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张梓鸿, 闫冠宇, 许成顺, 杜贺港. 基于可液化场地离心机振动台试验的地下结构地震响应研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20231101
引用本文: 张梓鸿, 闫冠宇, 许成顺, 杜贺港. 基于可液化场地离心机振动台试验的地下结构地震响应研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20231101
Seismic Response of Underground Structure Based on Centrifuge Shaking Table Test in Liquefiable Site[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20231101
Citation: Seismic Response of Underground Structure Based on Centrifuge Shaking Table Test in Liquefiable Site[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20231101

基于可液化场地离心机振动台试验的地下结构地震响应研究

Seismic Response of Underground Structure Based on Centrifuge Shaking Table Test in Liquefiable Site

  • 摘要: 为研究场地液化对地下结构地震响应的影响,开展了可液化场地条件下的离心机振动台试验,得到液化场地地下结构地震响应规律,并通过Pushover分析方法确定场地不同液化程度下土体刚度的衰减程度。研究结论如下:在四种加载工况下,模型结构的侧墙及顶板总应变峰值响应完全处于弹性范围内,中柱应变在大震作用下略超过混凝土的弹性应变限值,损伤程度较低,模型结构表现出良好的抗震性能;四种加载工况下,可液化场地中结构层间位移较结构等高处场地层间位移衰减了63%-76%;由场地水平位移和土-结构体系位移衰减比来看,尽管饱和砂土层液化后会出现较大的水平位移,但场地液化后土-结构刚度比降低仍会避免结构出现较大的层间位移和严重破坏;在实际工程应用Pushover分析方法对液化场地地下结构进行简化分析时,可考虑最不利工况,将土体模量折减为初始模量的3%进行计算。

     

    Abstract: In order to study the effect of site liquefaction on the seismic response of underground structure, centrifuge shaking table test under liquefiable site condition was carried out. The seismic response law of underground structure in liquefiable site is obtained. And the attenuation degree of soil stiffness under different liquefaction degrees of the site is obtained by Pushover analysis method. The conclusions of the study are as follows. The peak total strain response of the sidewalls and plates of the model structure was well within the elastic range under the four loading conditions. The center column strains just exceeded the elastic strain limit for concrete under large earthquakes, with a low level of damage. This indicates that underground structure conforming to existing codes exhibits good seismic performance. The inter-story drifts of the structure in the liquefiable site are attenuated by 63%-76% compared with the site at the structural equivalent height for the four loading conditions. From the horizontal displacement of the site and the displacement attenuation ratio of the soil-structure system, although the liquefaction of the saturated sandy soil layer will lead to a larger horizontal displacement of the site, the reduction of the soil-structure stiffness ratio caused by the liquefaction of the site will still avoid the structure from experiencing a larger inter-story drift and serious damage. When applying the Pushover analysis method to simplify the analysis of underground structures in liquefiable sites, the most unfavorable conditions can be considered, and the soil modulus can be discounted to 3% of the initial modulus for calculation.

     

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