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FINITE-ELEMENT MODELLING OF PIEZOELECTRIC ENERGY STORAGE DEVICE BASED ON CANTILEVER
Author(s) -
Arkady N. Solovyev,
Duong Le Van
Publication year - 2014
Publication title -
vestnik donskogo gosudarstvennogo tehničeskogo universiteta
Language(s) - English
Resource type - Journals
eISSN - 1992-6006
pISSN - 1992-5980
DOI - 10.12737/3516
Subject(s) - piezoelectricity , cantilever , finite element method , vibration , acoustics , generator (circuit theory) , harmonic , materials science , boundary value problem , structural engineering , mechanics , physics , composite material , engineering , power (physics) , quantum mechanics
Simulating a piezoelectric generator which is an element of the energy storage device is considered. A piezoelectric generator appears a cantilever - mounted plate on which the piezoelectric elements are glued, and the inertial mass is attached. Two options of the plate vibration exc itation are investigated. In the first case, the fixed side executes heave harmonic motions at a given frequency and with the desired amplitude; in the second — a ha r monic force is applied to this side. A three - dimensional boundary - value problem of the lin e ar theory of electroelasticity for the composite elastic and piezoelectric body is considered as a mathematical model of the device. The bo undary pro blem is solved through the finite - element package ANSYS. Under the numerical solution, PKR - 7M piezoceramic is taken as a piezoelectric material, whereas fiberglass, duralumin, steel are considered as a plate ma t e rial. Aluminum is used as a material of the inertial mass. Two cases are studied computationally. In the first case , the fixed side e x ecutes vertical harmonic vibrations at a given frequency and with a preset amplitude, in the second case, the force varying in a harmonic fashion is applied to this side. The device resonance frequency dependen ce upon the plate thickness for various materials and upon the value of the inertial element mass is studied. The results are pr esented graphically that allows finding the resonant frequency for certain sizes. The output potentia l dependences at the free electrodes of the piezoelectric elements on the resonant freque ncies and in the low - frequency region on the same parameters are investigated. These results are also presented graphically that allows a des igner to select reasonable feature sizes and the mix of ma terials to optimize the device.

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