Author_Institution :
Fac. of Math., Mech. & Comput. Sci., Southern Fed. Univ., Rostov on Don, Russia
Abstract :
One of the major problems in modeling polarizing processes in polycrystalline ferroelectrics materials is the problem of a formulation of constitutive equations between an electric field and polarization. There is a set of the models using power principles. For example, models and methods of the theory of plasticity (Landis C.M., Huber J.E., McMeeking R.M., Fleck N.A.), models of the theory of pinning sites (Jilys D.C., Atherton D.L., Smith, R.C., Ounaies Z., Hom C.L.), models of the theory of switching (Chen W., Hwang S.C., Huo Y., Jiang Q., Lu W., Fang D.N., Zhang Z.K.) and others. In the present work the method of the theory of pinning sites is generalized on a three-dimensional case. Constitutive equations are obtained in the form of system of the partial differential equations which manage to be reduced to system of the ordinary differential equations.
Keywords :
dielectric polarisation; ferroelectric materials; partial differential equations; ordinary differential equations; partial differential equations; pinning sites; polarization; polycrystalline ferroelectrics materials; three-dimensional case; Differential equations; Ferroelectric materials; Mathematical model; Mathematics; Partial differential equations; Polarization; Power system modeling; Tensile stress;
