A finite element solution of Bergan-Wang plate model
IOP Conf. Series: Materials Science and Engineering • 2019
Publication Information
Authors
Kamal Hassan ;Ehab Ali; Mohammad Tawfik
Keywords
Bergan-Wang approach, Thin and Thick plate, Displacement finite element formulation.
Journal
IOP Conf. Series: Materials Science and Engineering
Publisher
IOP Publishing Ltd
Volume
610
Issue
Not Available
Pages
Not Available
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Bergan-Wang approach has led to a formulation of the strain energy of a plate bending
deflection as function of only the transversal deflection of the plate. In this paper, two rectangular
plate bending finite elements are introduced, using new degrees of freedom based on Bergan-
Wang approach for analysis of thin, moderately thick plates, in terms of this unique variable.
The first element has four nodes with 24 DOF while the second has 36 DOF. These two elements
are conforming in case of thin plates. Adopting the usual 3 boundary conditions of Reissner-
Mindlin theory, variety of examples have been analysed for thin and moderately thick plate
bending problems with plurality of finite element meshes and a variety of thickness to plate
length ratios with different boundary conditions on sides. As typical characteristics of Bergan-
Wang approach, there is no locking as the thickness decreases and convergence to the classical
thin plate solution is achieved. Comparison with Reissner-Mindlin and 3D solutions supports the
study.
deflection as function of only the transversal deflection of the plate. In this paper, two rectangular
plate bending finite elements are introduced, using new degrees of freedom based on Bergan-
Wang approach for analysis of thin, moderately thick plates, in terms of this unique variable.
The first element has four nodes with 24 DOF while the second has 36 DOF. These two elements
are conforming in case of thin plates. Adopting the usual 3 boundary conditions of Reissner-
Mindlin theory, variety of examples have been analysed for thin and moderately thick plate
bending problems with plurality of finite element meshes and a variety of thickness to plate
length ratios with different boundary conditions on sides. As typical characteristics of Bergan-
Wang approach, there is no locking as the thickness decreases and convergence to the classical
thin plate solution is achieved. Comparison with Reissner-Mindlin and 3D solutions supports the
study.
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