An accurate mathematical study on the free vibration of stepped thickness circular/annular Mindlin functionally graded plates |
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| Authors: | Shahrokh Hosseini-Hashemi Masoud Derakhshani Mohammad Fadaee |
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| Affiliation: | 1. Impact Research Laboratory, School of Mechanical Engineering, Iran University of Science and Technology, Narmak, Tehran 16848-13114, Iran;2. Center of Excellence in railway Transportation, School of Railway Engineering, Iran University of Science and Technology, Tehran, Iran |
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| Abstract: | An analytical solution based on a new exact closed form procedure is presented for free vibration analysis of stepped circular and annular FG plates via first order shear deformation plate theory of Mindlin. The material properties change continuously through the thickness of the plate, which can vary according to a power-law distribution of the volume fraction of the constituents, whereas Poisson’s ratio is set to be constant. Based on the domain decomposition technique, five highly coupled governing partial differential equations of motion for freely vibrating FG plates were exactly solved by introducing the new potential functions as well as using the method of separation of variables. Several comparison studies were presented by those reported in the literature and the FEM analysis, for various thickness values and combinations of stepped thickness variations of circular/annular FG plates to demonstrate highly stability and accuracy of present exact procedure. The effect of the geometrical and material plate parameters such as step thickness ratios, step locations and the power law index on the natural frequencies of FG plates is investigated. |
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| Keywords: | Free vibration Stepped circular/annular plate Functionally graded material Mindlin theory |
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