Adaptive Mesh Refinement
In a traditional Eulerian analysis the topology of the Eulerian mesh does not change during the analysis. Although the Eulerian mesh motion feature allows the Eulerian mesh to move in space to cover areas of interest, its ability to create a nonuniformly refined mesh that changes with time is limited. The adaptive mesh refinement feature can locally refine the mesh by subdividing elements identified by user-defined criteria. This refinement can be removed automatically during the analysis once the criteria are no longer satisfied. This feature offers great savings in computational cost compared to a uniformly refined mesh. See Impact of a copper rod for an example of using the adaptive mesh refinement feature.
In some cases Eulerian material may penetrate through the Lagrangian contact surface, which could result in the leakage of liquid or gas through the Lagrangian contact surface. To prevent this, an enhanced contact formulation is available to improve the contact between the Eulerian material and the Lagrangian contact surface. This enhanced contact formulation is more expensive than the default contact algorithm and should be activated only when required.