Add to ORKGIn this contribution, the authors numerically investigate the effect of an internal warping constraint on the stability of a thin-walled profile with a doubly symmetric cruciform (double I) cross-section. Such a constraint is intended to represent the effect of an intermediate stiffener (typically, a reinforcing plate) on the behaviour of the considered structural element. Different end warping constraint conditions and stiffener locations are analyzed. The numerical results are thoroughly commented, and represent a starting point for a future experimental campaign
A beam model aimed at describing the flexural-torsional buckling of thin-walled members with non-sym...
We investigate inner shearing constraints for a direct one-dimensional beam model coarsely describin...
In regular design practice, when it comes to conventional loading, such as uniaxial compression and ...
In this contribution, the authors numerically investigate the effect of an internal warping constrai...
We present two applications of a direct one-dimensional beam model suitable for describing the buckl...
We present two applications of a direct one-dimensional beam model suitable for describing the buckl...
Local stiffeners affect the behaviour of thin-walled beams (TWBs). An in-house code based on a one-d...
We present the effect of warping constraints on the buckling of a thin-walled two-bar ('Roorda') pla...
Thin-walled beams are widely used in many areas of engineering. As it is known, the low torsional st...
As is well known, thin-walled open profiles have an appreciable bending stiffness at least about one...
The paper proposes an investigation on thin-walled elements with irregular shapes, considering appli...
Torsion and bending/torsion buckling may occur for compressed thin-walled open profiles used in engi...
The buckling modes of cold-formed thin-walled sections with edge stiffeners are generally in the for...
Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckli...
Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckli...
A beam model aimed at describing the flexural-torsional buckling of thin-walled members with non-sym...
We investigate inner shearing constraints for a direct one-dimensional beam model coarsely describin...
In regular design practice, when it comes to conventional loading, such as uniaxial compression and ...
In this contribution, the authors numerically investigate the effect of an internal warping constrai...
We present two applications of a direct one-dimensional beam model suitable for describing the buckl...
We present two applications of a direct one-dimensional beam model suitable for describing the buckl...
Local stiffeners affect the behaviour of thin-walled beams (TWBs). An in-house code based on a one-d...
We present the effect of warping constraints on the buckling of a thin-walled two-bar ('Roorda') pla...
Thin-walled beams are widely used in many areas of engineering. As it is known, the low torsional st...
As is well known, thin-walled open profiles have an appreciable bending stiffness at least about one...
The paper proposes an investigation on thin-walled elements with irregular shapes, considering appli...
Torsion and bending/torsion buckling may occur for compressed thin-walled open profiles used in engi...
The buckling modes of cold-formed thin-walled sections with edge stiffeners are generally in the for...
Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckli...
Compressed thin-walled beams with open section are prone to torsional, or flexural-torsional, buckli...
A beam model aimed at describing the flexural-torsional buckling of thin-walled members with non-sym...
We investigate inner shearing constraints for a direct one-dimensional beam model coarsely describin...
In regular design practice, when it comes to conventional loading, such as uniaxial compression and ...