Elasticity solution of functionally graded circular and annular plates integrated with sensor and actuator layers using differential quadrature |
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Authors: | A Alibeigloo V Simintan |
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Affiliation: | 1. Mech. Eng. Dep., Faculty of Engineering, Tarbiat Modares University, Tehran 14115-143, Iran;2. Mech. Eng. Dep., Faculty of Engineering, Bu-Ali Sina University, Hamedan, Iran |
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Abstract: | Based on three-dimensional theory of elasticity axisymmetric static analysis of functionally graded circular and annular plates imbedded in piezoelectric layers is investigated using differential quadrature method (DQM). The plate has various edges boundary conditions and its material properties are assumed to vary in an exponential law with the Poisson ratio to be constant. This method can give an analytical solution along the graded direction using the state space method (SSM) and an effective approximate solution along the radial direction using the one-dimensional DQM. The method is validated by comparing numerical results with the results obtained in the literature. Both the direct and the inverse piezoelectric effects are investigated and the influence of piezoelectric layers on the mechanical behavior of plate is studied. The effects of the gradient index, thickness to radius ratio, and edges boundary conditions on the static behavior of FG circular and annular plates are investigated. |
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Keywords: | Piezoelectric Static analysis Elasticity Differential quadrature FGM Circular plate |
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