A dual Lagrange method for contact problems with regularized frictional contact conditions: Modelling micro slip

A dual Lagrange method for contact problems with regularized frictional contact conditions: Modelling micro slip

This paper presents an algorithm for solving quasi-static, non-linear elasticity contact problems with friction in the context of rough surfaces. Here, we want to model the transition from sticking to slipping also called micro slip in a physically correct way in order to reproduce measured friction...

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Veröffentlicht in:Computer methods in applied mechanics and engineering 2015-03, Vol.285, p.468-487
Hauptverfasser: Sitzmann, Saskia, Willner, Kai, Wohlmuth, Barbara I.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Constitutive contact equations
Contact
Contact with friction
Damping
Dual Mortar methods
Friction
Iwan model
Mathematical models
Micro slip
Mortars
Nonlinearity
Rough surfaces
Slip
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Zusammenfassung:This paper presents an algorithm for solving quasi-static, non-linear elasticity contact problems with friction in the context of rough surfaces. Here, we want to model the transition from sticking to slipping also called micro slip in a physically correct way in order to reproduce measured frictional damping. The popular dual Mortar method is used to enforce the contact constraints in a variationally consistent way without increasing the algebraic system size. The algorithm is deduced from a perturbed Lagrange formulation and combined with a serial–parallel Iwan model. This leads to a regularized saddle point problem, for which a non-linear complementary function and thus a semi-smooth Newton method can be derived. Numerical examples demonstrate the applicability to industrial problems and show good agreement to experimentally obtained results.
ISSN:0045-7825
1879-2138
DOI:10.1016/j.cma.2014.11.022