusivity of Ni in an amorphous Ni-Zr alloyPhysical Review Letters, 1985
- Formation and growth of amorphous phases by solid-state reaction in elemental composites prepared by cold workingApplied Physics Letters, 1984
- Short-range order and thermal stability in amorphous alloysJournal of Physics F: Metal Physics, 1984
- Formation of an Amorphous Alloy by Solid-State Reaction of the Pure Polycrystalline MetalsPhysical Review Letters, 1983
- Crystallization characteristics of Ni-Zr metallic glasses from Ni20Zr80 to Ni70Zr30Journal of Applied Physics, 1983
- Formation of an amorphous metallic hydride by reaction of hydrogen with crystalline intermetallic compounds—A new method of synthesizing metallic glassesApplied Physics Letters, 1983