Experimental, analytical, and numerical study of a wall-type self-centering slip friction damper

IF 5.6 1区工程技术 Q1 ENGINEERING, CIVIL

Engineering Structures Pub Date : 2024-11-13 DOI:10.1016/j.engstruct.2024.119296

Canxing Qiu , Haozhi Huangfu , Jiawang Liu , Yongping Cao , Xiuli Du , Hang Liu

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引用次数: 0

Abstract

This paper proposes a novel wall-type self-centering slip friction damper (WSCSFD), which mainly comprises of the grooved T-shape and L-shape plates that are combined by stacked disc springs. The damper resists shear forces arising from the inter-story drifts under earthquakes. By leveraging the variable friction mechanism and the pre-compressed disc springs, the WSCSFD can provide self-centering capability and energy dissipation capacity. The configuration and working mechanism of WSCSFD were first discussed. And then, the theoretical equations governing the force–displacement relationship were derived. One reduced-scale damper specimen was fabricated to conduct the proof-of-concept tests. The test results validated the deformation mode and cyclic behavior of the WSCSFD. The hysteretic parameters related to seismic applications were quantified and discussed. To complement the experimental observations and gain a further understanding of the local behavior, three-dimensional finite element (FE) models were established in ABAQUS. Finally, to address the deficiencies of the damper specimen, some potential improvement approaches were suggested and evaluated through the validated FE models.

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壁式自定心滑动摩擦阻尼器的实验、分析和数值研究

本文提出了一种新型墙式自定心滑动摩擦阻尼器（WSCSFD），它主要由 T 形槽板和 L 形板组成，并由叠合碟形弹簧组合而成。该阻尼器可抵抗地震时楼层间漂移产生的剪切力。通过利用可变摩擦机制和预压缩碟形弹簧，WSCSFD 可提供自定心能力和消能能力。首先讨论了 WSCSFD 的构造和工作机制。然后，推导了力-位移关系的理论方程。为了进行概念验证试验，我们制作了一个缩小尺寸的阻尼器试样。试验结果验证了 WSCSFD 的变形模式和循环行为。对与地震应用相关的滞回参数进行了量化和讨论。为补充实验观察结果并进一步了解局部行为，在 ABAQUS 中建立了三维有限元 (FE) 模型。最后，针对阻尼器试样的不足之处，提出了一些潜在的改进方法，并通过验证的 FE 模型进行了评估。

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

Engineering Structures 工程技术-工程：土木

CiteScore

10.20

自引率

14.50%

发文量

1385

审稿时长

67 days

期刊介绍： Engineering Structures provides a forum for a broad blend of scientific and technical papers to reflect the evolving needs of the structural engineering and structural mechanics communities. Particularly welcome are contributions dealing with applications of structural engineering and mechanics principles in all areas of technology. The journal aspires to a broad and integrated coverage of the effects of dynamic loadings and of the modelling techniques whereby the structural response to these loadings may be computed. The scope of Engineering Structures encompasses, but is not restricted to, the following areas: infrastructure engineering; earthquake engineering; structure-fluid-soil interaction; wind engineering; fire engineering; blast engineering; structural reliability/stability; life assessment/integrity; structural health monitoring; multi-hazard engineering; structural dynamics; optimization; expert systems; experimental modelling; performance-based design; multiscale analysis; value engineering. Topics of interest include: tall buildings; innovative structures; environmentally responsive structures; bridges; stadiums; commercial and public buildings; transmission towers; television and telecommunication masts; foldable structures; cooling towers; plates and shells; suspension structures; protective structures; smart structures; nuclear reactors; dams; pressure vessels; pipelines; tunnels. Engineering Structures also publishes review articles, short communications and discussions, book reviews, and a diary on international events related to any aspect of structural engineering.