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Influence of Variable Nonlocal Parameter and Porosity on the Free Vibration Behavior of Functionally Graded Nanoplates

Vinh, P.V. and Huy, L.Q. (2021) Influence of Variable Nonlocal Parameter and Porosity on the Free Vibration Behavior of Functionally Graded Nanoplates. Shock and Vibration, 2021: 1219429. ISSN 10709622

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14. Influence of Variable Nonlocal Parameter and Porosity on the Free Vibration Behavior of Functionally Graded Nanoplates-Shock and Vibration, vol. 2021, Article ID 1219429.pdf - Published Version
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Abstract

This paper studies the influence of the variable nonlocal parameter and porosity on the free vibration behavior of the functionally graded nanoplates with porosity. Four patterns of distribution of the porosity through the thickness direction are considered. The classical nonlocal elasticity theory is modified to take into account the variation of the nonlocal parameter through the thickness of the nanoplates. The governing equations of motion are established using simple first-order shear deformation theory and Hamilton's principle. The closed-form solution based on Navier's technique is employed to solve the governing equations of motion of fully simply supported nanoplates. The accuracy of the present algorithm is proved via some comparison studies in some special cases. Then, the effects of the porosity, the variation of the nonlocal parameter, the power-law index, aspect ratio, and the side-to-thickness ratio on the free vibration of nanoscale porous plates are investigated carefully. The numerical results show that the porosity and nonlocal parameter have strong effects on the free vibration behavior of the nanoplates. © 2021 Pham Van Vinh and Le Quang Huy.

Item Type: Article
Divisions: Institutes > Institute of Techniques for Special Engineering
Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1155/2021/1219429
Uncontrolled Keywords: Aspect ratio; Elasticity; Equations of motion; Nanostructures; Porous plates; Shear deformation; Vibrations (mechanical); Closed form solutions; First-order shear deformation theory; Free vibration behavior; Fully simply supported; Governing equations of motion; Hamilton's principle; Non-local elasticity theories; Thickness direction; Porosity
Additional Information: Language of original document: English. All Open Access, Gold, Green.
URI: http://eprints.lqdtu.edu.vn/id/eprint/8735

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