A globally convergent filter-trust-region method for large deformation contact problems
For computational mechanics researchers, this provides a theoretically grounded and practically efficient solver for a challenging class of contact problems, though it is an incremental improvement over existing methods.
The paper presents a globally convergent filter-trust-region method for frictionless large deformation contact problems in hyperelastic materials, proving global convergence to first-order optimal points. Numerical experiments confirm stability and efficiency.
We present a globally convergent method for the solution of frictionless large deformation contact problems for hyperelastic materials. The discretisation uses the mortar method which is known to be more stable than node-to-segment approaches. The resulting non-convex constrained minimisation problems are solved using a filter-trust-region scheme, and we prove global convergence towards first-order optimal points. The constrained Newton problems are solved robustly and efficiently using a Truncated Non-smooth Newton Multigrid (TNNMG) method with a Monotone Multigrid (MMG) linear correction step. For this we introduce a cheap basis transformation that decouples the contact constraints. Numerical experiments confirm the stability and efficiency of our approach.