Response of multistory steel structure subjected to differential settlements of its foundation

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
A. Hanna, Wenxue Chen
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引用次数: 1

Abstract

PurposeThis article aims to address an outstanding problem dealing with the structure and its foundation.Design/methodology/approachDifferential settlement between foundation units of a multistory structure has been responsible for serious damage to buildings and often catastrophic failure and loss of life. The dynamic changes in the loading conditions of the structure, and the variability of the underlying ground due to environmental changes, are causing the undesirable differential settlement, which is manifested in the form of additional stresses in beams, columns and distortion of the structure elements. The structural response to the differential settlements depends on the type of the structure (concrete or steel), type of beam-to-column connections (rigid or semi-rigid), number of floors and the spans of the beams in the building. This paper presents the results of a numerical model, which was developed using the finite element technique and the software “ABAQUS” to analyze a nine-floor steel structure. The model was capable to capture the stresses and the strains developed in beams and columns and the relationships of moment–settlement and rotation–settlement for the structural during the differential settlement of its foundation. After validating of the model, data were produced for a wide range of governing parameters for rigid and semi-rigid connections and accordingly the mode of failure. The results can be used as a guideline for the design of steel structures.FindingsResults are useful for those design steel structures.Research limitations/implicationsThis study is based on the experimental and numerical data of the authors.Practical implicationsThis study provides a guideline for the design of steel structures.Originality/valueThis is the original research developed by the authors.
多层钢结构在地基差沉降作用下的响应
目的本文旨在解决结构及其基础方面的一个突出问题。设计/方法/方法多层结构基础单元之间的不均匀沉降导致了建筑物的严重损坏,通常是灾难性的故障和生命损失。结构荷载条件的动态变化,以及环境变化引起的下伏地面的变化,导致了不希望的不均匀沉降,表现为梁、柱中的附加应力和结构元件的变形。对不均匀沉降的结构响应取决于结构类型(混凝土或钢)、梁柱连接类型(刚性或半刚性)、楼层数量和建筑中梁的跨度。本文介绍了利用有限元技术和ABAQUS软件建立的九层钢结构数值模型的分析结果。该模型能够捕捉梁和柱中产生的应力和应变,以及基础不均匀沉降期间结构的力矩-沉降和旋转-沉降关系。在验证模型后,产生了刚性和半刚性连接的各种控制参数的数据,并相应地产生了失效模式。研究结果可供钢结构设计参考。结果对钢结构的设计非常有用。研究局限性/含义本研究基于作者的实验和数值数据。实践意义本研究为钢结构设计提供了指导。原创性/价值这是作者开发的原创研究。
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
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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