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International Journal of Mechanics and Materials in Design

Erschienen in:

01.06.2014

Nonlocal piezoelasticity based wave propagation of bonded double-piezoelectric nanobeam-systems

verfasst von: A. Ghorbanpour Arani, R. Kolahchi, S. A. Mortazavi

Erschienen in: International Journal of Mechanics and Materials in Design | Ausgabe 2/2014

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Abstract

Piezoelectric nanobeam (PNB) offer the possibility of being used in micro-electromechanical systems and nano-electromechanical systems and the dynamic testing of such structures often produces stress wave propagation in them. This work concerns with the size-dependent wave propagation of double-piezoelectric nanobeam-systems (DPNBSs) based on Euler–Bernoulli beam model. The two piezoelectric nanobeams are coupled by an enclosing elastic medium which is simulated by Pasternak foundation. Nonlocal piezoelasticity theory is used to derive the general differential equation based on Hamilton’s principal to include those scale effects. Particular attention is paid to the wave propagation piezoelectric control of the coupled system in three cases namely in-phase wave propagation, out-of-phase wave propagation and wave propagation when one PNB is stationary. In three mentioned cases, an analytical method is proposed to obtain phase velocity; cut-off and escape frequencies of the DPNBSs. Results indicate that the imposed external voltage is an effective controlling parameter for wave propagation of the coupled system. Furthermore, the phase velocity of in-phase wave propagation is independent of elastic medium stiffness.

Vorheriger Artikel XFEM simulation of stable crack growth using J–R curve under finite strain plasticity

Nächster Artikel Electromechanical bending response of PZT/CNT-based polymer laminates subjected to concentrated load

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Titel: Nonlocal piezoelasticity based wave propagation of bonded double-piezoelectric nanobeam-systems
verfasst von: A. Ghorbanpour Arani
R. Kolahchi
S. A. Mortazavi
Publikationsdatum: 01.06.2014
Verlag: Springer Netherlands
Erschienen in: International Journal of Mechanics and Materials in Design / Ausgabe 2/2014
Print ISSN: 1569-1713
Elektronische ISSN: 1573-8841
DOI: https://doi.org/10.1007/s10999-014-9239-0

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