Title :
Characterization of piezoceramics
Author :
Brissaud, Michel
Author_Institution :
Electr. Eng. & Ferroelectrics Lab., Villeurbanne, France
Abstract :
A 3-D approach to piezoelectric material characterization, based on the assumption that the coordinate axes are pure mode propagation directions, is described. In this case the general equations simplify and an analytical solution can be achieved. For two geometrical shapes (rectangular and cylindrical), stress and strain tensor components and the electrical impedance of the sample are obtained. These 3-D equations show that the wave velocities and permittivity are intrinsic parameters of the medium and do not depend on either the sample geometry or the mode that is considered. This was not true for the 1-D models where the wave velocities and permittivity are different for each of the modes or geometries.<>
Keywords :
ceramics; piezoelectric materials; 3-D approach; analytical solution; coordinate axes; cylindrical shape; electrical impedance; geometrical shapes; intrinsic parameters; mode propagation directions; permittivity; piezoceramics; piezoelectric material characterization; rectangular shape; strain tensor components; stress tensor components; wave velocities; Algorithm design and analysis; Capacitive sensors; Equations; Permittivity; Piezoelectric materials; Piezoelectricity; Resonance; Shape; Splicing; Tensile stress;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
