贾科敏, 许成顺, 杜修力, 张小玲, 崔春义. 液化侧向扩展场地-群桩基础-结构体系地震破坏反应大型振动台试验方案设计[J]. 工程力学, 2023, 40(7): 121-136. DOI: 10.6052/j.issn.1000-4750.2021.11.0922
引用本文: 贾科敏, 许成顺, 杜修力, 张小玲, 崔春义. 液化侧向扩展场地-群桩基础-结构体系地震破坏反应大型振动台试验方案设计[J]. 工程力学, 2023, 40(7): 121-136. DOI: 10.6052/j.issn.1000-4750.2021.11.0922
JIA Ke-min, XU Cheng-shun, DU Xiu-li, ZHANG Xiao-ling, CUI Chun-yi. EXPERIMENTAL DESIGN OF SHAKING TABLE TESTS FOR SEISMIC FAILURE RESPONSE OF PILE-GROUP-SUPERSTRUCTURE SUBJECTED TO LIQUEFACTION-INDUCED LATERAL SPREADING[J]. Engineering Mechanics, 2023, 40(7): 121-136. DOI: 10.6052/j.issn.1000-4750.2021.11.0922
Citation: JIA Ke-min, XU Cheng-shun, DU Xiu-li, ZHANG Xiao-ling, CUI Chun-yi. EXPERIMENTAL DESIGN OF SHAKING TABLE TESTS FOR SEISMIC FAILURE RESPONSE OF PILE-GROUP-SUPERSTRUCTURE SUBJECTED TO LIQUEFACTION-INDUCED LATERAL SPREADING[J]. Engineering Mechanics, 2023, 40(7): 121-136. DOI: 10.6052/j.issn.1000-4750.2021.11.0922

液化侧向扩展场地-群桩基础-结构体系地震破坏反应大型振动台试验方案设计

EXPERIMENTAL DESIGN OF SHAKING TABLE TESTS FOR SEISMIC FAILURE RESPONSE OF PILE-GROUP-SUPERSTRUCTURE SUBJECTED TO LIQUEFACTION-INDUCED LATERAL SPREADING

  • 摘要: 为系统研究液化侧向扩展场地钢筋混凝土群桩基础-上部桥梁结构的地震破坏机理,依托中国建筑科学研究院抗震实验室地震模拟振动台系统,开展了液化侧向扩展场地-桩基础-结构体系大型振动台系列试验。根据试验的研究目标,首先对系列试验的总体设计进行介绍,详细阐述了场地的制备与结构的设计和制作、各类传感器的布设及新型传感器的应用、地震动选取与工况安排等内容。利用试验数据对层状剪切箱的边界效应做简要分析,对阵列式位移计(SAA)直接测试液化土体侧向位移的结果进行评估。结果表明:模型箱边界效应不显著,SAA可有效测量可液化土体的侧向位移,为系列试验的对比分析奠定了基础。试验最终实现了液化诱导侧向大变形与桩基塑性破坏的宏观效果,达到预期目标,说明该次系列试验方法及其方案是合理的。该文试验技术与方案为今后同行开展类似试验提供一套系统、完备的方法。

     

    Abstract: To study the failure mechanism of pile-group-superstructures subjected to liquefaction-induced lateral spreading, large-scale shaking table tests were conducted employing the large-scale geotechnical shake table facility at the State Key Laboratory of Building Safety and Environment, China Academy of Building Research. For this purpose, the overall design of a series of experiments is introduced. The sample preparation and structure design, the layout of various sensors, the application of new sensors, the selection of ground motions and the input sequence arrangement are described in detail. Based on the experimental data, the boundary effect of the laminar shear box is analyzed. The lateral soil displacements directly measured by the shape acceleration array (SAA) are evaluated. The results show that the boundary effect of the laminar shear box is insignificant, and SAA can effectively measure lateral soil displacements. These provide support for the comparative analysis of the series of experiments. Finally, the macroscopic phenomena of large lateral deformation of soil and plastic failure of pile foundation are achieved and the expected goal is realized, which indicates that the series of experimental design are reasonable. The experimental designs provide a systematic and complete method for similar experiments in the future.

     

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