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Amin Mohebkhah

Amin Mohebkhah

Academic rank: Associate Professor
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Education: PhD.
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Faculty: Civil Engineering and Architecture
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Research

Title
Lateral–torsional buckling of Delta hollow flange beams under moment gradient
Type
JournalPaper
Keywords
Lateral–torsional buckling Finite elementmethod Off-shear centerloading Delta hollow flange beam Moment-gradient factor Longitudinal stiffener
Year
2015
Journal THIN-WALLED STRUCTURES
DOI
Researchers Amin Mohebkhah

Abstract

Lateral-torsional buckling (LTB) resistance of an I-beam depends on the minor axis moment of inertia of its compression flange and torsional rigidity of the section. A practical solution to increase lateral buckling of I-beams is to add two Delta stiffeners between the compression flange and web plates to form a hollow compression flange. Although these beams known as Delta hollow flange beams (DHFBs) have been introduced about half a century ago for bridge construction, however, their LTB behavior has not been investigated, yet. This paper develops a three dimensional finite-element model using ABAQUS for the inelastic nonlinear flexural-torsional analysis of DHFBs and uses it to investigate the effects of unbraced length and central off-shear center loading (located at center, top flange and bottom flange) on their moment gradient factor in different behavioral zones. It was found that the Cb factor and moment resistance curve given by AISC-LRFD in Specification for structural steel buildings (AISC 360-10) are not accurate for intermediate (inelastic) and short plastic DHFBs leading to an unconservative design. Therefore, a modified moment resistance equation is proposed to be used instead of the code equation in inelastic zone for the investigated load cases in this paper.