树状结构中带有分支的铸钢接头的失效模式和计算方法研究

IF 1.1 Q3 ENGINEERING, CIVIL

Archives of Civil Engineering Pub Date : 2024-03-29 DOI:10.24425/ace.2024.148930

Feng Chen, Yun Sun, Shuxuan Sun, Da Song, Yangbing Liu

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引用次数: 0

摘要

树状结构通过其与树枝之间单独的铸钢连接来连接构件和传递荷载。因此，连接处的承载能力对树状结构的稳定性、安全性和经济性有着重要影响。本文通过实验验证和数值建模，研究了带分支的铸钢接头在各种荷载条件下的力学行为。然后，研究人员研究了接头的失效过程和机理，并概述了三种最常见的失效模式。此外，研究人员还提出了基于常见失效模式的承载力计算公式。结果表明，带分支的铸钢接头在不同荷载条件下常见的三种失效模式分别是轴向荷载作用下接头核心区失效、偏心荷载作用下主管压缩侧失效以及单根支管在不均匀荷载作用下单根支管根部压缩侧失效。建议的经验计算方法可为类似工程实践设计提供参考。

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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Study on failure modes and calculation method of the cast steel joint with branches in treelike structure

The treelike structure links members and transfers loads via its solitary cast steel joint with branches. Therefore, the joint’s bearing capacity significantly affects the treelike structure’s stability, security, and economics. This paper utilized experimental verification and numerical modeling to examine the mechanical behavior of cast-steel joints with branches in the treelike structure under various loading conditions. Then, researchers investigated the failure process and mechanism of joints, and the three most common failure modes were outlined. Furthermore, the researchers proposed the bearing capacity calculation formula based on the common failure modes. The results show that the three common failure modes of the cast-steel joints with branches under different loading conditions are the failure in the joint core area under the axial load, the failure in the main pipe compression side under eccentric load, and the failure in the compression side of the single branch pipe root when the single branch pipe is under the uneven load. The suggested empirical calculation method can serve as a reference point for similar engineering practices design.

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来源期刊

Archives of Civil Engineering ENGINEERING, CIVIL-

CiteScore

1.50

自引率

28.60%

发文量

审稿时长

24 weeks

期刊介绍： ARCHIVES OF CIVIL ENGINEERING publish original papers of the theoretical, experimental, numerical and practical nature in the fields of structural mechanics, soil mechanics and foundations engineering, concrete, metal, timber and composite polymer structures, hydrotechnical structures, roads, railways and bridges, building services, building physics, management in construction, production of construction materials, construction of civil engineering structures, education of civil engineers.