Title :
Piezoceramic coefficient hysteresis under high stress and electric field
Author :
Boucher, E. ; Sebald, G. ; Guyomar, D. ; Pleska, E.
Author_Institution :
LGEF, INSA, Villeurbanne, France
fDate :
28 May-1 June 2002
Abstract :
This paper summarizes a mechanical model for characterizing hysteresis in ferroelectric materials at moderate to high drive levels. Hysteresis and nonlinearities are attributed to the displacement of domain walls. The model based on a simple mechanical element (dry friction), is developed to interpret piezo-coefficient hysteresis due to mechanical stress or electric field. The principles of basic element are given. The viability of the model is illustrated through comparison with experimental data from soft and hard PZT ceramics.
Keywords :
dielectric hysteresis; electric domains; ferroelectric ceramics; lead compounds; piezoceramics; PZT; PbZrO3TiO3; domain walls; dry friction; electric field effects; ferroelectric materials; high stress effects; piezoceramic coefficient hysteresis; Equations; Ferroelectric materials; Friction; Hysteresis; Piezoelectric actuators; Piezoelectric materials; Polarization; Springs; Stress; Switches;
Conference_Titel :
Applications of Ferroelectrics, 2002. ISAF 2002. Proceedings of the 13th IEEE International Symposium on
Print_ISBN :
0-7803-7414-2
DOI :
10.1109/ISAF.2002.1195867
