A variational principle for the equations of viscopiezoelectricity

Author

Lee, Peter C Y ; Edwards, Nicholas P.

Author_Institution

Dept. of Civil & Environ. Eng., Princeton Univ., NJ, USA

Volume

1

fYear

2004

fDate

23-27 Aug. 2004

Firstpage

794

Abstract

The three-dimensional equations of linear viscopiezoelectricity and an accompanying electromechanical energy theorem are deduced, by the quasi-electrostatic approximation, from the equations of viscoelectromagnetism and a generalized Poynting´s theorem, respectively. For a viscopiezoelectric solid of volume, V, and bounding surface, S, the internal energy, kinetic energy, and electric enthalpy densities, as well as the variation of work done over S and the variation of energy dissipation in V, are defined. A variational principle in terms of the defined functions is presented. It is shown that, from the principle, the equations of viscopiezoelectricity in V and the natural boundary conditions on S are obtained.

Keywords

Maxwell equations; approximation theory; electrostatics; enthalpy; piezoelectricity; variational techniques; Maxwell equations; acoustic viscosity; conductivity; current resistivity; electric enthalpy density; electromechanical energy theorem; generalized Poynting theorem; internal energy; kinetic energy; quasi-electrostatic approximation; solid damping; variational principle; viscoelectromagnetism equations; viscopiezoelectric solid; viscopiezoelectricity equations; Boundary conditions; Conductivity; Damping; Elasticity; Energy dissipation; Kinetic energy; Maxwell equations; Solids; Vectors; Viscosity;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium, 2004 IEEE

ISSN

1051-0117

Print_ISBN

0-7803-8412-1

Type

conf

DOI

10.1109/ULTSYM.2004.1417841

Filename

1417841