Steel plate girders shear strength prediction. A performance comparison of analytical models

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
M. M. Rafi, M. A. Bhutto
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引用次数: 0

Abstract

 Web shear buckling of steel plate girders limits their load-carrying capacity in bending. Several analytical models have been suggested in the literature to estimate the shear capacity of plate girders. This paper presents a critical evaluation of several of these analytical models using the data of experimentally tested plate girders available in the literature. It was found that these analytical models make a conservative estimation of critical buckling strength for plate girders with larger slenderness and/or aspect ratios. Although the predicted ultimate shear strength varied across the different analytical models, no particular trend was identified to show that the aspect and/or slenderness ratios influenced the shear strength. A parametrically conducted analysis indicated that the threshold slenderness ratio (to cause buckling in the web panel) decreases with increasing yield strength and aspect ratio. The paper proposes simplified guidelines for the preliminary sizing of steel plate girders by avoiding shear buckling. It has been shown that the sizes of plate girders determined using the proposed guidelines satisfy design requirements for both flexure and shear.
钢板梁抗剪强度预测。分析模型的性能比较
钢板梁的腹板剪切屈曲限制了其弯曲承载能力。文献中提出了几种分析模型来估算钢板梁的抗剪能力。本文利用文献中经过实验测试的钢板梁数据,对其中几个分析模型进行了批判性评估。结果发现,这些分析模型对具有较大细长率和/或纵横比的板梁的临界屈曲强度做出了保守的估计。虽然不同分析模型预测的极限剪切强度各不相同,但没有发现特定趋势表明长宽比和/或细长比会影响剪切强度。一项参数分析表明,随着屈服强度和长宽比的增加,阈值细长比(导致腹板屈曲)会降低。本文提出了通过避免剪切屈曲来初步确定钢板梁尺寸的简化指南。结果表明,使用拟议准则确定的钢板梁尺寸能够满足抗弯和抗剪的设计要求。
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
Bridge Structures
Bridge Structures CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
1.10
自引率
0.00%
发文量
5
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