钢筋混凝土框架的增量动力分析和地震脆性分析

IF 1.1 Q3 ENGINEERING, CIVIL
G. Awchat, Abhishek Patil, Ashish More, Gopal Dhanjode
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引用次数: 0

摘要

摘要由于过去十年的技术发展,新的地震评估方法正在使用,如基于模拟、基于算法、概率、基于软件等。这些发展使研究人员能够从线性分析方法转向非线性分析方法。增量动力分析(IDA)是一种性能评估方法,其中应用于结构的一系列地震动被进一步缩放到特定的地震烈度水平。从潜在地震的角度来看,地震易损性曲线在估计结构风险可能性方面具有重要意义,并有助于预测即将发生的地震的经济后果。本文反映了一层+7层(G+7)钢筋混凝土框架在11组地震动作用下的IDA和地震易损性分析。主要目的是进行等效静态和线性动态分析,以满足国家和国际规范的要求。然后,根据ASCE 41-13表,通过引入参数化自动铰链进行推倒分析。为了进行pushover分析,引入了几何非线性和材料非线性。强地震动是根据适当的地震烈度标准选择的。然后根据SeismStruct 2022软件进行IDA,并使用IDA曲线进行脆性分析。研究结果对研究人员预测地震下结构损坏的概率很有用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Incremental Dynamic Analysis and Seismic Fragility Analysis of Reinforced Concrete Frame
Abstract Due to technological developments in last decade, new methods of seismic evaluation are in use like simulation based, algorithm based, probabilistic, software based etc. These developments have enabled researchers to move from linear to non-linear methods of analysis. Incremental dynamic analysis (IDA) is performance evaluation method where a suite of ground motions applied to structure are further scaled to particular levels of seismic intensity. Seismic fragility curves become significant in estimation of structures risk possibility from the point of view of potential earthquakes and helps in predicting the economic consequences for forthcoming earthquakes. The paper reflects IDA and seismic fragility analysis of ground storey + 7 floor (G + 7) reinforced concrete frame subjected to suite of eleven ground motions. Primary objective was to perform equivalent static and linear-dynamic analysis to meet the National and International codal requirements. Then, pushover analysis is carried out by introducing parametric auto hinges as per ASCE 41-13 tables. To carry out pushover analysis, both geometric and material non-linearity was introduced. Strong ground motions were selected as per suitable criteria of seismic intensity. IDA is then carried out as per SeismoStruct 2022 software and using IDA curves, the fragility analysis was carried out. The results of study found useful for researchers to predict the probability of damage of the structure under earthquakes.
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来源期刊
CiteScore
2.00
自引率
58.30%
发文量
69
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