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Magneto-electro-mechanical vibration of porous functionally graded smart sandwich plates with viscoelastic core

Hamid Reza Talebi Amanieh, Seyed Alireza Seyed Roknizadeh, Arash Reza

2020Proceedings of the Institution of Mechanical Engineers Part L Journal of Materials Design and Applications15 citationsDOI

Abstract

In this paper, the vibrations of a sandwich plate with functionally graded magneto-electro-elastic (FG-MEE) face sheets and porous and viscoelastic core were investigated. Power-law rule modified by two types of porosity distributions was used to model the FG-MEE plates. The plate with even porosity distribution was considered as the FG-MEE-I model, while the one with uneven porosity distribution was labeled as the FG-MEE-II model. The normal and shear stresses were considered in the core layer, and the interlayer was modeled by the standard linear solid scheme. First-order shear deformation plate theory was used to derive the governing equation of the sandwich panel including the FG-MEE plate and viscoelastic core interaction. The governing equations were solved by the Navier method. A detailed parametric analysis was conducted to assess the effects of electric and magnetic fields, core-to-face sheet thickness ratio, and power-law index on the linear vibration characteristics of sandwich plates with functionally graded MEE face sheets. It is observed that for the FG-MEE-I model, an increase in the porosity coefficient led to a reduction in the frequency of the FG-MEE sandwich plate. On the contrary, for the FG-MEE-II model, an increment in the porosity coefficient enhanced the natural frequency.

Topics & Concepts

Materials sciencePorosityViscoelasticityVibrationSandwich panelComposite materialCore (optical fiber)Plate theoryMaterial propertiesStructural engineeringMechanicsPhysicsAcousticsEngineeringComposite Structure Analysis and OptimizationVibration and Dynamic AnalysisRailway Engineering and Dynamics
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