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Buckling Resistance Criteria of Prismatic Beams Under Biaxial Moment Gradient
Marian Giżejowski,Radosław Szczerba,Marcin Gajewski,Zbigniew Stachura 한국강구조학회 2019 International Journal of Steel Structures Vol.19 No.2
Laterally and torsionally unrestrained steel I-section beams are susceptible to torsional deformations between supports; therefore, according to Part 1-1 of Eurocode 3, they need to be designed to resist lateral-torsional buckling. Eurocode’s steelwork design criteria require safety checking based on two stability interaction formulae utilizing the so-called equivalent uniform moment factors and the cross-section resistance formula that, in the case of moment gradient, refer to the beam end section. Uncoupling the beam stability resistance criterion and the cross-section resistance criterion may result in a nonuniform safety assessment of I-section beams. Finite element simulations of the beam resistance for diff erent moment gradient ratios are performed. Verifi cation of the buckling resistance is conducted by varying the following parameters: the slenderness ratio, the location of maximum end moments about both axes and the section depth-to-width ratio (i.e., considering rolled I- and H-sections). The variation in the accuracy of the current Eurocode resistance evaluation method is identifi ed, and an approach for a better equalization of the safety predictions is suggested by considering diff erent values of the most important factors infl uencing the stability performance of steel I-section beams.