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王建宁, 杨靖, 庄海洋, 付继赛, 窦远明. 带地连墙异跨地铁车站结构周围地基液化振动台试验[J]. 岩土工程学报, 2020, 42(10): 1858-1866. DOI: 10.11779/CJGE202010011
引用本文: 王建宁, 杨靖, 庄海洋, 付继赛, 窦远明. 带地连墙异跨地铁车站结构周围地基液化振动台试验[J]. 岩土工程学报, 2020, 42(10): 1858-1866. DOI: 10.11779/CJGE202010011
WANG Jian-ning, YANG Jing, ZHUANG Hai-yang, FU Ji-sai, DOU Yuan-ming. Shaking table test on liquefaction characteristics of foundation around a complicated subway station with diaphragm walls[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(10): 1858-1866. DOI: 10.11779/CJGE202010011
Citation: WANG Jian-ning, YANG Jing, ZHUANG Hai-yang, FU Ji-sai, DOU Yuan-ming. Shaking table test on liquefaction characteristics of foundation around a complicated subway station with diaphragm walls[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(10): 1858-1866. DOI: 10.11779/CJGE202010011

带地连墙异跨地铁车站结构周围地基液化振动台试验

Shaking table test on liquefaction characteristics of foundation around a complicated subway station with diaphragm walls

  • 摘要: 地下结构的外部轮廓及其对整体抗侧刚度产生明显改变的附属构筑物都将对主体的抗震性能、变形性态和破坏特征等产生显著影响。通过开展可液化地基土-地下连续墙-异跨地铁车站结构动力相互作用的大型振动台模型试验,对比分析了不同强度地震动作用下模型地基的孔隙水压力发展、加速度响应和地表震陷等动力响应规律。试验结果表明:地连墙和地下结构的存在明显减小了其周围地基的加速度和动孔压比反应,且地基液化程度不同时的影响规律存在明显差异;模型地基对地震动的低频段反应更为强烈,反应谱随地震动强度的增大逐渐向长周期移动;当输入地震动强度较小时,模型结构和场地均出现少许沉降,强地震动作用下的地基土沉陷明显,地下结构呈整体水平上浮状态;模型地基动孔压发展及其分布沿结构纵向变化较小,根据试验结果给出了具体的影响规律及其影响机理。

     

    Abstract: The external profile of the underground structures and the annexes which greatly change the lateral stiffness of the whole structures have significant influences on the seismic performance, deformation behavior and failure characteristics of the main structures. Large-scale shaking table model tests on the dynamic interaction system of liquefied site-diaphragm wall-complicated subway station are carried out. The test results of the development of pore water pressure, acceleration of model system, earthquake-induced ground settlement and structure uplifting are compared and analyzed. It is shown that the underground structures and the diaphragm walls have great effects on the earthquake responses of soil foundation around the structures, which are also affected greatly by the liquefaction condition of soil foundation. The model system is more responsive to the low frequency of ground motion, and the acceleration response spectrum moves towards the long period with the increase of the seismic excitation intensity. Although the station and model site suffer from subsidence when subjected to small seismic vibration, the underground structure system appears to rise obviously under the action of strong seismic loading. In addition, the distribution of pore water pressure and its development process of the model foundation are roughly the same along the longitudinal structure. As a result, the effects on the dynamic pore water pressure are also analyzed.

     

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