On augmented Lagrangian algorithms for thermomechanical contact problems with friction

G. Zavarise; P. Wriggers; B. A. Schrefler

doi:10.1002/nme.1620381706

On augmented Lagrangian algorithms for thermomechanical contact problems with friction

G. Zavarise, P. Wriggers, B. A. Schrefler

Research output: Contribution to journal › Article › peer-review

76 Scopus citations

Abstract

The detailed discretization of contact zones with contact stiffness based on real physical characteristics of contact surfaces can produce stiffness terms which induce ill-conditioning of the global stiffness matrix. Moreover the consistent treatment of frictional behaviour generates non-symmetric tangent stiffness matrices due to the non-associativity of the slip phase. Other non-symmetries are due to the coupling terms and to the dependencies on various parameters that can be involved. To overcome these difficulties almost consistent techniques based on two-step algorithms have been proposed in the past. Here an augmentation technique is proposed which takes into account micro-mechanical effects, and permits the symmetrization of the tangent stiffness during frictional slip phase.

Original language	English (US)
Pages (from-to)	2929-2949
Number of pages	21
Journal	International Journal for Numerical Methods in Engineering
Volume	38
Issue number	17
DOIs	https://doi.org/10.1002/nme.1620381706
State	Published - Sep 15 1995

Keywords

augmentation
contact
friction
thermomechanical coupling

ASJC Scopus subject areas

Numerical Analysis
Engineering(all)
Applied Mathematics

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10.1002/nme.1620381706

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N2 - The detailed discretization of contact zones with contact stiffness based on real physical characteristics of contact surfaces can produce stiffness terms which induce ill-conditioning of the global stiffness matrix. Moreover the consistent treatment of frictional behaviour generates non-symmetric tangent stiffness matrices due to the non-associativity of the slip phase. Other non-symmetries are due to the coupling terms and to the dependencies on various parameters that can be involved. To overcome these difficulties almost consistent techniques based on two-step algorithms have been proposed in the past. Here an augmentation technique is proposed which takes into account micro-mechanical effects, and permits the symmetrization of the tangent stiffness during frictional slip phase.

AB - The detailed discretization of contact zones with contact stiffness based on real physical characteristics of contact surfaces can produce stiffness terms which induce ill-conditioning of the global stiffness matrix. Moreover the consistent treatment of frictional behaviour generates non-symmetric tangent stiffness matrices due to the non-associativity of the slip phase. Other non-symmetries are due to the coupling terms and to the dependencies on various parameters that can be involved. To overcome these difficulties almost consistent techniques based on two-step algorithms have been proposed in the past. Here an augmentation technique is proposed which takes into account micro-mechanical effects, and permits the symmetrization of the tangent stiffness during frictional slip phase.

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KW - friction

KW - thermomechanical coupling

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On augmented Lagrangian algorithms for thermomechanical contact problems with friction

Abstract

Keywords

ASJC Scopus subject areas

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