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SUMMARYThe free-vibration characteristics of rectangular thick plates resting on elastic foundations have been studied, based on the three-dimensional, linear and small strain elasticity theory. The foundation is described by the Pasternak (two-parameter) model. The Ritz method is used to derive the eigenvalue equation of the rectangular plate by augmenting the strain energy of the plate with the potential energy of the elastic foundation. The Chebyshev polynomials multiplied by a boundary function are selected as the admissible functions of the displacement functions in each direction. The approach is suitable for rectangular plates with arbitrary boundary conditions. Convergence and comparison studies have been performed on square plates on elastic foundations with different boundary conditions. It is shown that the present method has a rapid convergent rate, stable numerical operation and very high accuracy. Parametric investigations on the dynamic behaviour of clamped square thick plates on elastic foundations have been carried out in detail, with respect to different thickness-span ratios and foundation parameters. Some results found for the first time have been given and some important conclusions have been drawn.

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Vibration of Multi-Span Non-Uniform Beams Under Moving Loads by Using Modified Beam Vibration Functions

Zheng

Cheung

et al. 1998

Journal of Sound and Vibration

122

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Structural Damage Detection Based on a Micro-Genetic Algorithm Using Incomplete and Noisy Modal Test Data

Cheng

Tham

et al. 2003

Journal of Sound and Vibration

106

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Three‐dimensional vibration analysis of rectangular thick plates on Pasternak foundation

Vibration of Multi-Span Non-Uniform Beams Under Moving Loads by Using Modified Beam Vibration Functions

Structural Damage Detection Based on a Micro-Genetic Algorithm Using Incomplete and Noisy Modal Test Data

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