Title of article
Thermal buckling analysis of rectangular composite plates with temperature-dependent properties based on a layerwise theory
Author/Authors
Shariyat، نويسنده , , M.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
14
From page
439
To page
452
Abstract
Thermal buckling analysis of rectangular composite multilayered plates under uniform temperature rise is investigated using a layerwise plate theory. von Karman strain–displacement equations are employed to account for large deflections occurrence. It is already proven that the layerwise theory results are compatible with the three-dimensional theory of elasticity results. The accuracy of the present results is increased by substituting each layer by many virtual sub-layers. The final governing equations are not simplified or linearized. Material properties are assumed to vary with temperature. Hermitian finite element formulation is used to ensure a C1 continuity for the lateral deflections. No semi-analytic solution is employed to reduce the problem to an eigenvalue one. Layerwise formulations are usually displacement-based. Therefore, force or moment boundary conditions (e.g. simply supported boundary condition), are approximately satisfied. A FEM algorithm is presented to exactly incorporate the boundary conditions. A proposed numerical scheme and a modified Budiansky instability criterion presented by the author are used to determine the buckling temperature in a computerized solution. Finally, results of the present techniques are compared with the results of the high-order theories presented by some well-known researchers and the influences of various geometric and mechanical properties parameters of the composite plate on the buckling temperature are studied.
Keywords
Thermal buckling , Composite plate , layerwise theory , Boundary conditions , Budiansky criterion , Hermitian element
Journal title
Thin-Walled Structures
Serial Year
2007
Journal title
Thin-Walled Structures
Record number
1492360
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