peer reviewedThis paper describes the quasi-static formulation of frictionless line contact between flexible beams by employing the mortar finite element approach. Contact constraints are enforced in a weak sense along the contact region using Lagrange multipliers. A simple projection appropriate for thin beams with circular cross-sections is proposed for the computation of contact regions. It is combined with the geometrically exact beam formalism on the Lie group SE(3). Interestingly, this framework leads to a constraint gradient and a tangent stiffness invariant under rigid body transformations. The formulation is tested in some numerical examples
<p>The mortar contact formulation is a well-established technique to tie non-conforming finite eleme...
This work focuses on 3D modelling of elastic two-body frictionless contact by means of the mortar me...
peer reviewedSlender constituents are present in many structures and materials. In associated mechan...
Abstract This paper presents a formulation for frictionless beam-to-beam contact using the mortar me...
The need for better and more efficient computational methods to model the mechanics of contact has i...
peer reviewedThis paper presents a test case to help validate simulation codes for contact problems ...
Cataloged from PDF version of article.A class of mortar-based frictionless contact formulations is d...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
AbstractA multibody frictional mortar contact formulation (Gitterle et al., 2010) is extended for th...
During last decade progress in computational contact mechanics was achieved using mortar based conta...
A finite element formulation for three dimensional (3D) contact mechanics using a mortar algorithm c...
Cataloged from PDF version of article.A classical three-field mixed variational formulation of frict...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
The currently available formulations for contact between beams are based on the identification of th...
In a wide range of practical problems, such as forming operations and impact tests, assuming that on...
<p>The mortar contact formulation is a well-established technique to tie non-conforming finite eleme...
This work focuses on 3D modelling of elastic two-body frictionless contact by means of the mortar me...
peer reviewedSlender constituents are present in many structures and materials. In associated mechan...
Abstract This paper presents a formulation for frictionless beam-to-beam contact using the mortar me...
The need for better and more efficient computational methods to model the mechanics of contact has i...
peer reviewedThis paper presents a test case to help validate simulation codes for contact problems ...
Cataloged from PDF version of article.A class of mortar-based frictionless contact formulations is d...
The article discusses an algorithm development to solve an elastic contact problem. Solving such pro...
AbstractA multibody frictional mortar contact formulation (Gitterle et al., 2010) is extended for th...
During last decade progress in computational contact mechanics was achieved using mortar based conta...
A finite element formulation for three dimensional (3D) contact mechanics using a mortar algorithm c...
Cataloged from PDF version of article.A classical three-field mixed variational formulation of frict...
Significant progress has been made on computational contact mechanics over the past decade. Many of t...
The currently available formulations for contact between beams are based on the identification of th...
In a wide range of practical problems, such as forming operations and impact tests, assuming that on...
<p>The mortar contact formulation is a well-established technique to tie non-conforming finite eleme...
This work focuses on 3D modelling of elastic two-body frictionless contact by means of the mortar me...
peer reviewedSlender constituents are present in many structures and materials. In associated mechan...