多层钢交错桁架体系分析与设计

Shanila P, M. U
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引用次数: 0

摘要

交错桁架结构是高层建筑中一种全新的结构理念。它是提高建筑施工效率的有效设计技术。它最初是在20世纪60年代在麻省理工学院创建的。通过提供化粪池系统,我们可以增加建筑物的强度和延展性。它有助于减少内部柱的数量,从而降低建筑物的建造成本。该项目涉及使用ETAB软件对16层钢交错桁架系统的地震性能进行分析调查。研究了桁架结构形式的变化对体系抗震性能的影响。同时,对不同面板宽度下STS结构的抗震性能进行了评价。采用时程分析法对模型进行分析。从分析结果中提取了最大层位移、最大层位移和基底剪力。结果表明,在相应的地震作用下,warren桁架模型表现出最高的强度和刚度,而其他桁架形状也达到了目标性能水平,并且较小的Vierendeel面板宽度的模型表现出更高的基底剪力和更低的层间位移和位移。
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Analysis and Design of Multi-Storey Steel Staggered-Truss System
A Staggered Truss System (STS) is a brand-new idea in the construction of high-rise buildings. It is an effective design technique to improve efficiency in building construction. It was initially created in the 1960s at the Massachusetts Institute of Technology. By providing STS we can increase the strength and ductility of the building. It helps to cut down the number of interior columns and thereby reduce the cost of the building construction. This project involved using the ETAB software to undertake an analytical investigation into the seismic behaviour of a 16-storey steel staggered-truss system. The structural shape of the trusses was varied, and their influences on the seismic behaviours of the system were studied. The seismic performance of STS structures by varying the Vierendeel panel width was also evaluated. Time history analysis was used to analyse the models. From the analysis result maximum storey displacement, maximum storey drift and base shear are extracted. From the result, it was found that the model with warren trusses showed the highest strength and stiffness to the corresponding earthquake but all other truss shapes also achieved the target performance level and also the model with less Vierendeel panel width shows higher base shear and lower inter storey drift and displacement.
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