Contact System

The contact system detects proximity and overlaps between surfaces in the mesh, and enforces appropriate constraints on the mechanical and thermal behavior on that interface. The mechanical contact system prevents penetration between surfaces, and computes the contact forces on those surfaces required for the non-penetration condition. The thermal contact system transfers heat between surfaces.

Mechanical Contact

Historically, there have been multiple approaches taken to enforce mechanical contact in MOOSE. The Constraint contact system is the most robust of these approaches, and is recommended for mechanical contact enforcement in both 2D and 3D simulations. In the future, Constraint will be the only option.

Currently, all mechanical contact enforcement algorithms in MOOSE are based on a master/slave algorithm, where contact is enforced at the nodes on the slave surface, which cannot penetrate faces on the master surface. As with all such approaches, for the best results, the master surface should be the coarser of the two surfaces.

The contact enforcement system relies on MOOSE's geometric search system to provide the candidate set of faces that can interact with a slave node at a given time. The set of candidate faces is controlled by the patch_size parameter and the patch_update_strategy options in the Mesh block. The patch size must be large enough to accommodate the sliding that occurs during a time step. It is generally recommended that the patch_update_strategy=auto be used.

The formulation parameter specifies the technique used to enforce contact. The DEFAULT option uses a kinematic enforcement algorithm that transfers the internal forces at slave nodes to the corresponding master face, and forces the slave node to be at a specific location on the master face using a penalty parameter. The converged solution with this approach results no penetration between the surfaces. The PENALTY algorithm employs a penalty approach, where the penetration between the surfaces is penalized, and the converged solution has a small penetration, which is inversely proportional to the penalty parameter.

Regardless of the formulation used, the robustness of the mechanical contact algorithm is affected by the penalty parameter. If the parameter is too small, there will be excessive penetrations with the penalty formulation, and convergence will suffer with the kinematic formulation. If the parameter is too large, the solver may struggle due to poor conditioning.

Thermal Contact

Thermal contact also uses the master/slave algorithm, and, as in mechanical contact, the coarser meshed surface should be set as the master surface. In thermal contact heat is transferred between the two surfaces.