Numerical solution of frictional contact problems based on a mortar algorithm with an augmented Lagrangian technique

FEDERICO CAVALIERI; ALBERTO CARDONA

MULTIBODY SYSTEM DYNAMICS

SPRINGER

Lugar: Berlin; Año: 2015 vol. 35 p. 353 - 375

1384-5640

This work presents a frictional contact formulation to solve three-dimensional contact problems with large finite displacements. The kinematic description of the contacting bodies is defined by using a mortar approach. The regularization of the variational frictional contact problem is solved with a mixed dual penalty approach based on an augmented Lagrangian technique. In this method, the numerical results do not depend on the definition of any user-defined penalty parameter affecting the normal or tangential component of forces. The robustness and performance of the proposed algorithm are studied and validated by solving a series of numerical examples with finite displacements and large slip.