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Bending and Buckling of FG-GRNC Laminated Plates via Quasi-3D Nonlocal Strain Gradient Theory

by Alhawsawi, Abdulsalam M. , Eltaher, Mohamed A. , Daikh, Ahmed A. , Ghandourah, Emad E. , Fallatah, Othman A.

in Bending / Buckling / Composite materials / Deformation / Equilibrium equations / Finite element analysis / Food science / Functionally gradient materials / Galerkin method / Graphene / graphene platelet / Laminates / Load / material and length scale parameters / Mechanical properties / Mechanics / modified 3D nonlocal hyperbolic shear theory / Modulus of elasticity / Nanocomposites / Parameter modification / Parametric analysis / Plate theory / Poisson's ratio / reinforced composite plate / Shear deformation / Stiffness / Strain / Stresses / stresses and deformations / Thickness / Viscoelasticity / Weight reduction

2022

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Bending and Buckling of FG-GRNC Laminated Plates via Quasi-3D Nonlocal Strain Gradient Theory

by Alhawsawi, Abdulsalam M. , Eltaher, Mohamed A. , Daikh, Ahmed A. , Ghandourah, Emad E. , Fallatah, Othman A.

2022

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Bending and Buckling of FG-GRNC Laminated Plates via Quasi-3D Nonlocal Strain Gradient Theory

by Alhawsawi, Abdulsalam M. , Eltaher, Mohamed A. , Daikh, Ahmed A. , Ghandourah, Emad E. , Fallatah, Othman A.

2022

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Journal Article

Bending and Buckling of FG-GRNC Laminated Plates via Quasi-3D Nonlocal Strain Gradient Theory

Alhawsawi, Abdulsalam M.,

Eltaher, Mohamed A.,

Daikh, Ahmed A.,

Ghandourah, Emad E.,

Fallatah, Othman A.

2022

Overview

To improve the structural stiffness, strength and reduce the weight of nanoplate structure, functionally graded (FG) graphene-reinforced nanocomposite (GRNC) laminated plates are exploited in this paper. The bending and buckling behaviors of FG-GRNC laminated nanoplates are investigated by using novel quasi-3D hyperbolic higher order shear deformation plate theory in conjunction with modified continuum nonlocal strain gradient theory, which considered both length and material scale parameters. The modified model of Halpin–Tsai is employed to calculate the effective Young’s modulus of the GRNC plate along the thickness direction, and Poisson’s ratio and mass density are computed by using the rule of mixture. An analytical approach of the Galerkin method is developed to solve governing equilibrium equations of the GRNC nanoplate and obtain closed-form solutions for bending deflection, stress distributions and critical buckling loads. A detailed parametric analysis is carried out to highlight influences of length scale parameter (nonlocal), material scale parameter (gradient), distribution pattern, the GPL weight fraction, thickness stretching, geometry and size of GPLs, geometry of the plate and the total number of layers on the stresses, deformation and critical buckling loads. Some details are studied exclusively for the first time, such as stresses and nonlocality effect.

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Publisher

MDPI AG

Subject

Bending

/ Buckling

/ Composite materials

/ Deformation

/ Equilibrium equations

/ Finite element analysis

/ Food science