Shear post buckling analysis of FGM annular sector plates based on three dimensional elasticity for different boundary conditions

Shear post buckling analysis of FGM annular sector plates based on three dimensional elasticity for different boundary conditions

•Post-buckling analysis of annular sector plate subjected to in-plane shear load at upper surface.•Governing equations are based on three dimensional theory of elasticity.•Non-linear Green strain tensor is used.•Due to weak coupling between shear loads and resulting twisting moments, post-buckling o...

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Bibliographic Details
Published in:Computers & structures Vol. 207; pp. 132 - 147
Main Authors: Asemi, K., Salehi, M.
Format: Journal Article
Language:English
Published: New York Elsevier Ltd 01-09-2018
Elsevier BV
Subjects:
Annular plates
Bifurcations
Boundary conditions
Buckling
Elasticity
Equilibrium equations
FGM annular sector plate
Finite element analysis
Finite element method
Functionally gradient materials
Graded finite element method
Iterative methods
Material properties
Materials elasticity
Mathematical analysis
Nonlinear equations
Poisson's ratio
Postbuckling
Shear
Shear post-buckling
Shear stress
Strain
Thickness ratio
Three dimensional elasticity
Twisting
Graded finite element method
FGM annular sector plate
Three dimensional elasticity
Shear post-buckling
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Summary:•Post-buckling analysis of annular sector plate subjected to in-plane shear load at upper surface.•Governing equations are based on three dimensional theory of elasticity.•Non-linear Green strain tensor is used.•Due to weak coupling between shear loads and resulting twisting moments, post-buckling of simply supported FGM plate is of bifurcation-type buckling. In this paper, shear post-buckling analysis of functionally graded annular sector plates is considered. In-plane shear loads have been applied to either radial, circumferential, or all edges of annular sector plates. Moreover, post-buckling of annular sector plates subjected to in-plane shear load at upper/lower surfaces is investigated for the first time. Material properties are graded asymmetrically in the thickness direction according to a simple power law distribution in terms of the volume fractions of constituents while the Poisson’s ratio is assumed to be constant. The governing equations are based on three dimensional theory of elasticity in conjunction with non-linear Green strain tensor instead of the approximate plate theories and Von Karman assumptions. The governing equations are developed based on the principle of virtual work and solved based on graded finite element method. Non-linear equilibrium equations are solved based on iterative Newton–Raphson method. The effects of material gradient exponent, different sector angles, thickness ratio and four different boundary conditions on the post-buckling behavior of FGM annular sector plates have been investigated. Results denote that due to weak coupling between applied shear loads and the resulting twisting moments, shear post-buckling behavior of simply supported FGM plates is of the bifurcation-type buckling following a stable post-buckling path.
ISSN:0045-7949
1879-2243
DOI:10.1016/j.compstruc.2017.07.014