A platform for research: civil engineering, architecture and urbanism
Distortional buckling behaviour and strength of cold-rolled aluminium alloy beams
Abstract Thin-wall structural sections and members are susceptible to three fundamental instabilities: local, distortional and lateral-torsional buckling. For cold-formed purlins or girts commonly used in roof and wall systems, distortional buckling may govern the predominant failure mode when the compression flange is not attached to sheathing or panels. The paper presents an experimental and numerical investigation on the behaviour and strength of cold-rolled aluminium beams subjected to distortional buckling. A total of eighteen specimens were tested in a four-point bending configuration with six various types of cross-sections and two different thicknesses. In the pure bending region between the two loading points, the upper compression flanges were kept free to allow distortional buckling to form. Subsequently, detailed finite element (FE) models of cold-rolled aluminium beams using the software ABAQUS were developed with the incorporation of measured material inelasticity and initial geometric imperfections. Good agreement between the experimental results and the FE models was achieved. The reliable and verified FE models along with the test data in this paper will be used in a separate publication to undertake a detailed parametric study and calibration of new proposed design rules for cold-rolled aluminium beams subjected to distortional buckling.
Graphical abstract Display Omitted
Highlights An experimental program of cold-rolled aluminium channel beams subject to distortional buckling is performed. The 5000-series high magnesium alloy, 5052-H36, is used for fabricating cold-rolled aluminium channels. The experimental behaviour and distortional buckling strengths of cold-rolled aluminium channel beams are presented. Detailed finite element (FE) models using the software ABAQUS of cold-rolled aluminium beams are developed. Good agreement between the experimental results and the FE models is achieved and will be used for a parametric study.
Distortional buckling behaviour and strength of cold-rolled aluminium alloy beams
Abstract Thin-wall structural sections and members are susceptible to three fundamental instabilities: local, distortional and lateral-torsional buckling. For cold-formed purlins or girts commonly used in roof and wall systems, distortional buckling may govern the predominant failure mode when the compression flange is not attached to sheathing or panels. The paper presents an experimental and numerical investigation on the behaviour and strength of cold-rolled aluminium beams subjected to distortional buckling. A total of eighteen specimens were tested in a four-point bending configuration with six various types of cross-sections and two different thicknesses. In the pure bending region between the two loading points, the upper compression flanges were kept free to allow distortional buckling to form. Subsequently, detailed finite element (FE) models of cold-rolled aluminium beams using the software ABAQUS were developed with the incorporation of measured material inelasticity and initial geometric imperfections. Good agreement between the experimental results and the FE models was achieved. The reliable and verified FE models along with the test data in this paper will be used in a separate publication to undertake a detailed parametric study and calibration of new proposed design rules for cold-rolled aluminium beams subjected to distortional buckling.
Graphical abstract Display Omitted
Highlights An experimental program of cold-rolled aluminium channel beams subject to distortional buckling is performed. The 5000-series high magnesium alloy, 5052-H36, is used for fabricating cold-rolled aluminium channels. The experimental behaviour and distortional buckling strengths of cold-rolled aluminium channel beams are presented. Detailed finite element (FE) models using the software ABAQUS of cold-rolled aluminium beams are developed. Good agreement between the experimental results and the FE models is achieved and will be used for a parametric study.
Distortional buckling behaviour and strength of cold-rolled aluminium alloy beams
Huynh, Le Anh Thi (author) / Pham, Cao Hung (author) / Rasmussen, Kim J.R. (author)
2021-06-09
Article (Journal)
Electronic Resource
English
Numerical Simulation of Cold-Rolled Aluminium Alloy 5052 Columns Subjected to Distortional Buckling
Springer Verlag | 2019
|Distortional Buckling Tests on Cold-Formed Steel Beams
Online Contents | 2006
|Distortional Buckling Test on Cold-Formed Steel Beams
British Library Conference Proceedings | 2004
|Distortional Buckling Tests on Cold-Formed Steel Beams
British Library Online Contents | 2006
|