Title of article
Stability of pressure-dependent, thermally-induced displacive transformations in bi-atomic crystals
Author/Authors
Ryan S. Elliott، نويسنده , , John A. Shaw، نويسنده , , Nicolas Triantafyllidis، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
12
From page
3845
To page
3856
Abstract
An important property of some metallic alloys, such as NiTi, for technological applications is their coupled thermomechanical
shape memory behavior. This is due to temperature-dependent first-order displacive (martensitic) transformations
in which their crystal structures transform between a higher symmetry cubic phase and lower symmetry
phases (rhombohedral, tetragonal, orthorhombic, or monoclinic).
In a recent paper, Elliott et al. (J. Mech. Phys. Solids, in press) proposed a nano-mechanical model based on
temperature-dependent atomic potentials to explicitly construct an energy density W ðF; hÞ to find all the different
equilibrium paths and their stability of a stress-free bi-atomic perfect crystal as a function of temperature. In this work
we investigate the influence of hydrostatic pressure. In general, hydrostatic compression increases the critical temperatures
on the principal branches. For the same absolute value, hydrostatic tension is found to have a more pronounced
effect on the equilibrium paths than hydrostatic compression
Keywords
Compression , stability , Symmetry phases , crystal
Journal title
International Journal of Solids and Structures
Serial Year
2002
Journal title
International Journal of Solids and Structures
Record number
447904
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