Litcius/Paper detail

An interface-enriched generalized finite element formulation for locking-free coupling of non-conforming discretizations and contact

Dongyu Liu, Sanne J. van den Boom, A. Simone, Alejandro M. Aragón

2022Computational Mechanics21 citationsDOIOpen Access PDF

Abstract

Abstract We propose an enriched finite element formulation to address the computational modeling of contact problems and the coupling of non-conforming discretizations in the small deformation setting. The displacement field is augmented by enriched terms that are associated with generalized degrees of freedom collocated along non-conforming interfaces or contact surfaces. The enrichment strategy effectively produces an enriched node-to-node discretization that can be used with any constraint enforcement criterion; this is demonstrated with both multi-point constraints and Lagrange multipliers, the latter in a generalized Newton implementation where both primal and Lagrange multiplier fields are updated simultaneously. We show that the node-to-node enrichment ensures continuity of the displacement field—without locking—in mesh coupling problems, and that tractions are transferred accurately at contact interfaces without the need for stabilization. We also show the formulation is stable with respect to the condition number of the stiffness matrix by using a simple Jacobi-like diagonal preconditioner.

Topics & Concepts

Lagrange multiplierPreconditionerDiscretizationFinite element methodStiffness matrixMathematicsNode (physics)Coupling (piping)Penalty methodAugmented Lagrangian methodDiagonalConstraint algorithmMortar methodsApplied mathematicsDisplacement fieldMathematical analysisDomain decomposition methodsMathematical optimizationLinear systemGeometryEngineeringStructural engineeringMechanical engineeringContact Mechanics and Variational InequalitiesNumerical methods in engineeringMechanical stress and fatigue analysis