F.F. El Dib scite author profile

The strength of a slender section is governed by local buckling of its elements. The local buckling mode is mainly affected by the width to thickness ratios of elements forming the section and the member slenderness ratio. A nonlinear finite element model was developed in this paper to study the effect of the mentioned factors on the capacity of biaxially loaded slender I-section beam-columns. A group of I sections was selected with varying flange width to flange thickness and web width to web thickness ratios. Different member slenderness ratios were chosen to study the different modes of failure. The results show that the linear interaction equation is safe and provides a good fit to the ultimate capacity of members with intermediate slenderness ratios. It is conservative, however, for short member slenderness ratios. Lastly, compared with the newly developed finite element model, the 1996 edition of the American Iron and Steel Institute specification for cold-formed steel structural members and the European Committee for Standardization Eurocode 3 conservatively predict the capacity of members, especially for large ratios of minor axis to major axis bending.Résumé : La résistance des sections élancées est régie par le flambement local de leurs membrures. Le mode de flambement local est principalement influencé par les rapports largeur-épaisseur des membrures formant la section et par le rapport d'élancement des membrures. Un modèle non linéaire par éléments finis a été développé dans cet article pour étudier l'effet des facteurs mentionnés sur la capacité des poutres-colonnes avec profilé en I élancées sous charge biaxiale. Un groupe de profilés en I ayant différents rapports de largeur-épaisseur des ailes et de l'âme a été sélectionné. Divers rapports d'élancement des membrures ont été choisis pour examiner les différents modes de rupture. Les résul-tats montrent que l'équation d'interaction linéaire est sécuritaire et s'ajuste bien à la résistance à la rupture des membrures ayant des rapports d'élancement intermédiaires. Toutefois, elle est conservatrice pour les rapports d'élancement des courtes membrures. Finalement, une comparaison avec les normes AISI-1996 et Eurocode 3 indique que le modèle peut prédire de manière conservatrice les capacités des membrures, surtout lorsque les rapports entre les petits axes et les grands axes sont élevés.

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Post local buckling strength of bi-axially loaded slender I-section columns

Salem

Aghoury

Dib

et al. 2005

Thin-Walled Structures

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Buckling strength of tapered bridge girders under combined shear and bending

Abu-Hamd

Dib

2016

HBRC Journal

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Elastic Stability of Planar Steel Frames with Unsymmetrical Beam Loading

et al. 2004

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F.F. El Dib

Ultimate capacity of I-slender section columns

Strength of biaxially loaded slender I-section beam-columns

Post local buckling strength of bi-axially loaded slender I-section columns

Buckling strength of tapered bridge girders under combined shear and bending

Elastic Stability of Planar Steel Frames with Unsymmetrical Beam Loading

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