Athermal Martensites, Temperature-Time-Transformation Diagrams and Thermal Hysteresis: Monte Carlo Simulations of Strain Pseudospins
| Periodical | Solid State Phenomena (Volume 185) |
|---|---|
| Main Theme | Advanced Structural and Functional Materials for Protection |
| Edited by | Ma Jan and Santhiagu Ezhilvalavan |
| Pages | 31-33 |
| DOI | 10.4028/www.scientific.net/SSP.185.31 |
| Citation | N Shankaraiah et al., 2012, Solid State Phenomena, 185, 31 |
| Online since | February, 2012 |
| Authors | N Shankaraiah, K.P.N. Murthy, Turab Lookman, S.R. Shenoy |
| Keywords | Athermal Martensites, Monte-Carlo Simulation, Solid-Solid Transitions |
| Price | US$ 28,- |
We explore the kinetics of a three-state strain pseudospin model for a square/rectangle ferroelastic transition, described by a temperature dependent hamiltonian without quenched disorder, using temperature quench Monte Carlo simulations. The model hamiltonian includes power law anisotropic long range interactions, which lock the domain walls in a symmetry breaking diagonal direction. In athermal parameter regime, there are fast conversions at the athermal transition temperature, but with delay tails above it, as in experiment. The conversion delay tails have a Vogel-Fulcher divergence at transition to austenite. The incubation delays and their insensitivity to elastic energy scales are attributed to entropy barriers. Temperature cycling shows hysteretic behavior in physical quantities.
