A piezo-electromechanical structural member is composed of a host member, a uniformly distributed array of piezoelectric transducers and a passive electric circuit (acting as a controller) interconnecting their electric terminals. Such a circuit has to be designed to assure the most efficient transduction of mechanical into electrical energy. The needed circuits are synthesized for bars, beams and plates and the performances of the corresponding PEM structures are determined. Once suitable dissipative elements are included in the controller, it is proven that, in PEM structures, mechanical vibrations are the most efficiently damped. © 2003 Académie des sciences/Éditions scientifiques et médicales Elsevier SAS, All rights reserved.
Piezo-electromechanical (PEM) structures: Passive vibration control using distributed piezoelectric transducers / Dell'Isola, Francesco; Porfiri, Maurizio; Vidoli, Stefano. - In: COMPTES RENDUS MECANIQUE. - ISSN 1631-0721. - 331:1(2003), pp. 69-76. [10.1016/s1631-0721(03)00022-6]
Piezo-electromechanical (PEM) structures: Passive vibration control using distributed piezoelectric transducers
DELL'ISOLA, Francesco;PORFIRI, MAURIZIO;VIDOLI, Stefano
2003
Abstract
A piezo-electromechanical structural member is composed of a host member, a uniformly distributed array of piezoelectric transducers and a passive electric circuit (acting as a controller) interconnecting their electric terminals. Such a circuit has to be designed to assure the most efficient transduction of mechanical into electrical energy. The needed circuits are synthesized for bars, beams and plates and the performances of the corresponding PEM structures are determined. Once suitable dissipative elements are included in the controller, it is proven that, in PEM structures, mechanical vibrations are the most efficiently damped. © 2003 Académie des sciences/Éditions scientifiques et médicales Elsevier SAS, All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
