Nonlinear behavior of functionally graded circular plates with various boundary supports under asymmetric thermo-mechanical loading |
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Authors: | F Fallah A Nosier |
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Affiliation: | 1. Aerospace Research Institute, P.O. Box 1465774111, 15th Ave., Mahestan Ave., Shahrake Gharb, Tehran, Iran;2. Sharif University of Technology, Azadi Ave., Tehran, Iran |
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Abstract: | The equilibrium equations of the first-order nonlinear von Karman theory for FG circular plates under asymmetric transverse loading and heat conduction through the plate thickness are reformulated into those describing the interior and edge-zone problems of the plate. A two parameter perturbation technique, in conjunction with Fourier series method is used to obtain analytical solutions for nonlinear behavior of functionally graded circular plates with various clamped and simply-supported boundary conditions. The material properties are graded through the plate thickness according to a power-law distribution of the volume fraction of the constituents. The results are verified with known results in the literature. The load–deflection curves for different loadings, boundary conditions, and material constant in a solid circular plate are studied and discussed. It is shown that the behavior of FG plates with clamped or simply-supported boundary conditions are completely different. Under thermo-mechanical loading, snap-through buckling behavior is observed in simply-supported FG plates which are immovable in radial direction. Moreover, it is found that linear theory is inadequate for analyzing FG and also homogenous plates with immovable boundary supports in radial direction and subjected to thermal loading, even for deflections that are normally considered small. |
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Keywords: | Functionally graded materials Circular plate Nonlinear analysis Analytical solution Asymmetric loading Perturbation technique |
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