Field induced strains in antiferroelectrics

Author

Oh, Ki-Young ; Furuta, Atsushi ; Uchino, Kenji

Author_Institution

Dept. of Phys., Sophia Univ., Tokyo, Japan

fYear

1990

fDate

4-7 Dec 1990

Firstpage

743

Abstract

Lead zirconate-based materials with a slight content of titanium undergo an antiferroelectric-ferroelectric phase transition when an electric field is applied. The strains accompanying this field-induced transition are gigantic in comparison with the strain change in the antiferroelectric or ferroelectric state. In the case of components with a higher titanium content, the material will memorize the ferroelectric state, even under zero-field conditions, once the ferroelectric phase has been induced. The initial antiferroelectric phase is recovered with application of a small reverse bias or a thermal annealing. A mechanical clamp and a latching relay are typical applications of the shape memory ceramics

Keywords

antiferroelectric materials; ceramics; electric actuators; ferroelectric devices; ferroelectric transitions; lead compounds; relays; shape memory effects; PbNbO₃ZrO₃SnO₃TiO₃; antiferroelectric-ferroelectric phase transition; field induced strains; field-induced transition; latching relay; mechanical clamp; reverse bias; shape memory ceramics; thermal annealing; unimorph actuator; Capacitive sensors; Ceramics; Clamps; Ferroelectric materials; Lattices; Lead; Phase change materials; Relays; Shape memory alloys; Titanium;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium, 1990. Proceedings., IEEE 1990

Conference_Location

Honolulu, HI

Type

conf

DOI

10.1109/ULTSYM.1990.171464

Filename

171464