International audienceThis paper presents a corotational formulation of a three-dimensional elasto-plastic mixed beam element that can undergo large displacements and rotations. The corotational approach applies to a two-noded element a coordinate system which continuously translates and rotates with the element. In this way, the rigid body motion is separated out from the deformational motion. In this paper, a mixed formulation is adopted for the derivation of the local element tangent stiffness matrix and nodal forces based on a two-field Hellinger-Reissner variational principle. The local beam kinematics is based on a low-order nonlinear strain expression using Timoshenko assumption. The warping effects are characterized by adopting Bens...
peer reviewedBased on a formulation on the special Euclidean group SE(3), a geometrically exact thin...
In this work we consider solutions for the Euler-Bernoulli and Timoshenko theories of beams in which...
The considerable progress in the research and development of thin-walled beam structures responds to...
International audienceThe corotational technique is adopted here for the analysis of three-dimension...
International audiencePurpose - The purpose of this paper is to present eight local elasto-plastic b...
This paper presents the formulation of a three-dimensional beam finite element (FE) that accounts fo...
This work investigates the capabilities of two different approaches for the analysis of thin-walled ...
International audienceA local elasto-plastic formulation, based on a low-order nonlinear strain expr...
This paper focuses on the dynamic response of thin-walled structural elements. A mixed three-dimensi...
This paper presents a three-dimensional beam element for stability analysis of elastic thin-walled o...
International audienceThe paper deals with the derivation of a local elasto-plastic finite element f...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indepe...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
A corotational finite element formulation for two-dimensional beam elements with geometrically nonli...
peer reviewedBased on a formulation on the special Euclidean group SE(3), a geometrically exact thin...
In this work we consider solutions for the Euler-Bernoulli and Timoshenko theories of beams in which...
The considerable progress in the research and development of thin-walled beam structures responds to...
International audienceThe corotational technique is adopted here for the analysis of three-dimension...
International audiencePurpose - The purpose of this paper is to present eight local elasto-plastic b...
This paper presents the formulation of a three-dimensional beam finite element (FE) that accounts fo...
This work investigates the capabilities of two different approaches for the analysis of thin-walled ...
International audienceA local elasto-plastic formulation, based on a low-order nonlinear strain expr...
This paper focuses on the dynamic response of thin-walled structural elements. A mixed three-dimensi...
This paper presents a three-dimensional beam element for stability analysis of elastic thin-walled o...
International audienceThe paper deals with the derivation of a local elasto-plastic finite element f...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indepe...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
A corotational finite element formulation for two-dimensional beam elements with geometrically nonli...
peer reviewedBased on a formulation on the special Euclidean group SE(3), a geometrically exact thin...
In this work we consider solutions for the Euler-Bernoulli and Timoshenko theories of beams in which...
The considerable progress in the research and development of thin-walled beam structures responds to...