带中心开口的混合剪力墙抗震性能数值研究

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2023-12-01 DOI:10.2478/jaes-2023-0036
V. Todea, D. Dan, S. Floruț, V. Stoian, V.Ș. Popescu
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引用次数: 0

摘要

摘要:为了减少建筑物在地震作用下的侧向位移,限制非结构构件的破坏,高层建筑经常采用混合剪力墙组成的横向抗力体系。事实上,“混合剪力墙”一词将取代旧术语用于组合钢-混凝土剪力墙。这种结构体系在循环横向荷载下具有非常稳定的抗震性能,但由于建筑或功能原因所需的开口可能会显著改变系统的抗震性能。本文详细介绍了一种钢-混凝土组合剪力墙的抗震性能,该剪力墙设计为中心开孔,边缘部分预埋钢剖面。采用模拟地震作用的循环加载试验程序,对墙体进行竖向和水平荷载作用下的完全破坏试验,记录墙体在承载能力、变形能力、破坏模式和刚度退化等方面的抗震性能。测试试样实验记录的低耗散行为随后通过使用ATENA 3D工程软件进行数值分析进行验证和详细评估。将数值结果扩展到进一步研究其他结构解决方案以提高墙体的承载力和抗震性能。结果表明,采用斜钢筋或附加钢板加固,可显著提高墙体连接梁的变形能力。
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Numerical Study on the Seismic Performance of Hybrid Shear Walls with Centered Openings
Abstract The lateral resisting system comprised of hybrid shear walls is often met nowadays for high rise buildings, to reduce the lateral displacements of the building during a seismic event and to limit the damages of non-structural elements. In fact, “hybrid shear walls” term will replace the old terminology used for composite steel concrete shear walls. This structural system develops a very stable seismic behavior under cyclic lateral loads, but the seismic performance of the system could be significantly changed by the openings required for architectural or functional reasons. This paper presents in detail the seismic behavior of a composite steel-concrete shear wall designed with centered openings and partially embedded steel profiles in the edges. The composite wall was subjected to vertical and horizontal loads and tested to full failure using a cyclic loading testing procedure that simulated the action of an earthquake, aiming to record the seismic performance of the wall in terms of bearing capacity, deformation capacity, failure mode and stiffness degradation. The low-dissipative behavior recorded experimentally of the tested specimen was afterward validated and assessed in detail by performing numerical analyses using ATENA 3D Engineering software. The numerical results were extended to investigate furthermore other structural solutions to increase the bearing capacity and the seismic performance of the wall. It was found that a significant increase in deformation capacity could be obtained if the wall coupling beams are reinforced by diagonal steel bars or additional steel plates.
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9.10%
发文量
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审稿时长
12 weeks
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