Seismic performance of wall plate supported semi-rigid steel frames with a novel type of wall-beam connector

IF 4 2区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Wei Bao , Sheng Long , Dongying Liu , Zhiwei Yu , Jiaopeng Fang , Wenzhe Lin
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Abstract

This study focuses on investigating the seismic performance of semi-rigid steel frames (SSFs) reinforced with wall plates and a novel wall-beam connector (WBC). The aim is to address the inherent limitations of these frames regarding lateral resistance and susceptibility to local instability. To evaluate the effectiveness of the proposed reinforcement, three specimens were subjected to pseudo-static cyclic loading. One specimen represented a standard SSF without wall plates, while the other two specimens were supported by wall plates with WBCs of different thicknesses (3 mm and 5 mm). The comparative analysis of the three specimens revealed significant improvements in seismic performance and energy dissipation capacities resulting from the inclusion of the WBCs. The WBCs facilitated displacement deformation, effectively mitigating structural damage caused by seismic forces. Notably, the introduction of WBCs led to a substantial increase in initial stiffness (45.2 % for WBC1 and 111.3 % for WBC2) and a significant enhancement in ultimate bearing capacity (251.9 % increase for WBC2) compared to the standard SSF. The thickness of the WBCs emerged as a crucial factor in regulating the load-bearing capacity, stiffness, and energy dissipation of the structure. The integration of WBCs ensured stable load-bearing functionality for both the frame and wall plate, effectively utilizing the material properties of each component. This configuration enhanced the lateral stiffness and hysteretic behavior of the structure, facilitating staged and incremental yielding and plastic energy dissipation under varying inter-story drifts.
采用新型墙梁连接器的墙板支撑半刚性钢架的抗震性能
本研究的重点是调查用墙板和新型墙梁连接器(WBC)加固的半刚性钢框架(SSF)的抗震性能。目的是解决这些框架在抗侧能力和易受局部失稳影响方面的固有局限性。为了评估所建议的加固措施的有效性,对三个试样进行了伪静态循环加载。其中一个试样代表了不带墙板的标准 SSF,而另外两个试样则由带有不同厚度(3 毫米和 5 毫米)WBC 的墙板支撑。对这三个试样的对比分析表明,由于加入了有孔板,抗震性能和消能能力都有了显著提高。木筋混凝土促进了位移变形,有效减轻了地震力对结构造成的破坏。值得注意的是,与标准 SSF 相比,引入 WBC 后,初始刚度大幅增加(WBC1 增加 45.2%,WBC2 增加 111.3%),极限承载能力显著提高(WBC2 增加 251.9%)。在调节结构的承载能力、刚度和能量耗散方面,WBC 的厚度是一个关键因素。WBC 的集成确保了框架和墙板的稳定承重功能,有效利用了每个组件的材料特性。这种配置增强了结构的横向刚度和滞后行为,有利于在不同的层间漂移情况下分阶段、渐进式屈服和塑性消能。
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来源期刊
Journal of Constructional Steel Research
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.
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