Journal of Siberian Federal University. Mathematics & Physics: Analysis of the Influence of Porosity and Non-Uniform Polarization of Piezoelectric Ceramics on the Efficiency of a Bridge Transducer as Sensor and Actuator

Journal of Siberian Federal University. Mathematics & Physics / Analysis of the Influence of Porosity and Non-Uniform Polarization of Piezoelectric Ceramics on the Efficiency of a Bridge Transducer as Sensor and Actuator

Issue: Journal of Siberian Federal University. Mathematics & Physics. Prepublication
Authors: Nasedkin, Andrey V.; Nasedkina, Anna A.
Contact information: Nasedkin, Andrey V. : Southern Federal University Rostov on Don, Russian Federation; OCRID: 0000-0002-3883-2799; Nasedkina, Anna A. : Southern Federal University Rostov on Don, Russian Federation; OCRID: 0000-0003-1258-4886
Keywords: electroelasticity; bridge piezoelectric transducer; non-uniform polarization; resonant frequency; sensor; actuator; finite element method; porous piezoceramics
Abstract: Flexible piezoelectric transducers, and the transducers with bridge shaped end-caps in par- ticular, have found wide application as acoustic emitters and energy harvesting devices. In this paper, we investigate the possibilities of using porous piezoceramics as an active element of a bridge transducer. Particular attention is paid to taking into account the non-uniform polarization of porous piezoceramics with the use of simplified models. A finite element analysis of the bridge piezoelectric transducer under steady-state oscillations is performed in resonant and non-resonant modes of its operation. It is found that the use of porous piezoceramics increases the efficiency of the transducer during oscillations near the first frequency of electrical antiresonance.
Pages: 216–226
EDN: NKANAC
Paper at repository of SibFU: https://elib.sfu-kras.ru/handle/2311/154458