Modelling Analysis of Earthquake Impact on R.C Buildings in Baghdad using SAP200

Journal of Applied Engineering Design and Simulation Pub Date : 2023-09-22 DOI:10.24191/jaeds.v3i2.69

Hasan Ali Abbas, Manaf Raid Salman, Hasanain Muhammad Ghaltan

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Abstract

Most typical commercial reinforced concrete buildings in Iraq were designed using outdated building codes that did not consider horizontal seismic loads; they primarily focused on vertical loads. As a result, there is uncertainty regarding whether these conventional buildings can withstand recent earthquakes in Iraq. In this study, we created a three-dimensional finite element model using SAP2000 to represent scaled versions of typical multistory reinforced concrete commercial structures found in Iraqi cities. The primary objective was to investigate how these structures respond to seismic events, particularly the Ali Al-Gharbee earthquake that struck Maysan Province in southern Iraq in 2012, with a magnitude of Mw=4.9 and PGA=104.151 cm/sec2 as the input ground motion. Our findings indicate that typical multistory reinforced concrete commercial buildings in Iraq can safely withstand earthquakes. However, when the magnitude increases to approximately Mw=5.2 (PGA=156 cm/sec2), some members may experience cracking and exceed allowable drift limits. If the magnitude reaches about Mw=6 (PGA=208 cm/sec2), these buildings may experience complete failure.

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地震对巴格达钢筋混凝土建筑影响的SAP200模型分析

在伊拉克，大多数典型的商业钢筋混凝土建筑是使用过时的建筑规范设计的，没有考虑水平地震荷载;他们主要关注垂直载荷。因此，这些传统建筑能否经受住伊拉克最近发生的地震还不确定。在这项研究中，我们使用SAP2000创建了一个三维有限元模型，以表示在伊拉克城市中发现的典型多层钢筋混凝土商业结构的缩放版本。主要目的是研究这些结构对地震事件的反应，特别是2012年袭击伊拉克南部Maysan省的Ali Al-Gharbee地震，该地震的震级为Mw=4.9, PGA=104.151 cm/sec2。我们的研究结果表明，伊拉克典型的多层钢筋混凝土商业建筑可以安全地承受地震。然而，当震级增加到大约Mw=5.2 (PGA=156 cm/sec2)时，一些构件可能会出现开裂并超过允许的漂移限制。如果震级达到Mw=6 (PGA=208 cm/sec2)左右，这些建筑物可能会完全倒塌。

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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Journal of Applied Engineering Design and Simulation

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