The non-associated plasticity model

is utilized to simulate a three dimensional nonlinear finite

element analysis on sand. The model is a three-dimensional

generalization of the Cam-Clay model with yield- and flow potential

functions expressed in a common format, but with different shapes

and hardening rule depending on both the shear and volumetric

stains, which enables modelling of dilation. The model has been

implemented as a user-defined mechanical material behavior in

ABAQUS finite element code using an implicit integration algorithm

with explicit update of the hardening parameter. The implemented

subroutine UMAT in ABAQUS is verified by carrying out a triaxial

test on single element and comparing the result to the experimental

data and implementation in the high level language MATLAB. The

implemented subroutine is used to study the influence of the

rigidity of the footing. Simulation with both absolute rigid and

absolute flexible footings are carried out and the deformation

behaviour, the differences in vertical and contact stress

distributions beneath the footing are presented. In addition the

effects of using large strains are investigated by simulating a

flexible strip footing resting on sand and comparing the

deformation behaviour to the small strain solution.}