Investigation on single-bolted cold-formed steel angles with geometric imperfections under compression

Investigation on single-bolted cold-formed steel angles with geometric imperfections under compression

The behaviour of cold-formed steel angle members with bolted connections under compression is usually complicated, whereas not significant number of experimental tests is found in the literature. This study offers a better insight on the issue, by comparing experimental tests with a thorough numeric...

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Bibliographic Details
Published in:Journal of constructional steel research Vol. 162; p. 105733
Main Authors: Fasoulakis, Zacharias C., Lignos, Xenofon A., Avraam, Tassos P., Katsatsidis, Stelios P.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2019
Subjects:
Cold-formed angles
Geometric imperfections
Inelastic buckling
Single-bolted
Single-bolted
Geometric imperfections
Inelastic buckling
Cold-formed angles
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Summary:The behaviour of cold-formed steel angle members with bolted connections under compression is usually complicated, whereas not significant number of experimental tests is found in the literature. This study offers a better insight on the issue, by comparing experimental tests with a thorough numerical study, both carried out at the Institute of Steel Structures of NTUA. Significant attention is paid for the elaborate measurement of initial geometric imperfections along the member's length. An in-house built deformation plotter was designed and upgraded for this reason. The compression failure loads of the experimental tests are illustrated both in graphical and tabular form and compared with similar tests of the literature. The results denote a prediction of the EN 1993-3-1 towards the safe side, for the case of the examined bolted cold-formed angles. A simple formula is proposed for the accurate prediction of angle columns' buckling deformation, wherein the rigidity of the connection is also included. Finally, interesting conclusions are derived for the numerical simulation of cold-forming effects, as well as the shape and amplitude of the initial imperfect geometry, on the basis of the critical buckling load. Further research is in progress, aiming to capture the stochastic buckling response for the case of bolted cold-formed steel angles. •Experimental tests of bolted cold-formed steel angles under compression.•Elaborate geometric imperfections measurements.•Simple formula proposed to obtain the critical buckling shape of single-bolted angle columns.•Detailed FE simulation and validation according to the experimental results.•Numerical investigation of the cold-forming effects as well as of the initial geometric imperfection.
ISSN:0143-974X
1873-5983
DOI:10.1016/j.jcsr.2019.105733