新型螺栓连接预制混凝土楼板的挠度功能

IF 5.6 1区 工程技术 Q1 ENGINEERING, CIVIL Engineering Structures Pub Date : 2024-11-04 DOI:10.1016/j.engstruct.2024.119250
Feng Xiong, Chaoyang Zheng, Ye Liu, Yu Bian, Yuhao Wang
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引用次数: 0

摘要

由于后浇程序和相对复杂的连接构造,复合预制楼板限制了预制混凝土系统优势的充分发挥。开发完全组装的预制楼板势在必行;因此,本研究提出了一种新型螺栓连接预制混凝土楼板,以满足楼板系统对快速组装、轻质和良好隔热性日益增长的需求。拟议的楼板由预制夹层单元板组成,这些单元板通过干式螺栓连接件完全组装成一个整体楼板。对四块全尺寸预制混凝土地板进行了现场静态加载试验。试验结果表明,由于螺栓连接件的参与,这些楼板具有双向抗弯能力。通过理论分析研究了锚固处的约束机制和连接处的荷载传递机制。基于板壳理论,建立并验证了求解楼板挠度函数的简化理论方法,为设计此类全装配式楼板提供了参考。理论与实验结果的对比表明,连接件的布置会影响理论计算的准确性,这是因为连接件的布置会影响所进行的连续性简化。通过有限元分析,对所提出的理论方法的应用范围进行了评估。
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Deflection function of a novel bolt-connected precast concrete floor
Owing to the post-cast procedure and relatively complex joint configuration, composite precast floors limit the full display of advantages of precast concrete systems. The development of fully assembled precast floors is of necessity; therefore, a novel bolt-connected precast concrete floor was proposed in this study to meet the increasing demand for quick assembly, lightweight, and good insulation in flooring systems. The proposed floors consist of precast sandwich unit slabs that are fully assembled to an integral floor with dry-type bolted connectors. Field static loading tests were conducted on four full-scale precast concrete floors. The test results indicate that the floors exhibited a two-way flexural ability due to the involvement of the bolted connectors. The restraining mechanism at anchorage and load-transferring mechanism at joints were investigated through a theoretical analysis. Based on the theory of plates and shells, a simplified theoretical method of solving the deflection function of the floors was established and validated to provide a reference for designing such fully assembled floors. The comparison between the theoretical and experimental results indicates that the arrangement of joint connectors could affect the theoretical calculation accuracy due to its influence on the performed continuity simplification. The application scope of the proposed theoretical method was evaluated through a finite element analysis.
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来源期刊
Engineering Structures
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.
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