Modelling and calibration of infill frame-buildings, using ambient vibration tests and genetic algorithms

IF 0.7 Q4 ENGINEERING, CIVIL

International Journal of Structural Engineering Pub Date : 2020-08-03 DOI:10.1504/ijstructe.2020.10030994

E. D. Mora, Jhon Jairo Aguirre, Jorge Luis Bone, Kléver Gastón Parra, R. Baquero

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引用次数: 1

Abstract

The presence of infill walls modifies the global structural response of frame buildings subjected to seismic loads. In evaluation studies, the stiffness of the structural elements and the mass of the building do not have great scattering; consequently, the variable to be analysed is the stiffness of the masonry. This investigation presents a process to determine a more realistic calibration of an existing building model using structural software and genetic algorithm programs made in Python 3 where the properties of the masonry were iterated to obtain modal periods similar to those obtained from ambient vibration tests. This programming can be freely downloaded and can be used in any optimisation case. The results highlighted the influence that non-structural masonry has over the overall behaviour of a building. It is also demonstrated that the use of a simplified macro model, with one spring that depicts the nonlinear performance of masonry, is an excellent option to address the limitations of commonly used software, as well as reducing processing time.

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利用环境振动测试和遗传算法对填充框架建筑进行建模和校准

填充墙的存在改变了框架建筑在地震荷载作用下的整体结构响应。在评估研究中，结构元件的刚度和建筑物的质量没有很大的散射；因此，要分析的变量是砌体的刚度。本研究提供了一个使用Python 3中制作的结构软件和遗传算法程序来确定现有建筑模型的更真实校准的过程，其中对砌体的特性进行迭代，以获得与环境振动测试中获得的模态周期相似的模态周期。该程序可以免费下载，并可用于任何优化情况。研究结果强调了非结构砌体对建筑整体性能的影响。还证明，使用一个简化的宏观模型，其中一个弹簧描述了砌体的非线性性能，是解决常用软件局限性以及减少处理时间的绝佳选择。

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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来源期刊

International Journal of Structural Engineering Engineering-Civil and Structural Engineering

CiteScore

2.40

自引率

23.10%

发文量