A COMPARATIVE STUDY ON THE ACCURACY AND EFFICIENCY OF TWO BIAXIAL HYSTERETIC MODELS SUITABLE FOR ELASTOMERIC BEARINGS

地震工程与工程振动 Pub Date : 2021-01-01 DOI:10.7712/120121.8654.18940

N. Ravichandran

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引用次数: 1

Abstract

In common practice, uncoupled hysteretic models, that is, models that do not consider the bi-axial interaction between the restoring forces along two generic orthogonal transverse directions, are typically employed to perform nonlinear time history analyses of base isolated structures. However, such models do not suitably reproduce the exact response of the structure when the system is subjected to external excitation in two orthogonal directions. Thus, the selection of suitable phenomenological model and the time integration method is important while carrying out nonlinear time history analysis (NLTHA) of base isolated structures. In the present study, a detailed investigation is carried out to assess the effectiveness of two hysteretic models to reproduce the hysteretic behaviour of the elastomeric bearings. A three-dimensional base-isolated reinforced concrete building is analysed under earthquake excitations, by employing a novel biaxial phenomenological model denominated Multiple Springs Exponential Model (MSEM) and Biaxial Bouc-Wen model (BBWM). Numerical accuracy and the computational efficiency of these methods are assessed through NLTHA. The results show that the novel method is advantageous and computationally efficient in comparison with BBWM.

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两种适用于弹性轴承的双轴滞回模型的精度和效率比较研究

在通常的实践中，解耦合滞回模型，即不考虑恢复力沿两个一般正交横向方向之间的双轴相互作用的模型，通常用于进行基础隔震结构的非线性时程分析。然而，当系统在两个正交方向上受到外部激励时，这种模型不能适当地再现结构的精确响应。因此，在进行基础隔震结构非线性时程分析时，选择合适的现象学模型和时间积分方法是十分重要的。在本研究中，进行了详细的调查，以评估两种迟滞模型的有效性，以再现弹性轴承的迟滞行为。采用一种新的双轴多弹簧指数模型(MSEM)和双轴Bouc-Wen模型(BBWM)，对地震作用下的三维基础隔震钢筋混凝土建筑进行了分析。通过NLTHA对这些方法的数值精度和计算效率进行了评价。结果表明，与BBWM相比，该方法具有优势，计算效率高。

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地震工程与工程振动

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