When one of the dimensions of a structural member is not clearly larger than the two orthogonal ones, engineers are usually compelled to simulate it with refined meshes of shell or solid finite elements that typically impose a large computational burden. The alternative use of classical beam theories, either based on Euler-Bernoulli or Timoshenko’s assumptions, will in general not accurately capture important deformation mechanisms such as shear, warping, distortion, flexural-shear-torsional interaction, etc. However, higher-order beam theories are a still largely disregarded avenue that requires an acceptable computational demand and simultaneously has the potential to account for the above mentioned deformation mechanisms, some of which c...
In many engineering structures, the effects of shear and torsional loads are an important aspect of ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indep...
Abstract The unified solution is studied for a beam of rectangular cross section. With the rotation ...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
This paper presents three beam Finite Element (FE) formulations developed for the analysis of thin-w...
The theory for a higher order shear-deformable beam model is first developed. It is based on a highe...
This research addresses accurate, efficient and rigorous finite element modeling of the three-dimens...
Beams are common structural elements in most structures and generally they are analysed using classi...
The paper discusses the application of a 2-node, three-dimensional (3D) beam-column finite element w...
AbstractThis two-part contribution presents a beam theory with a non-uniform warping including the e...
A rigorous formulation for the structural response of thin-walled members of arbitrary open cross-se...
AbstractIn this paper the dynamic analysis of 3-D beam elements restrained at their edges by the mos...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
The first part of the paper develops a theory for the torsional analysis for open thin-walled beams ...
The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures tha...
In many engineering structures, the effects of shear and torsional loads are an important aspect of ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indep...
Abstract The unified solution is studied for a beam of rectangular cross section. With the rotation ...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
This paper presents three beam Finite Element (FE) formulations developed for the analysis of thin-w...
The theory for a higher order shear-deformable beam model is first developed. It is based on a highe...
This research addresses accurate, efficient and rigorous finite element modeling of the three-dimens...
Beams are common structural elements in most structures and generally they are analysed using classi...
The paper discusses the application of a 2-node, three-dimensional (3D) beam-column finite element w...
AbstractThis two-part contribution presents a beam theory with a non-uniform warping including the e...
A rigorous formulation for the structural response of thin-walled members of arbitrary open cross-se...
AbstractIn this paper the dynamic analysis of 3-D beam elements restrained at their edges by the mos...
Static behavior of composite beams with arbitrary lay-ups using various refined shear deformation th...
The first part of the paper develops a theory for the torsional analysis for open thin-walled beams ...
The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures tha...
In many engineering structures, the effects of shear and torsional loads are an important aspect of ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indep...
Abstract The unified solution is studied for a beam of rectangular cross section. With the rotation ...