A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an independent kinematic field. The beam formulation is derived on the basis of the Hu-Washizu variational principle, expressed as function of four independent fields: the standard displacements, strains and stresses and the additional warping displacement. This is interpolated along the beam axis and on the cross-section, by placing on it a regular grid of interpolation points and adopting Lagrange polynomials. The warping degrees of freedom defined at the cross-section interpolation points are condensed, thus preserving the element matrix and vector sizes. A fiber discretization of the cross-sections is adopted. The constitutive relationship at the ...
This paper presents three beam Finite Element (FE) formulations developed for the analysis of thin-w...
International audienceThe corotational technique is adopted here for the analysis of three-dimension...
This work investigates the capabilities of two different approaches for the analysis of thin-walled ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indep...
This paper describes the simulation of RC members with a three-dimensional (3D), 2-node beam finite ...
This paper describes the computational aspects of the beam Finite Element formulation recently devel...
This paper presents the formulation of a three-dimensional beam finite element (FE) that accounts fo...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
This paper focuses on the dynamic response of thin-walled structural elements. A mixed three-dimensi...
In this paper a beam element that accounts for inelastic axial-flexure-shear coupling is presented. ...
The paper discusses the application of a 2-node, three-dimensional (3D) beam-column finite element w...
International audienceThis paper presents a corotational formulation of a three-dimensional elasto-p...
This paper presents a three-dimensional beam element for stability analysis of elastic thin-walled o...
The considerable progress in the research and development of thin-walled beam structures responds to...
In this work we consider solutions for the Euler-Bernoulli and Timoshenko theories of beams in which...
This paper presents three beam Finite Element (FE) formulations developed for the analysis of thin-w...
International audienceThe corotational technique is adopted here for the analysis of three-dimension...
This work investigates the capabilities of two different approaches for the analysis of thin-walled ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indep...
This paper describes the simulation of RC members with a three-dimensional (3D), 2-node beam finite ...
This paper describes the computational aspects of the beam Finite Element formulation recently devel...
This paper presents the formulation of a three-dimensional beam finite element (FE) that accounts fo...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
This paper focuses on the dynamic response of thin-walled structural elements. A mixed three-dimensi...
In this paper a beam element that accounts for inelastic axial-flexure-shear coupling is presented. ...
The paper discusses the application of a 2-node, three-dimensional (3D) beam-column finite element w...
International audienceThis paper presents a corotational formulation of a three-dimensional elasto-p...
This paper presents a three-dimensional beam element for stability analysis of elastic thin-walled o...
The considerable progress in the research and development of thin-walled beam structures responds to...
In this work we consider solutions for the Euler-Bernoulli and Timoshenko theories of beams in which...
This paper presents three beam Finite Element (FE) formulations developed for the analysis of thin-w...
International audienceThe corotational technique is adopted here for the analysis of three-dimension...
This work investigates the capabilities of two different approaches for the analysis of thin-walled ...