Behaviour of Piezoelectric Ceramics under Various Environmental and Operation Conditions of Radiating Sonar Transducers. Berlincourt, D A & Krueger, H H A abstract bibtex Design of transducers for lower frequency high power density, and deeper submersion puts increasing demands on piezoelectric transducer materials. It has been demonstrated that appropriate lead titanate zirconate ceramics can operate under high bias stress and at high power levels without failure. However, changes in physical properties, especially in permittivity as a result of a change in static compressive stress and changes in permittivity and tan∂ with drive amplitude, have become increasingly of concern.
@article{berlincourt_behaviour_nodate,
title = {Behaviour of {Piezoelectric} {Ceramics} under {Various} {Environmental} and {Operation} {Conditions} of {Radiating} {Sonar} {Transducers}},
abstract = {Design of transducers for lower frequency high power density, and deeper submersion puts increasing demands on piezoelectric transducer materials. It has been demonstrated that appropriate lead titanate zirconate ceramics can operate under high bias stress and at high power levels without failure. However, changes in physical properties, especially in permittivity as a result of a change in static compressive stress and changes in permittivity and tan∂ with drive amplitude, have become increasingly of concern.},
language = {en},
author = {Berlincourt, D A and Krueger, H H A},
pages = {22},
}
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