Title :
New materials for large strain sonar applications
Author :
Rittenmyer, Kurt M. ; Ting, Robert Y.
Author_Institution :
Underwater Sound Reference Detachment, Naval Res. Lab., Orlando, FL, USA
Abstract :
Several new materials capable of generating large strains by the application of an electric field are being developed for applications as actuators and high-drive sonar projectors. These materials are capable of generating strains which are an order of magnitude larger than those produced by conventional lead zirconate-titanate ceramics. The first group of materials are the class of lead magnesium niobate-lead titanate (PMN-PT). These materials are electrostrictive and, therefore, are operated under dc bias fields. The largest strains are obtained when the temperature is maintained in the region of the order-disorder phase transition of the material. This, however, makes the properties of the material somewhat temperature dependent. Recent advances have developed a material with extremely low losses which can be used as a sonar projector or an actuator. Results are presented of measurements on several compositions of PMN-PT which are believed to be the best candidates for actuator and transducer applications
Keywords :
acoustoelectric transducers; electric actuators; electrostriction; ferroelectric materials; lead compounds; sonar; PMN-PT; PbMgO3NbO3-PbTiO3; actuators; dc bias fields; electric field; electrostrictive material; high-drive sonar projectors; large strain sonar applications; lead magnesium niobate-lead titanate; losses; order-disorder phase transition; temperature; transducer; Actuators; Capacitive sensors; Ceramics; Electrostriction; Magnesium; Sonar applications; Sonar measurements; Temperature dependence; Titanium compounds; Transducers;
Conference_Titel :
OCEANS '94. 'Oceans Engineering for Today's Technology and Tomorrow's Preservation.' Proceedings
Conference_Location :
Brest
Print_ISBN :
0-7803-2056-5
DOI :
10.1109/OCEANS.1994.363907
