Title :
Electrorheological model of high-strain active materials
Author :
Soukhojak, Andrey N. ; Chiang, Yet-ming
Author_Institution :
MIT, Cambridge, MA, USA
Abstract :
The loss factor cannot express frequency-dependent, nonperiodic time-dependent or nonlinear responses. We present a phenomenological model that describes the time- and frequency-dependent behavior of electromechanically active materials. Expanding rheology, we introduce an electrorheological model incorporating time constants corresponding not only to the viscoelastic response, i.e. strain vs. stress, but also: (1) polarization vs. field, (2) strain vs. polarization, (3) ferro-/antiferroelectric and ferroelastic domain switching under applied field and/or stress. A single set of constitutive equations is obtained that can adequately describe experimentally observed pure and mixed cases of ferroic, antiferroic, and nonferroic response
Keywords :
dielectric polarisation; electric domains; electromechanical effects; electrorheology; ferroelasticity; ferroelectric switching; antiferroelectric domain switching; antiferroic response; constitutive equations; electromechanically active materials; electrorheological model; ferroelastic domain switching; ferroelectric domain switching; ferroic response; frequency dependence; high-strain active materials; loss factor; nonferroic response; nonlinear response; nonperiodic time dependence; phenomenological model; polarization response; time constants; viscoelastic response; Capacitive sensors; Crystalline materials; Dielectric losses; Elasticity; Equations; Frequency; Hysteresis; Polarization; Stress; Viscosity;
Conference_Titel :
Applications of Ferroelectrics, 2000. ISAF 2000. Proceedings of the 2000 12th IEEE International Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
0-7803-5940-2
DOI :
10.1109/ISAF.2000.942382
