Article ID Journal Published Year Pages File Type
1544359 Physica E: Low-dimensional Systems and Nanostructures 2014 11 Pages PDF
Abstract

•Free vibration analysis of double-piezoelectric-nanoplate system (DPNPS) under electro-mechanical loads.•Both normal and shearing effects of the relative motion of two piezoelectric nanoplates are taken into account.•Closed-form solutions are presented for natural frequencies and critical electric voltages.•The effect of biaxial initial stress on the resonance frequencies in in-phase and out-of-phase modes is studied.

In this paper, a nonlocal continuum plate model is developed for the transverse vibration of double-piezoelectric-nanoplate systems (DPNPSs) with initial stress under an external electric voltage. The Pasternak foundation model is employed to take into account the effect of shearing between the two piezoelectric nanoplates in combination with normal behavior of coupling elastic medium. Size effects are taken into consideration using nonlocal continuum mechanics. Hamilton׳s principle is used to derive the differential equations of motion. The governing equations are solved for various boundary conditions by using the differential quadrature method (DQM). In addition, exact solutions are presented for the natural frequencies and critical electric voltages of DPNPS under biaxial prestressed conditions in in-phase and out-of-phase vibrational modes. It is shown that the natural frequencies of the DPNPS are quite sensitive to both nonlocal parameter and initial stress. The effects of in-plane preload and small scale are very important in the resonance mode of smart nanostructures using piezoelectric nanoplates.

Graphical abstractVibration response of double-piezoelectric-nanoplate systems under electro-mechanical loading including the effects of initial stress and small scale is studied using nonlocal elasticity theory. Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Materials Science Electronic, Optical and Magnetic Materials
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