Coupled Nonlinear Phenomena: Modeling and Simulation for Smart, Ferroic and Multiferroic Materials : March 28-April 1, 2005, San Francisco, California, USA.
Materials Research Society, 2005 - Ferroelastic crystals - 157 pages
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Investigations on Multiaxial Domain Switching Criteria
A Free Energy Model for the Inner Loop Behavior of Pseudoelastic Shape
A TwoDimensional Free Energy Model for Single Crystalline
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2005 Materials Research actuator applied electric field calculated ceramics coercive field constitutive law constitutive model coupling crack crystallographic depolarization dielectric domain switching domain wall effect elastic electric displacement electric field electric loading electrode electromechanical equations ferroelastic ferroelectric and ferroelastic ferroelectric film Figure finite element free energy frequency function Gibbs energy Gibbs free energy grain Helmholtz free energy hysteresis curves hysteretic ideal SC in-plane induced isotropic laminate layers linear loading rates loops macroscopic magnetic field magnetostrictive martensite material parameters Materials Research Society Mech mechanical loading micromechanical mode orientation permittivity phase fractions Phys piezoceramic piezoelectric constants plane strain PLZT polarization and strain poling polycrystal polycrystalline pore lattice remanent polarization remanent strain remnant saturation Seelecke shape memory shape memory alloys simulation single crystal strain and polarization strain rate substrate switching process temperature tensile tensor Terfenol-D thermal thermodynamic thickness thin films toughening transformation vector viscoplastic voltage