Seismic performance assessment of a multi-story bamboo frame structure

Jian-Chen Zhao, Hong-Xing Qiu
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引用次数: 1

Abstract

As a building material, engineered bamboo has caught attention around the world due to its advantages in energy conservation and environmental protection. The seismic performance of bamboo buildings needs to be evaluated to further promote the use of bamboo materials in building construction. We studied the seismic response of a 3-story bamboo frame structure numerically using nonlinear dynamic time history analysis. A simplified modeling method for bamboo column-beam joints was proposed in the numerical model. The hysteresis behaviour of the joint was simulated by Pinching 4 material in OpenSEES, with the parameters calibrated through test results. Comparative analysis shows that the proposed modeling method could reasonably reflect the pinching effect and the degradation of the joint hysteretic behavior. A total of 20 ground motions with three intensities were involved in the nonlinear dynamic analysis. The results demonstrate that the frame meets target performance levels, providing evidence for the further popularization of engineered bamboo structures.

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多层竹框架结构的抗震性能评价
工程竹作为一种建筑材料,由于其在节能环保方面的优势,引起了世界各地的关注。竹结构建筑的抗震性能需要评估,以进一步促进竹材料在建筑施工中的应用。采用非线性动力时程分析方法,对某三层竹框架结构的地震反应进行了数值研究。在数值模型中,提出了一种简化的竹柱梁节点建模方法。通过OpenSEES中的Pinching 4材料模拟了接头的磁滞行为,并通过测试结果校准了参数。对比分析表明,所提出的建模方法能够合理地反映夹持效应和节点滞回性能的退化。共有20个三个强度的地震动参与了非线性动力学分析。结果表明,该框架达到了目标性能水平,为工程竹结构的进一步推广提供了依据。
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