Evaluation and fitting of a numerical model for reinforced concrete thin walls through experimental results of monotonic and cyclic loading tests

IF 1.4 4区 工程技术 Q3 ENGINEERING, CIVIL Latin American Journal of Solids and Structures Pub Date : 2021-07-19 DOI:10.1590/1679-78256575
R. Ortega, Carlos Naranjo, P. Torres, C. Madera, J. Marulanda, P. Thomson, G. Areiza
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引用次数: 5

Abstract

Abstract Reinforced concrete thin walls buildings have become one of the most common alternatives for housing construction in Colombia. However, some studies on this system have reported that walls have a limited deformation capacity and may suffer brittle failures. In this paper, a numerical model developed in OpenSees was used to represent the behavior of thin and slender reinforced concrete walls. The model was evaluated and fitted with the experimental response of two representative walls of this type of construction in high seismic hazard zone, in addition to the results of cyclic tests of other investigations with walls of similar characteristics. The experimental response of the walls indicated that, despite reaching a moderate deformation capacity, for the 1% drift limit, the level of damage was severe and lost 77% and 67% of their initial stiffness, respectively, which confirms that their performance is limited and provides a warning that the design practices may be insufficient. The numerical simulation correlated well with the experimental response in terms of displacement capacity, strength, and hysteric behavior.
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通过单调和循环荷载试验结果评估和拟合钢筋混凝土薄壁的数值模型
摘要钢筋混凝土薄壁建筑已成为哥伦比亚住房建设最常见的替代方案之一。然而,一些关于该系统的研究报告称,墙体的变形能力有限,可能会发生脆性破坏。在本文中,使用OpenSees中开发的数值模型来表示细长钢筋混凝土墙的行为。对该模型进行了评估,并将其与高地震危险区这类建筑的两个代表性墙的实验响应进行了拟合,此外还对其他具有类似特征的墙进行了循环试验。墙体的实验响应表明,尽管达到了中等变形能力,但对于1%的漂移极限,损伤程度严重,分别损失了77%和67%的初始刚度,这证实了其性能有限,并警告设计实践可能不足。数值模拟与实验响应在位移能力、强度和滞回特性方面有很好的相关性。
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CiteScore
2.80
自引率
8.30%
发文量
37
审稿时长
>12 weeks
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