A Comparative Evaluation of Model Pushover and the Influence of Higher Modes

WANG Qilin; WEN Qiguang

doi:10.11835/j.issn.1674-4764.2009.01.013

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A Comparative Evaluation of Model Pushover and the Influence of Higher Modes

更新时间：2023-11-28

- A Comparative Evaluation of Model Pushover and the Influence of Higher Modes
- Journal of Civil and Environmental Engineering Vol. 31, Issue 1, Pages: 60-65(2009)
- 作者机构：
  
  1. 重庆大学建筑设计研究院,重庆,400045
  2. 中国汉嘉设计集团股份有限公司西南分公司,成都,610041
- 作者简介：
- 基金信息：
- DOI：10.11835/j.issn.1674-4764.2009.01.013
  CLC：
- Published：2009
- 稿件说明：
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WANG Qilin, WEN Qiguang. A Comparative Evaluation of Model Pushover and the Influence of Higher Modes[J]. Journal of Civil and Environmental Engineering, 2009, 31(1): 60-65.
DOI：

WANG Qilin, WEN Qiguang. A Comparative Evaluation of Model Pushover and the Influence of Higher Modes[J]. Journal of Civil and Environmental Engineering, 2009, 31(1): 60-65. DOI： 10.11835/j.issn.1674-4764.2009.01.013.

摘要

以6层、10层和16层规则钢筋混凝土平面框架为例，对框架输入3种不同加速度幅值的地震动，并将各框架在七条地震波作用下的非线性动力反应统计结果作为对比基准点，以层间侧移和梁、柱端部转角为考察对象，研究了4种常规 Pushover及Modal Pushover的分析结果的误差变化规律。研究表明，随框架层数增加，Modal Pushover的层间侧移误差基本不变，常规Pushover的模拟误差明显增大，表明Modal Pushover能更合理地模拟高振型的影响。随非线性程度加深，Modal Pushover、常规Pushover分析的层间侧移误差均相应增大。Modal Pushover对上部楼层梁端转角和多数柱端转角的模拟误差明显比常规Pushover更小。

Abstract

Three reinforced concrete plane frames with total heights of 6

and 16 stories

respectively were taken as examples. Nonlinear dynamic responses of three frames under excitations of seven earthquake waves with varying earthquake intensities were selected as the datum mark of a comparison study. The changing rules of the responses analyzed by four kinds of ordinary Pushover Analysis and Modal Pushover Analysis were studied by reviewing the interstory drift ratio and rotation at beam and column ends. Results show that the error of interstory drift ratio analyzed by Modal Pushover Analysis essentially is invariable when the total frame height increases

while the error of ordinary Pushover Analysis is added corresponding to a larger fundamental period. This indicates that Modal Pushover Analysis can cover the influence of higher modes more reasonably. When nonlinear responses of frames were more severe

the interstory drift ratio errors of Modal Pushover Analysis and ordinary Pushover Analysis also increase correspondingly. The errors of rotation at upper story beam ends and the majority of column ends analyzed by Modal Pushover Analysis are smaller than those of ordinary Pushover Analysis.

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