Theoretical studies on CFT-column frame SPSW/BRSPSW linked by partial welded connection forms

IF 4 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Journal of Constructional Steel Research Pub Date : 2025-04-07 DOI:10.1016/j.jcsr.2025.109550

Mohammed Amer , Zhihua Chen , Yansheng Du , Saleh Ahmad Laqsum , AIB Farouk , Shao-Bo Kang

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引用次数: 0

Abstract

Steel plates, being slender structural elements, are susceptible to early failure caused by localized buckling. This buckling significantly reduces their overall capacity and stiffness, compromising their structural performance. Therefore, this article presents a comprehensive computational framework to accurately predict the inelastic behavior of steel plate shear walls (SPSWs) and buckling-restrained steel plate shear walls (BRSPSWs) with various partially welded connections. Detailed finite element (FE) modeling techniques were developed and validated against an extensive experimental database, systematically accounting for factors such as material constitutive models, mesh density, contact interactions, and geometric imperfections to ensure high accuracy predictions. Using the validated FE approach, comprehensive parametric studies were carried out with an efficient pushover loading scheme to examine four representative cases: four-corner/double-side welded connections for SPSWs and BRSPSWs (FC/DS-SPSW/BRSPSW-W). The results highlight that the SPSW/BRSPSW-W are significantly influenced by the height-to-thickness and length-to-height ratios. Besides, they are gradually impacted by the connection's dimensions, while they are influenced minimally and negatively by panels thickness and axial ratios. Accordingly, a novel analytical model was derived to predict the buckling coefficients for all four connection cases, showing that the buckling models of both FC/DS-SPSW-W are impacted by length-to-height while the FC-DS-BRSPSW-W are impacted by length-to-height and stiffness buckling restrained. Furthermore, a modified plate frame interaction (MPFI) method was then formulated by integrating parametric FE data and analytical buckling model to enable accurate calculations of yield/peak bearing capacities and yield/post stiffnesses. Fundamentally, the MPFI predictions were comprehensively validated against a combined database of experimental test data and FE modeling.

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部分焊接连接形式连接的cft -柱框架SPSW/BRSPSW的理论研究

钢板作为细长的结构元件，很容易因局部屈曲而导致早期失效。这种屈曲会大大降低钢板的整体承载能力和刚度，影响其结构性能。因此，本文提出了一个全面的计算框架，用于准确预测钢板剪力墙（SPSWs）和具有各种部分焊接连接的屈曲约束钢板剪力墙（BRSPSWs）的非弹性行为。我们开发了详细的有限元（FE）建模技术，并根据广泛的实验数据库进行了验证，系统地考虑了材料构成模型、网格密度、接触相互作用和几何缺陷等因素，以确保高精度预测。利用经过验证的 FE 方法，采用高效的推力加载方案进行了全面的参数研究，以检验四个具有代表性的案例：SPSW 和 BRSPSW 的四角/双面焊接连接（FC/DS-SPSW/BRSPSW-W）。结果表明，SPSW/BRSPSW-W 受到高度-厚度比和长度-高度比的显著影响。此外，它们还逐渐受到连接尺寸的影响，而面板厚度和轴向比对它们的影响很小，而且是负面的。因此，推导出了一个新的分析模型来预测所有四种连接情况的屈曲系数，结果表明，FC/DS-SPSW-W 的屈曲模型受长度-高度的影响，而 FC-DS-BRSPSW-W 则受长度-高度和刚度屈曲约束的影响。此外，通过整合参数 FE 数据和分析屈曲模型，制定了一种改进的板框相互作用（MPFI）方法，以实现屈服/峰值承载力和屈服/支柱刚度的精确计算。从根本上讲，MPFI 预测结果已通过实验测试数据和 FE 建模的综合数据库进行了全面验证。

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

Journal of Constructional Steel Research 工程技术-工程：土木

CiteScore

7.90

自引率

19.50%

发文量

550

审稿时长

46 days

期刊介绍： The Journal of Constructional Steel Research provides an international forum for the presentation and discussion of the latest developments in structural steel research and their applications. It is aimed not only at researchers but also at those likely to be most affected by research results, i.e. designers and fabricators. Original papers of a high standard dealing with all aspects of steel research including theoretical and experimental research on elements, assemblages, connection and material properties are considered for publication.