Unstiffened Elements as Limiting Case of Distortional Buckling of Partially Stiffened Elements

AbstractLip stiffened flanges in cold-formed steel compression members may undergo local or distortional buckling depending on the slenderness of the flange and rigidity of the lip. In distortional buckling, the flange-lip assembly moves perpendicular to the flange. The decrease in stiffness (or dep...

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Bibliographic Details
Published in:Journal of structural engineering (New York, N.Y.) N.Y.), 2020-09, Vol.146 (9)
Main Authors: Kalam Aswathy, K. C, Anil Kumar, M. V
Format: Article
Language:English
Subjects:
Case depth
Cold working
Cold-formed steel
Constraining
Distortion
Elastic buckling
Flanges
Stiffness
Structural engineering
Technical Papers
Ultimate tensile strength
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Summary:AbstractLip stiffened flanges in cold-formed steel compression members may undergo local or distortional buckling depending on the slenderness of the flange and rigidity of the lip. In distortional buckling, the flange-lip assembly moves perpendicular to the flange. The decrease in stiffness (or depth) of the lip increases the vulnerability of such elements to distortional buckling. In the limiting case of zero lip depth, the plate behaves as an unstiffened element. Hence the behavior of the unstiffened element may be intuitively understood as the limiting case of distortional buckling of lip stiffened element as the lip depth tends to zero. In this study, experimental and numerical results are used to show that both elastic buckling and ultimate strength behavior of a uniformly compressed unstiffened element may also be represented as distortional buckling of the lip stiffened element of zero lip depth. In addition to the effective width method, the modified direct strength method equation developed for distortional buckling is also shown to accurately estimate the ultimate strength of uniformly compressed unstiffened elements.
ISSN:0733-9445
1943-541X
DOI:10.1061/(ASCE)ST.1943-541X.0002712