Three-dimensional finite element analysis of lined tunnels

## Abstract Advances in technology and interest in limit state design have made the inclusion of non‐linear effects, such as elasto‐plastic behaviour, desirable in the analysis of many structures. Improvements in solution algorithms coupled with parallel developments in high speed digital computers

Formulae are developed to determine the three-dimensional response of twin lined tunnels buried in an infinite medium subjected to seismic loadings using the method of successive reflection. The convergence of the method has been demonstrated both analytically and numerically. The dynamic interactio

## Abstract By using the finite element technique, stress intensity factors have been obtained for finite rectangular plates and the results have been given for various __h__/__a__, __W__/__a__ and __L__/__W__ ratios. By using a three‐dimensional isoparametric element, the problem has been consider

The development of a three-dimensional least-squares ÿnite element technique suitable for deformation analysis was presented. By adopting a spatial viewpoint, a consistent rate formulation that treats deformation as a process was established. The technique utilized the least-squares variational prin