ERROR ESTIMATORS FOR VISCOPLASTIC MATERIALS - APPLICATION TO FORMING PROCESSES

The analysis of error estimation is addressed in the framework of viscoplasticity problems, this is to say, of incompressible and non-linear materials. Firstly, Zienkiewicz-Zhu (Z(2)) type error estimators are studied. They are based on the comparison between the finite element solution and a continuous solution which is computed by smoothing technique. From numerical examples, it is shown that the choice of a finite difference smoothing method (Orkisz' method) improves the precision and the efficiency of this type of estimator. Then a Delta estimator is introduced. Tt makes it possible to take into account the fact that the smoothed solution does not verify the balance equations. On the other hand, it leads us to introduce estimators for the velocity error according to the L(2) and L(infinity) norms, since in metal forming this error is as important as the energy error. These estimators are applied to an industrial problem of extrusion, demonstrating all the potential of the adaptive remeshing method for forming processes.