Slotted Hole Effect on Damage Mechanism of Gymnasium Building with RC Frame and Steel Roof

Open Journal of Civil Engineering Pub Date : 2020-03-27 DOI:10.4236/ojce.2020.102014

A. Suzuki, Tomomi Fujita, Y. Kimura

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引用次数: 1

Abstract

On the 2011 off the Pacific Coast of Tohoku Earthquake, gymnasium buildings exhibited the unexpected structural damages, which prevented a use as evacuation shelters in during- and post-disaster periods. The major failure occurring on the connection between the RC column top and steel roof as well as the cracks in the RC column base was observed during the emergent inspection. According to the earlier studies, it was implied that the presence of the slotted hole possibly deteriorates the seismic capacity; however, the length of slotted hole was fixed at a certain value. Facing this concern, this research attempts to clarify the influence of the slotted hole length through a comprehensive parametric study by pushover and seismic response analyses. In conclusion, it has been discovered that the slotted hole deteriorates the seismic capacity for the connection failure up to almost 50% of that without slotted hole. Moreover, the discrepancy of characteristics obtained by the static and dynamic analyses is originated by means of the presence of slotted hole. This slotted hole effect should be noted by structural engineers and researchers to provide the adequate seismic diagnosis and strengthening.

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槽孔效应对钢筋混凝土框架钢屋盖体育馆破坏机理的影响

在2011年太平洋沿岸的东北地震中，体育馆建筑出现了意想不到的结构损坏，这使得它们无法在灾后和灾后用作疏散避难所。在紧急检查过程中，观察到主要破坏发生在钢筋混凝土柱顶与钢屋盖连接处，以及钢筋混凝土柱底部出现裂缝。根据先前的研究，暗示槽孔的存在可能会降低抗震能力;而开槽孔的长度是固定在一定值上的。针对这一问题，本研究试图通过推覆和地震反应分析的综合参数研究来阐明槽孔长度的影响。综上所述，研究发现，在连接失效时，开槽孔对连接抗震能力的破坏程度几乎是不开槽孔的50%。此外，静力分析和动力分析结果的差异是由于存在开槽孔造成的。这种槽孔效应应引起结构工程师和研究人员的注意，以提供充分的地震诊断和加固。

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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Open Journal of Civil Engineering

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