In a wide range of practical problems, such as forming operations and impact tests, assuming that one of the contacting bodies is rigid is an excellent approximation to the physical phenomenon. In this work, the well-established dual mortar method is adopted to enforce interface constraints in the finite deformation frictionless contact of rigid and deformable bodies. The efficiency of the nonlinear contact algorithm proposed here is based on two main contributions. Firstly, a variational formulation of the method using the so-called Petrov-Galerkin scheme is investigated, as it unlocks a significant simplification by removing the need to explicitly evaluate the dual basis functions. The corresponding first-order dual mortar interpolation i...
In this paper we propose a mortar algorithm for the study of contact mechanics in three dimensional ...
This talk will summarize recent developments pertaining to new discretization methods for large defo...
© 2015 D. V. Berezhnoi and M. K. Sagdatullin. Finite element "master-slave" a technique of contact i...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
A finite element formulation for three dimensional (3D) contact mechanics using a mortar algorithm c...
<p>The mortar contact formulation is a well-established technique to tie non-conforming finite eleme...
The mortar contact formulation is a well-established technique to tie non-conforming finite element ...
This work focuses on 3D modelling of elastic two-body frictionless contact by means of the mortar me...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
In this work, existing finite element contact methods in the context of isogeometric analysis (IGA) ...
Summary. We consider the numerical simulation of multi-body contact problems in linear elasticity. F...
AbstractA multibody frictional mortar contact formulation (Gitterle et al., 2010) is extended for th...
© Published under licence by IOP Publishing Ltd. The work is devoted to the construction of a comput...
As is well-known, displacement-based finite elements are prone to the `locking' problem. Thus, emplo...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.The computational modeling of...
In this paper we propose a mortar algorithm for the study of contact mechanics in three dimensional ...
This talk will summarize recent developments pertaining to new discretization methods for large defo...
© 2015 D. V. Berezhnoi and M. K. Sagdatullin. Finite element "master-slave" a technique of contact i...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
A finite element formulation for three dimensional (3D) contact mechanics using a mortar algorithm c...
<p>The mortar contact formulation is a well-established technique to tie non-conforming finite eleme...
The mortar contact formulation is a well-established technique to tie non-conforming finite element ...
This work focuses on 3D modelling of elastic two-body frictionless contact by means of the mortar me...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
In this work, existing finite element contact methods in the context of isogeometric analysis (IGA) ...
Summary. We consider the numerical simulation of multi-body contact problems in linear elasticity. F...
AbstractA multibody frictional mortar contact formulation (Gitterle et al., 2010) is extended for th...
© Published under licence by IOP Publishing Ltd. The work is devoted to the construction of a comput...
As is well-known, displacement-based finite elements are prone to the `locking' problem. Thus, emplo...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.The computational modeling of...
In this paper we propose a mortar algorithm for the study of contact mechanics in three dimensional ...
This talk will summarize recent developments pertaining to new discretization methods for large defo...
© 2015 D. V. Berezhnoi and M. K. Sagdatullin. Finite element "master-slave" a technique of contact i...