轴向力变化对钢筋混凝土结构非线性建模和地震反应的影响

E. Ebrahimi, G. Abdollahzadeh, E. Jahani
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引用次数: 1

摘要

为了提高评估结构地震反应的准确性,关键是在精确的非线性模型的基础上进行动力分析,该模型尽可能与相应结构的实际情况相一致。研究界考虑了两端包括一个弹性单元和两个非线性弹簧单元的集中塑性模型来模拟梁和柱,计算强度和刚度退化的影响。在这种类型的模拟中,每个结构部件中产生的轴向力比是引入非线性弹簧的主要因素,在文献中一直被认为是恒定的。因此,本研究的主要目的是修改这种建模方法的根本弱点;事实上,由于地震期间轴向力的重新分布,单元轴向力的任何变化都被应用于集中塑性模型的参数计算,作为非线性动力分析发展的决定性步骤。此外,还提出了一种在OpenSees软件中实现该方法的算法。作为一个案例研究建筑,通过一个有特定记录的钢筋混凝土弯矩框架,验证了所提出方法的有效性。关于结果,证实了所提出的算法是一个合适的工具,可以实现相当真实的非线性模型,并估计具有循环退化行为的结构系统在地震荷载下的合理准确的响应。
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The Effect of Axial Force Variations on Nonlinear Modeling and Seismic Response of Reinforced Concrete Structures
In order to increase the accuracy of evaluating seismic response of structures, it is critical to conduct dynamic analyses based upon precise nonlinear models being as consistent as possible with the real conditions of corresponding structures. The concentrated plasticity model including one elastic element and two nonlinear spring elements at both ends has been considered within the research community for simulating beams and columns, counting the effect of strength and stiffness degradation. In this type of simulation, the axial force ratio generated in each structural component, which is a major factor in introducing nonlinear springs, has always been considered constant in the literature. The main objective of the present research is, therefore, to modify the fundamental weakness in this type of modeling approach; indeed, any variation of element’s axial effort, owing to redistribution of axial forces during an earthquake, is applied in the calculation of parameters of the concentrated plasticity model as a decisive step toward the development of nonlinear dynamic analysis. Moreover, an algorithm is presented for implementing this approach in the OpenSees software. Verification is established and the efficiency of the proposed method is illustrated through a reinforced concrete moment frame subjected to a specific record, as a case study building. Regarding the results, it is confirmed that the proposed algorithm is an appropriate tool for achieving quite a realistic nonlinear model and estimating reasonably accurate responses of structural systems with cyclic degrading behavior under earthquake loading.
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来源期刊
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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