A review of theories for the modeling and analysis of functionally graded plates and shells

Mathematical models of elastic structures have become very sophisticated: given the crucial material properties (mass density and the several elastic moduli), computer-based techniques can be used to construct exotic finite element models. By contrast, the modeling of damping is usually very primitive, often consisting of no more than mere guesses at “modal damping factors.” The aim of this paper is to raise the modeling of viscoelastic structures to a level consistent with the modeling of elastic structures. Appropriate material properties are identified which permit the standard finite element formulations used for undamped structures to be extended to viscoelastic structures. Through the use of “dissipation” coordinates, the canonical “M , K ” form of the undamped motion equations is expanded to encompass viscoelastic damping. With this formulation finite element analysis can be used to model viscoelastic damping accurately.

Dynamics of viscoelastic structures: a time-domain finite element formulation

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A review of continuum mechanics models for size-dependent analysis of beams and plates

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Free vibration analysis of cylindrical shells using the Haar wavelet method

Xiang Xie

Papers

A unified approach for the vibration analysis of moderately thick composite laminated cylindrical shells with arbitrary boundary conditions

Free vibration analysis of composite laminated cylindrical shells using the Haar wavelet method

The Haar wavelet method for free vibration analysis of functionally graded cylindrical shells based on the shear deformation theory

Free vibration analysis of functionally graded conical shells and annular plates using the Haar wavelet method

Free vibration analysis of cylindrical shells using the Haar wavelet method