Fundamentals of graded ferroic materials and devices
ZG Ban, SP Alpay, JV Mantese - Physical Review B, 2003 - APS
ZG Ban, SP Alpay, JV Mantese
Physical Review B, 2003•APSA generalized Landau-Ginzburg model is constructed and used to develop a methodology
for analyzing graded ferroic materials. Material system inhomogeneities are assumed to
arise from compositional, temperature, or stress gradients. These spatial nonuniformities are
shown to give rise to local order parameters having corresponding spatial variation.
Functionally graded ferroic systems are thus found to result in nonuniform free energies with
attendant internal potentials, the latter of which are evidenced by displacements of the …
for analyzing graded ferroic materials. Material system inhomogeneities are assumed to
arise from compositional, temperature, or stress gradients. These spatial nonuniformities are
shown to give rise to local order parameters having corresponding spatial variation.
Functionally graded ferroic systems are thus found to result in nonuniform free energies with
attendant internal potentials, the latter of which are evidenced by displacements of the …
Abstract
A generalized Landau-Ginzburg model is constructed and used to develop a methodology for analyzing graded ferroic materials. Material system inhomogeneities are assumed to arise from compositional, temperature, or stress gradients. These spatial nonuniformities are shown to give rise to local order parameters having corresponding spatial variation. Functionally graded ferroic systems are thus found to result in nonuniform free energies with attendant internal potentials, the latter of which are evidenced by displacements of the materials’s stimulus-response hysteresis plots along the response axis (eg, polarization, magnetization, or strain axis).
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