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An accurate model for free vibration of porous magneto-electro-thermo-elastic functionally graded cylindrical shells subjected to multi-field coupled loadings

Yiwen Ni, Shengbo Zhu, Jiabin Sun, Zhenzhen Tong, Zhenhuan Zhou, Xinsheng Xü, C.W. Lim

2021Journal of Intelligent Material Systems and Structures20 citationsDOI

Abstract

An accurate model for vibration of a porous magneto-electro-thermo-elastic functionally graded (METE-FG) cylindrical shell made of barium titanate (BaTiO 3 ) and cobalt diiron tetraoxide (CoFe 2 O 4 ) with magneto-electro-thermal loadings is proposed within the framework of Hamiltonian system. Four types of porosity distribution profiles in the thickness direction are considered. By introducing a new total eigenvector, the higher-order governing differential equations are transformed into a set of lower-order equations. The exact solution for free vibration of METE-FG shells can be expanded in terms of specific symplectic eigenfunctions having seven possible explicit forms. Subsequently, analytical frequency equations and vibration mode shapes for METE-FG shells with various boundary conditions are derived simultaneously. A comparison study is presented to demonstrate the accuracy of the proposed model and very good agreement is observed. The effects of material properties and magneto-electro-thermal loadings on free vibration characteristics of METE-FG cylindrical shells are analyzed and discussed in detail.

Topics & Concepts

EigenfunctionVibrationMaterials scienceBoundary value problemPorosityShell (structure)Normal modePiezoelectricityComposite materialEigenvalues and eigenvectorsMaterial propertiesThermalMathematical analysisMechanicsPhysicsMathematicsAcousticsThermodynamicsQuantum mechanicsComposite Structure Analysis and OptimizationNumerical methods in engineeringRailway Engineering and Dynamics
An accurate model for free vibration of porous magneto-electro-thermo-elastic functionally graded cylindrical shells subjected to multi-field coupled loadings | Litcius