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Vibration analysis of tri-directionally coated plate via thickness-stretching and microstructure-dependent modeling

Daikh, A.A. and Belarbi, M.-O. and Vinh, P.V. and Li, L. and Houari, M.S.A. and Eltaher, M.A. (2024) Vibration analysis of tri-directionally coated plate via thickness-stretching and microstructure-dependent modeling. Mechanics Research Communications, 135. ISSN 00936413

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Abstract

In this study, the tri-directionally-coated functionally graded plate has different levels of microstructure and is modeled more accurately using nonclassical mechanics incorporating the intrinsic characteristic lengths as well as using a spatial variation of material properties. The free vibration behavior of the tri-directionally-coated functionally graded plate is investigated using a refined quasi-3D higher-order shear deformation theory in conjunction with nonlocal strain gradient theory. Based on the generalized field of displacement, the quasi-3D higher-order shear deformation theory is employed by reducing the number of variables from six to five variables. The equations of motion are performed based on the principle of Hamilton and solved by applying the Galerkin technique to cover various boundary conditions. Besides, the microstructure-dependent parameters, that is, the nonlocal parameter and the length scale parameter, also affect significantly the frequency of the tri-directionally-coated functionally graded plates. The multi-directionally-coated plate is softened when considering the nonlocal parameter; the multi-directionally-coated plate is, however, hardened when considering the length scale parameter. © 2023 Elsevier Ltd

Item Type: Article
Divisions: Offices > Office of International Cooperation
Identification Number: 10.1016/j.mechrescom.2023.104221
Uncontrolled Keywords: Coated materials; Equations of motion; Functionally graded materials; Shear deformation; Vibration analysis, Five parameters; Five-parameter quasi 3d high-order shear deformation plate theory; Higher-order shear deformation plate theory; Multi-directional functionally graded; Multi-directional functionally graded material; Nonlocal; Nonlocal strain gradient theory; Quasi-3D; Strain gradient theory; Vibration response, Microstructure
Additional Information: cited By 1
URI: http://eprints.lqdtu.edu.vn/id/eprint/11021

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