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Thermal bending response of functionally graded magneto-electric–elastic shell employing non-polynomial model

J.C. Monge, J. L. Mantari

2022Mechanics of Advanced Materials and Structures19 citationsDOIOpen Access PDF

Abstract

The present mathematical model for complex shells is given in the framework of Carrera unified formulation. The mechanical, electrical, and magnetic equations are derived in terms of the principle of virtual displacement, Maxwell’s equations and Gauss equations. Fourier’s heat conduction equation is used. The governing equations are discretized by the Chebyshev–Gauss–Lobatto and solved with the differential quadrature method. The three-dimensional (3D) equilibrium for mechanical, electrical, and magnetic equations are employed for recovering the transverse stresses, electrical displacement and magnetic induction. Finally, quasi-3D solutions for cycloidal shell of revolution and a funnel panel are introduced in this paper.

Topics & Concepts

Mathematical analysisMaxwell's equationsChebyshev polynomialsGaussMathematicsPhysicsClassical mechanicsMechanicsQuantum mechanicsComposite Structure Analysis and OptimizationStructural Load-Bearing AnalysisStructural Analysis and Optimization
Thermal bending response of functionally graded magneto-electric–elastic shell employing non-polynomial model | Litcius