Title :
Relaxor ferroelectric materials
Author :
Shrout, Thomas R. ; Fielding, Joseph, Jr.
Author_Institution :
Mater. Res. Lab., Pennsylvania State Univ., University Park, PA, USA
Abstract :
The authors review relaxor ferroelectrics and associated phenomena. It is noted that the anomalously large dielectric constants ( K) of relaxor ferroelectrics make them ideal for multilayer capacitors, electrostrictive actuators, and E-field-induced piezoelectrics for low-frequency sonar and high-frequency biomedical transducers. The presence of morphotropic phase boundaries in various solid solutions gives rise to a new family of high-K piezoelectrics. Microstructurally, relaxors offer less grain size dependency than normal PZTs, allowing finer scale devices. Commonalities in dielectric and related behavior of relaxors suggest an interrelationship of the underlying intrinsic phenomena of these so-called nanocomposites
Keywords :
dielectric hysteresis; electrostriction; ferroelectric materials; ferroelectric transitions; permittivity; piezoelectric materials; PMN-PbTiO3; PbMgO3NbO3-PbTiO3; dielectric hysteresis; electrostrictive actuators; electrostrictive phenomena; grain size dependency; high-frequency biomedical transducers; large dielectric constants; low-frequency sonar; morphotropic phase boundaries; multilayer capacitors; nanocomposites; piezoelectrics; relaxor ferroelectrics; Biological materials; Biomedical materials; Capacitors; Dielectric constant; Dielectric materials; Electrostriction; Ferroelectric materials; Nonhomogeneous media; Piezoelectric actuators; Relaxor ferroelectrics;
Conference_Titel :
Ultrasonics Symposium, 1990. Proceedings., IEEE 1990
Conference_Location :
Honolulu, HI
DOI :
10.1109/ULTSYM.1990.171456
