A NEW FINITE ELEMENT FORMULATION FOR PLANAR ELASTIC DEFORMATION

For the stress analysis of planar deformable bodies, we usually refer to either plane stress or plane strain hypothesis. Three‐dimensional analysis is required when neither hypothesis is applicable, e.g. bodies with finite thickness. In this paper, we derive an ‘exact’ solution for the plane stress problem based on a less restrictive hypothesis than σ z =0. By requiring the out‐plane stress σ z to be a harmonic function, the three‐dimensional solution is obtained. In addition, we present a two‐dimensional finite element for planar analysis of problems where the thickness of the body 2 h is comparable to other characteristic dimensions. This element is presented as a substitute for classical plane stress and plane strain finite elements. The typical plane stress and plane strain state are recovered in the case where h →0 and the case h →∞, respectively. As an example for the application of such formulation, the behaviour of a concrete gravity dam is investigated. It is shown that this structure, typically analysed by using plane strain hypothesis, has its out‐plane stress underestimated. © 1997 John Wiley & Sons, Ltd.