Influence of structural irregularity on the q-behaviour factor of light-frame timber buildings by means of incremental dynamic analysis

Vibroengineering PROCEDIA Pub Date : 2023-09-21 DOI:10.21595/vp.2023.23429

Alessandro Mazelli, Chiara Bedon, Antonino Morassi

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Abstract

This paper investigates the role of sheathing-to-framing connection ductility in the evaluation of the structural q-behaviour factor for Light-Frame Timber (LFT) buildings, by means of Incremental Dynamic Analyses (IDA). This approach allows to consider nonlinear cyclic behaviour of the walls, which cannot be taken into account with the static approaches used in most of the available literature on LFT buildings. To this aim, Finite Element wall models, preliminary calibrated towards a cyclic full-scale experimental test, are built to study six case-study buildings, both regular and non-regular, with 2, 3 or 4 storeys, which were designed according to Eurocode and Capacity Design provisions. Parametric analyses are performed by varying the displacement-ductility of the panel. Finally, numerical results are discussed in terms of q-behaviour factor, and its sensitivity to structural irregularities, with respect to existing code provisions for timber buildings.

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基于增量动力分析的结构不规则性对轻框架木结构q-性能因子的影响

本文通过增量动力分析(IDA)的方法，研究了护套-框架连接延性在轻框架木结构(LFT)结构性能因子评估中的作用。这种方法允许考虑墙体的非线性循环行为，这在大多数关于LFT建筑的可用文献中使用的静态方法中无法考虑。为此，根据欧洲规范和容量设计的规定，建立了有限元墙模型，初步校准为循环全尺寸实验测试，以研究六个案例研究建筑，包括规则和非规则建筑，有2层，3层或4层。参数分析是通过改变面板的位移延性来进行的。最后，根据现有木结构建筑规范的规定，讨论了q-行为因子及其对结构不规则性的敏感性的数值结果。

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

Vibroengineering PROCEDIA

CiteScore

0.80

自引率

0.00%

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