Title :
Electromechanical properties of high coupling single crystals under large electric drive and uniaxial compression
Author_Institution :
Sensors & Sonar Syst. Dept., Naval Undersea Warfare Center, Newport, RI, USA
Abstract :
This work investigates the 33-mode electromechanical response of relaxor-ferroelectric lead magnesium niobate-titanate (PMN-PT) single crystals when driven with large fields /spl sim/0.4 MV/m under a combined direct current (DC) field and mechanical bias similar to those used in the design of sound projectors. It demonstrates that the remarkable small signal length extensional coupling (k/sub 33/ > 90) and other electromechanical properties morphotropic PMN-PT single crystals prevail under large drive. The observed k/sub 33/ roll-off at 42 MPa compressive stress is analyzed in terms of the recent structural data arid the high-order Devonshire theory of possible ferroelectric-ferroelectric transition trajectories.
Keywords :
compressive strength; ferroelectric transitions; lead compounds; relaxor ferroelectrics; 42 MPa; PbMg/sub 0.33/Nb/sub 0.67/O/sub 3/-PbTiO/sub 3/; compressive stress; electromechanical properties; ferroelectric-ferroelectric transition trajectories; high-order Devonshire theory; relaxor-ferroelectric lead magnesium niobate-titanate; uniaxial compression; Bandwidth; Capacitive sensors; Ceramics; Crystals; Dielectric losses; Frequency; Magnesium; Piezoelectric transducers; Sonar detection; Titanium compounds;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2005.1561618
