Seismic response of a model soil-pile-bridge system in cohesive soil

IF 4.2 2区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Burak Ozturk , Ahmed Fouad Hussein , M. Hesham El Naggar , Hongjuan Chen
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Abstract

This paper investigates the dynamic response of a model pile-soil-bridge system subjected to seismic loading using a finite element model (FEM) developed in OpenSees. The numerical model is validated against shake table test data from a companion experimental study, which tested a piles-bridge model fabricated from organic glass. The bridge model comprised four piers, each supported by two-by-two pile groups, with edge piers featuring 60 × 60 mm rubber pads between the pier and deck. Two earthquake ground motions, El Centro and Tianjin, were applied at three intensity levels. The calculated and measured responses show good agreement. The validated FEM reveals that the El Centro earthquake typically induces higher acceleration and moment responses in structural elements compared to the Tianjin earthquake, while the Tianjin earthquake results in greater displacement responses. These findings highlight the impact of earthquake wave characteristics, such as predominant period, on the bridge system's response. Furthermore, the bending moments at the pier top for edge piers remain relatively consistent across different earthquake motions and intensity levels, indicating the role of rubber pads in mitigating seismic forces in the piers.
粘性土中土桩桥模型系统的地震响应
本文使用在 OpenSees 中开发的有限元模型(FEM)研究了模型桩-土-桥系统在地震荷载作用下的动态响应。数值模型根据配套实验研究的振动台测试数据进行了验证,该实验研究测试了用有机玻璃制作的桩-桥模型。桥梁模型由四个桥墩组成,每个桥墩由两两一组的桩组支撑,桥墩和桥面之间的边缘有 60 × 60 毫米的橡胶垫。在三个烈度水平上应用了埃尔中心罗和天津两种地震地面运动。计算和测量的响应显示出良好的一致性。经过验证的有限元模型显示,与天津地震相比,埃尔中心罗地震通常会在结构元件中产生更高的加速度和力矩响应,而天津地震则会产生更大的位移响应。这些发现凸显了地震波特征(如主要周期)对桥梁系统响应的影响。此外,在不同的地震运动和烈度水平下,边缘桥墩墩顶的弯矩保持相对一致,这表明橡胶垫在减轻桥墩地震力方面发挥了作用。
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来源期刊
Soil Dynamics and Earthquake Engineering
Soil Dynamics and Earthquake Engineering 工程技术-地球科学综合
CiteScore
7.50
自引率
15.00%
发文量
446
审稿时长
8 months
期刊介绍: The journal aims to encourage and enhance the role of mechanics and other disciplines as they relate to earthquake engineering by providing opportunities for the publication of the work of applied mathematicians, engineers and other applied scientists involved in solving problems closely related to the field of earthquake engineering and geotechnical earthquake engineering. Emphasis is placed on new concepts and techniques, but case histories will also be published if they enhance the presentation and understanding of new technical concepts.
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