A large deformation frictional contact formulation using NURBS-based isogeometric analysis

In the context of large deformation analysis for metal forming processes a new one-pass approach for the frictional contact is proposed. This approach eliminates the short comings of traditional one-pass and twopass approaches both from the constraint requirement and solution convergence points of v

This paper presents a variational framework and numerical implementation strategy for contact smoothing algorithms in large deformation "nite element analysis. Since traditional approaches in contact mechanics enforce kinematic constraints de"ned in terms of faceted surfaces introduced by "nite elem

The paper introduces a general theory for the numerical simulation of large deformation contact problems. The contacting bodies under consideration may be of two-or three-dimensional shape modelled by ÿnite elements. A contact ÿnite element which can be applied to handle multi-body contact as well a

In this paper mixed finite elements are formulated for dynamic analysis of nonlinear solids undergoing both geometrical and constitutive nonlinearities. The solid and unilateral contact finite elements arc both based on a mixed variational formulation in which stresses, strains and displacements may