A novel and simple HSDT for thermal buckling response of functionally graded sandwich plates

Elmossouess, Bouchra; Kebdani, Said; Bouiadjra, Mohamed Bachir; Tounsi, Abdelouahed

doi:10.12989/sem.2017.62.4.401

Cited by 5 publications

(3 citation statements)

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“…They assumed that its mechanical properties depended on the temperature and presented the effect of the FG power index and porosity distribution on the buckling and vibration responses. Guessas et al [7] presented the buckling analysis of a carbon nano-tube porous plate. They modeled the plate using three different types of nanotubes with porosity distribution.…”

Section: Introductionmentioning

confidence: 99%

Critical buckling load analysis of porous orthotropic two-layered cylindrical panels based on trigonometric shear deformation theory

Turan

2023

Preprint

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The aim of this paper is to analyze the elastic buckling of porous orthotropic two-layered cylindrical panels based on the trigonometric shear deformation theory. In the porous two-layered cylindrical panel model, porosities are dispersed by uniform and non-uniform distribution patterns. The porosity-dependent material properties of two-layered cylindrical panel are assumed to vary along the layer’s thickness direction. First, the Virtual work principle is applied to derive governing equations. Then, the critical buckling load of the porous orthotropic two-layered cylindrical panels are obtained using the Galerkin’s solution procedure. Furthermore, the reliability of the current formulation is validated by several examples. Finally, the influence of porosity coefficients, porosity distribution patterns, geometrical parameters, and lamination sequences of the panel on the critical buckling load are investigated in detail.

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Section: Introductionmentioning

confidence: 99%

Critical buckling load analysis of porous orthotropic two-layered cylindrical panels based on trigonometric shear deformation theory

Turan

2023

Preprint

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“…Functionally graded materials (FGM) can be characterized by the gradual variation of material properties in the thickness. A new type of composite materials is developed recently (Abdelbaki et al [1]; Arnab Choudhury et al [2]; Abdelbaki et al [3]; Ebrahimi and Barati [4]; Ebrahimi and Heidari [5]; Elmerabet et al [6]; Elmossouess et al [7]; Houari et al [8]; Karami et al [9]; Mahjoobi and Bidgoli [10]; Mohamed et al [11]; Mokhtar et al [12]; Mokhtar et al [13]; Sadoun et al [14]; Salari et al [15]; Shafiei and Setoodeh [16]; Shokravi [17]; Tlidji et al [18]; Tounsi et al [19]; Tu et al [20]; Bocko, J et al [21]; Jozef, B et al [22]; Stephan, K et al [23]; Murín, J et al [24]; Sapountzakis, E et al [25]).…”

Section: Introductionmentioning

confidence: 99%

Free Vibration Analysis of Simply Supported P-FGM Nanoplate Using a Nonlocal Four Variables Shear Deformation Plate Theory

Chikh

2019

Strojnícky Časopis - Journal of Mechanical Engineering

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This paper shows an analysis of the free vibration of functionally graded simply supported nanoplate. The nonlocal four variables shear deformation plate theory is used to predict the free vibration frequencies of functionally graded nanoplate simply supported using non-local elasticity theory with the introduction of small-scale effects. The effect of the material properties, thickness-length ratio, aspect ratio, the exponent of the power law, the vibration mode is presented, the current solutions are compared to those obtained by other researchers. Equilibrium equations are obtained using the virtual displacements principle. P-FGM Power law is used to have a distribution of material properties that vary across the thickness. The results are in good agreement with those of the literature.

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“…Recently, the continuum mechanics approach has successfully used to study the static [12,13], the buckling [14,15,16], free vibration [17,18], wave propagation [19] and thermo-mechanical analysis of (CNTs) [20][21][22]. Nano beam [23][24][25][26][27][28] and nano plate [29][30][31][32][33][34][35][36]. The applicability of classical continuum theories is considered fail at the nanoscale, because the mechanical characteristics of the structures are often different from their macroscopic behavior whose length dimensions at the nanoscale are often small Consequently, the scale effect has been proposed in many non-local theories such as shear deformation theory [37], nanoscale including surface stress effects [38] and the nonlocal theory of elasticity [39].…”

Section: Introductionmentioning

confidence: 99%

Vibration Analysis of Nano Beam Using Differential Transform Method Including Thermal Effect

Hamza-Cherif

Meradjah

Zidour

et al. 2018

JNanoR

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In this paper, based on nonlocal Euler- Bernoulli beam model with arbitrary boundary conditions a simulation method called the Differential Transform Method (DTM) is employed to predict and to analysis the vibration of a single-walled carbon nanotube embedded in an elastic medium under thermal effect. A Winkler type elastic foundation is employed to model the interaction of carbon nanotube and the surrounding elastic medium. Ferstly, the Differential Transform Method is introduced. The research work reveals the significance of the small-scale coefficient, the vibrational mode number and the elastic medium on the non-dimensional natural frequency.

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A novel and simple HSDT for thermal buckling response of functionally graded sandwich plates

Cited by 5 publications

References 0 publications

Critical buckling load analysis of porous orthotropic two-layered cylindrical panels based on trigonometric shear deformation theory

Critical buckling load analysis of porous orthotropic two-layered cylindrical panels based on trigonometric shear deformation theory

Free Vibration Analysis of Simply Supported P-FGM Nanoplate Using a Nonlocal Four Variables Shear Deformation Plate Theory

Vibration Analysis of Nano Beam Using Differential Transform Method Including Thermal Effect

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