Phase transitions in crystals with a BCC structure

A theory of bcc-hcp and bcc-fcc structural phase transformations in metals with a high-temperature bcc lattice has been constructed on the basis of a pseudo-spin Ising Hamiltonian, which describes cooperative oscillations of atomic planes in a two-well potential with allowance for interactions betwe...

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Veröffentlicht in:	Physics of metals and metallography 2010-06, Vol.109 (6), p.568-584
Hauptverfasser:	Kassan-Ogly, F. A., Arkhipov, V. E., Shestakov, A. E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Atomic structure Body centered cubic lattice Chemistry and Materials Science Diffusion Materials Science Metallic Materials Oscillations Phase transformations Reflection Scattering Theory of Metals Transformations
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container_title	Physics of metals and metallography
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creator	Kassan-Ogly, F. A. Arkhipov, V. E. Shestakov, A. E.
description	A theory of bcc-hcp and bcc-fcc structural phase transformations in metals with a high-temperature bcc lattice has been constructed on the basis of a pseudo-spin Ising Hamiltonian, which describes cooperative oscillations of atomic planes in a two-well potential with allowance for interactions between nearest neighbors. The picture of diffuse scattering and of the combined rearrangement of original Bragg reflections and diffuse scattering into Bragg reflections upon transitions into low-temperature phases has been calculated at all temperatures. It is shown that the bcc-hcp and bcc-fcc phase transformations occur in a temperature interval rather than at a point. In the case of the bcc-hcp transformation, as the temperature decreases, the bcc structure first transforms jumpwise into an orthorhombic structure close to the hcp structure and then, with a further decrease in temperature, this structure smoothly changes into the strictly close-packed hexagonal structure at T → 0. In the case of the bcc-fcc transition, there occurs an analogous transformation into a strictly close-packed face-centered cubic structure at T → 0, but now through a monoclinic structure.
doi_str_mv	10.1134/S0031918X10060025
format	Article
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subjects	Atomic structure Body centered cubic lattice Chemistry and Materials Science Diffusion Materials Science Metallic Materials Oscillations Phase transformations Reflection Scattering Theory of Metals Transformations
title	Phase transitions in crystals with a BCC structure
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