Litcius/Paper detail

On the vibration analysis of coupled transverse and shear piezoelectric functionally graded porous beams with higher-order theories

Mahmoud Askari, Eugenio Brusa, Cristiana Delprete

2020The Journal of Strain Analysis for Engineering Design19 citationsDOI

Abstract

This investigation aims to perform a detailed natural frequency analysis of functionally graded porous beams integrated with transverse ( d 31 ) and shear ( d 15 ) piezoelectric layers under short circuit and open circuit electrical conditions. It is assumed that the core layer is made of functionally graded materials containing porosities. Due to the existence of internal pores, the mechanical properties of functionally graded materials are considered according to the modified power-law rule which includes the effect of porosity. The distribution of electric potential within the d 31 and d 15 piezoelectric layers is modeled based on nonlinear variation for both short circuit and open circuit conditions. Employing the classical, the first-order, and the higher-order beam theories incorporated with the virtual work principle as well as Maxwell’s equation, the electromechanical equations of motion are derived. The governing equations are then solved analytically for simply supported boundary condition and a parametric study is presented. After validation of the results, some new interesting conclusions covering the effects of porosity volume fraction, porosity distribution, various piezoelectricity modes, power-law index, and the beam theories on short circuit and open circuit resonance frequencies are reported. It is believed that the presented numerical results could provide a benchmark to check the accuracy of the approximated approaches.

Topics & Concepts

PiezoelectricityBoundary value problemMechanicsVibrationBeam (structure)PorosityTransverse planeMaterials scienceMaterial propertiesEquations of motionMathematical analysisPhysicsClassical mechanicsStructural engineeringAcousticsMathematicsEngineeringOpticsComposite materialComposite Structure Analysis and OptimizationAcoustic Wave Phenomena ResearchRailway Engineering and Dynamics
On the vibration analysis of coupled transverse and shear piezoelectric functionally graded porous beams with higher-order theories | Litcius