A two-variable first-order shear deformation theory considering in-plane rotation for bending, buckling and free vibration analyses of isotropic plates
- Authors
- Park, Minwo; Choi, Dong-Ho
- Issue Date
- Sep-2018
- Publisher
- ELSEVIER SCIENCE INC
- Keywords
- Plate; Bending; Buckling; Vibration; In-plane rotation; First-order shear deformation theory
- Citation
- APPLIED MATHEMATICAL MODELLING, v.61, pp.49 - 71
- Indexed
- SCIE
SCOPUS
- Journal Title
- APPLIED MATHEMATICAL MODELLING
- Volume
- 61
- Start Page
- 49
- End Page
- 71
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/3038
- DOI
- 10.1016/j.apm.2018.03.036
- ISSN
- 0307-904X
- Abstract
- This paper presents a two-variable first-order shear deformation theory considering in-plane rotation for bending, buckling and free vibration analyses of isotropic plates. In recent studies, a simple first-order shear deformation theory (S-FSDT) was developed and extended. It has only two variables by separating the deflection into bending and shear parts while the conventional first-order shear deformation theory (FSDT) has three variables. However, the S-FSDT provides incorrect predictions for the transverse shear forces on the insides and the twisting moments at the boundaries except simply supported plates since it does not consider in-plane rotation. The present theory also has two variables but considers in-plane rotation such that it is able to correctly predict the responses of plates with any boundary conditions. Analytical solutions are obtained for rectangular plates with two opposite edges that are simply supported, with the other edges having arbitrary boundary conditions. Numerical results of deflections, stress resultants, buckling loads and natural frequencies are presented with the FSDT, the S-FSDT and the present theory. Comparative studies demonstrate the effects of in-plane rotation and the accuracy of the present theory in predicting the bending, buckling and free vibration responses of isotropic plates.
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