The purpose of this work is to study mortar methods for linear elasticity using standard low order finite element spaces. Based on residual stabilization, we introduce a stabilized mortar method for linear elasticity and compare it to the unstabilized mixed mortar method. For simplicity, both methods use a Lagrange multiplier defined on a trace mesh inherited from one side of the interface only. We derive a quasi-optimality estimate for the stabilized method and present the stability criteria of the mixed $P_1-P_1$ approximation. Our numerical results demonstrate the stability and the convergence of the methods for tie contact problems. Moreover, the results show that the mixed method can be successfully extended to three dimensional proble...
Mortar finite element methods provide a powerful tool for the numerical approximation of partial dif...
The mortar finite element method allows the coupling of different discretizations across subregion b...
peer reviewedThis paper describes the quasi-static formulation of frictionless line contact between ...
Funding Information: The work was supported by the Academy of Finland (Decisions 324611 and 338341 )...
Two non-overlapping domain decomposition methods are presented for the mixed finite element formulat...
First, the present paper is concerned with the extension to linearized elastodynam-ics of the optima...
The framework of mortar methods [3,4] provides a powerful tool to analyze the coupling of different ...
In this work we develop a set of methods to handle tying and contact problems along real and virtual...
This paper is concerned with the mortar finite element method for three spatial variables. The two m...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
Higher Order Mortar Finite Elements with Dual Lagrange Multipliers presents the theories and applica...
Abstract. We consider the coupling of compressible and nearly incompressible materials within the fr...
Domain decomposition techniques provide a powerful tool for the coupling of different discretization...
A class of mortar-based frictionless contact formulations is derived based on a classical three-fiel...
Mortar finite element methods provide a powerful tool for the numerical approximation of partial dif...
The mortar finite element method allows the coupling of different discretizations across subregion b...
peer reviewedThis paper describes the quasi-static formulation of frictionless line contact between ...
Funding Information: The work was supported by the Academy of Finland (Decisions 324611 and 338341 )...
Two non-overlapping domain decomposition methods are presented for the mixed finite element formulat...
First, the present paper is concerned with the extension to linearized elastodynam-ics of the optima...
The framework of mortar methods [3,4] provides a powerful tool to analyze the coupling of different ...
In this work we develop a set of methods to handle tying and contact problems along real and virtual...
This paper is concerned with the mortar finite element method for three spatial variables. The two m...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
Higher Order Mortar Finite Elements with Dual Lagrange Multipliers presents the theories and applica...
Abstract. We consider the coupling of compressible and nearly incompressible materials within the fr...
Domain decomposition techniques provide a powerful tool for the coupling of different discretization...
A class of mortar-based frictionless contact formulations is derived based on a classical three-fiel...
Mortar finite element methods provide a powerful tool for the numerical approximation of partial dif...
The mortar finite element method allows the coupling of different discretizations across subregion b...
peer reviewedThis paper describes the quasi-static formulation of frictionless line contact between ...