Do, N.-T. and Tran, T.T. (2023) Random vibration analysis of FGM plates subjected to moving load using a refined stochastic finite element method. Defence Technology. ISSN 20963459
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The article introduces a finite element procedure using the bilinear quadrilateral element or four-node rectangular element (namely Q4 element) based on a refined first-order shear deformation theory (r-FSDT) and Monte Carlo simulation (MCS), so-called refined stochastic finite element method to investigate the random vibration of functionally graded material (FGM) plates subjected to the moving load. The advantage of the proposed method is to use r-FSDT to improve the accuracy of classical FSDT, satisfy the stress-free condition at the plate boundaries, and combine with MCS to analyze the vibration of the FGM plate when the parameter inputs are random quantities following a normal distribution. The obtained results show that the distribution characteristics of the vibration response of the FGM plate depend on the standard deviation of the input parameters and the velocity of the moving load. Furthermore, the numerical results in this study are expected to contribute to improving the understanding of FGM plates subjected to moving loads with uncertain input parameters. © 2023 China Ordnance Society
Item Type: | Article |
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Divisions: | Faculties > Faculty of Mechanical Engineering |
Identification Number: | 10.1016/j.dt.2023.07.015 |
Uncontrolled Keywords: | Beams and girders; Finite element method; Functionally graded materials; Intelligent systems; Monte Carlo methods; Rectangular plate; Shear deformation; Stochastic systems; Uncertainty analysis; Vibration analysis, First-order shear deformation theory; Functionally graded material plates; Input parameter; Monte Carlo's simulation; Moving load; Q4 element; R-FSDT; Random vibration analysis; Random vibrations; Stochastic finite element method, Normal distribution |
URI: | http://eprints.lqdtu.edu.vn/id/eprint/10893 |