Nonlinear modelling and seismic behaviour of precast concrete structures with steel shear walls

Bulletin of the New Zealand National Society for Earthquake Engineering Pub Date : 2016-12-31 DOI:10.5459/BNZSEE.49.4.293-304

F. Behnamfar, Rafeek Artoonian, M. Ghandil

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Abstract

A new structural system consisting of precast concrete frames and steel shear walls (SSW's) is introduced and studied numerically in this paper. Two different models, first using ''exact'' FEM and second using approximate equivalent strip model (ESM), are utilized for analysis of such a system with nonlinear static (pushover) procedure. In the FEM model use is made of shell elements while the ESM benefits from simple links that replace the wall panels in the model and are oriented such that they work in tension. Because of good agreement observed between the results of the models in smaller structures, for taller buildings only the ESM approach is followed where computationally applying the FEM approach is impractical. The lateral behaviour of the systems under consideration is investigated with regard to parameters such as number of stories and beam-column connection type. As a result, the ductility, overstrength and response modification factors are calculated for this new structural system as quantities required for their practical design.

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钢剪力墙预制混凝土结构的非线性建模与抗震性能

本文介绍了一种由预制混凝土框架和钢剪力墙组成的新型结构体系，并对其进行了数值研究。采用两种不同的模型，一种是“精确”有限元模型，另一种是近似等效条形模型(ESM)，用于分析具有非线性静力(推覆)过程的系统。在FEM模型中，使用的是壳单元，而ESM受益于简单的链接，这些链接取代了模型中的墙板，并且定向使它们在张力下工作。由于在较小的结构中模型的结果之间观察到良好的一致性，对于较高的建筑，仅采用ESM方法，在计算上应用FEM方法是不切实际的。所考虑的系统的横向行为是根据诸如楼层数和梁柱连接类型等参数进行研究的。结果，计算了该结构体系的延性、超强和响应修正系数，作为其实际设计所需的数量。

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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Bulletin of the New Zealand National Society for Earthquake Engineering

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