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Thermal buckling and postbuckling analysis of functionally graded annular plates with temperature-dependent material properties
Highlights ► Temperature-dependence has significant effect on the buckling/postbuckling behavior. ► Differential quadrature method can be adopted carefully in stability analysis. ► Optimal design exist for the thermal buckling/postbuckling behavior of the FG plate.
Abstract As a first endeavor, the thermal buckling and postbuckling analysis of functionally graded (FG) annular plates with material properties graded in the radial direction is presented. The formulation is derived based on the first-order shear deformation theory (FSDT) and the geometrical nonlinearity is modeled using Green’s strain in conjunction with von Karman’s assumptions. The material properties are temperature-dependent and graded according to the power law distribution. It is assumed that the temperature varies along the radial direction. Using the virtual work principle, the pre-buckling and postbuckling equilibrium equations and the related boundary conditions are derived. Differential quadrature method (DQM) as an efficient numerical technique is adopted to solve the governing equations. The presented formulation and the method of solution are validated by performing convergence and comparison studies with available results in the literature. Finally, the effects of volume fraction index, geometrical parameters, mechanical/thermal properties of the constituent materials and boundary conditions on the thermal buckling and postbuckling behavior of the radially graded annular plate are evaluated and discussed.
Thermal buckling and postbuckling analysis of functionally graded annular plates with temperature-dependent material properties
Highlights ► Temperature-dependence has significant effect on the buckling/postbuckling behavior. ► Differential quadrature method can be adopted carefully in stability analysis. ► Optimal design exist for the thermal buckling/postbuckling behavior of the FG plate.
Abstract As a first endeavor, the thermal buckling and postbuckling analysis of functionally graded (FG) annular plates with material properties graded in the radial direction is presented. The formulation is derived based on the first-order shear deformation theory (FSDT) and the geometrical nonlinearity is modeled using Green’s strain in conjunction with von Karman’s assumptions. The material properties are temperature-dependent and graded according to the power law distribution. It is assumed that the temperature varies along the radial direction. Using the virtual work principle, the pre-buckling and postbuckling equilibrium equations and the related boundary conditions are derived. Differential quadrature method (DQM) as an efficient numerical technique is adopted to solve the governing equations. The presented formulation and the method of solution are validated by performing convergence and comparison studies with available results in the literature. Finally, the effects of volume fraction index, geometrical parameters, mechanical/thermal properties of the constituent materials and boundary conditions on the thermal buckling and postbuckling behavior of the radially graded annular plate are evaluated and discussed.
Thermal buckling and postbuckling analysis of functionally graded annular plates with temperature-dependent material properties
Sepahi, O. (Autor:in) / Forouzan, M.R. (Autor:in) / Malekzadeh, P. (Autor:in)
27.03.2011
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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