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A family of simple and robust finite elements for linear and geometrically nonlinear analysis of laminated composite plates

journal contribution
posted on 2006-09-01, 00:00 authored by Y Zhang, Chunhui Yang
A family of simple, displacement-based and shear-flexible triangular and quadrilateral flat plate/shell elements for linear and geometrically nonlinear analysis of thin to moderately thick laminate composite plates are introduced and summarized in this paper.

The developed elements are based on the first-order shear deformation theory (FSDT) and von-Karman’s large deflection theory, and total Lagrangian approach is employed to formulate the element for geometrically nonlinear analysis. The deflection and rotation functions of the element boundary are obtained from Timoshenko’s laminated composite beam functions, thus convergence can be ensured theoretically for very thin laminates and shear-locking problem is avoided naturally.

The flat triangular plate/shell element is of 3-node, 18-degree-of-freedom, and the plane displacement interpolation functions of the Allman’s triangular membrane element with drilling degrees of freedom are taken as the in-plane displacements of the element. The flat quadrilateral plate/shell element is of 4-node, 24-degree-of-freedom, and the linear displacement interpolation functions of a quadrilateral plane element with drilling degrees of freedom are taken as the in-plane displacements.

The developed elements are simple in formulation, free from shear-locking, and include conventional engineering degrees of freedom. Numerical examples demonstrate that the elements are convergent, not sensitive to mesh distortion, accurate and efficient for linear and geometric nonlinear analysis of thin to moderately thick laminates.

History

Journal

Composite structures

Volume

75

Issue

1-4

Pagination

545 - 552

Publisher

Elsevier

Location

Amsterdam, The Netherlands

ISSN

0263-8223

eISSN

1879-1085

Language

eng

Notes

Paper presented at the International Conference on Composite Structures (13th : 2005 : Monash University, Melbourne)

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2006, Elsevier Ltd.

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