Tension-Flange Restraint Effect on Lateral-Torsional Buckling Moment Capacity of Web-Tapered Steel I-Sections

IF 1.1 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Steel Structures Pub Date : 2024-10-11 DOI:10.1007/s13296-024-00900-0

Mahmoud Magdy, Ali Hammad, Ahmed A. Matloub, Sherif M. Ibrahim

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Abstract

The web-tapered beams have advantages above the conventional rolled I-sections. They combine economy, efficiency, and aesthetics, especially with flange lateral restraint. In this paper, the effect of tension flange restraint on the lateral-torsional buckling (LTB) moment capacity is investigated numerically using finite element analysis. ABAQUS software is used to construct a finite element model (FEM) which is verified against available experimental results in the literature. A parametric study is carried out using different parameters: tapering ratio, beam length, moment gradient, and cross-section properties. FEM results are compared to the latest AISC Design Guide No.25. The restraint at the tension flange enhances the moment capacity, especially for beams with narrow flanges and long spans. One restraint at the mid-span is found to be adequate. The gain in capacity is more noticeable for gradient moment rather than uniform moment. A design procedure is proposed by considering a factor to the available rules to account for the advantage of tension flange restraint. The proposed equation of the enhancement factor is found to be accurate compared to the FEM.

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腹板锥形梁比传统的轧制工字钢更具优势。它们集经济性、高效性和美观性于一体，尤其是在翼缘横向约束的情况下。本文采用有限元分析方法，对翼缘张力约束对横向扭转屈曲（LTB）弯矩承载力的影响进行了数值研究。采用 ABAQUS 软件构建有限元模型（FEM），并与文献中的现有实验结果进行验证。使用不同的参数进行了参数研究：锥形比、梁长、力矩梯度和横截面特性。有限元结果与最新的 AISC 设计指南第 25 号进行了比较。受拉翼缘处的约束增强了弯矩承载能力，特别是对于翼缘较窄、跨度较大的梁。在中跨处施加一个约束就足够了。对于梯度力矩而非均匀力矩，承载力的提高更为明显。为了考虑翼缘拉伸约束的优势，在现有规则中加入了一个系数，从而提出了一种设计程序。与有限元模型相比，所提出的增强系数方程是准确的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Steel Structures 工程技术-工程：土木

CiteScore

2.70

自引率

13.30%

发文量

122

审稿时长

12 months

期刊介绍： The International Journal of Steel Structures provides an international forum for a broad classification of technical papers in steel structural research and its applications. The journal aims to reach not only researchers, but also practicing engineers. Coverage encompasses such topics as stability, fatigue, non-linear behavior, dynamics, reliability, fire, design codes, computer-aided analysis and design, optimization, expert systems, connections, fabrications, maintenance, bridges, off-shore structures, jetties, stadiums, transmission towers, marine vessels, storage tanks, pressure vessels, aerospace, and pipelines and more.