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代倩, 廖红建, 康孝森, 董琪. 动荷载下填方体压实黄土动应变与动孔压变化规律研究[J]. 岩土工程学报, 2021, 43(S1): 235-240. DOI: 10.11779/CJGE2021S1043
引用本文: 代倩, 廖红建, 康孝森, 董琪. 动荷载下填方体压实黄土动应变与动孔压变化规律研究[J]. 岩土工程学报, 2021, 43(S1): 235-240. DOI: 10.11779/CJGE2021S1043
DAI Qian, LIAO Hong-jian, KANG Xiao-sen, DONG Qi. Behaviors of dynamic strain and pore pressure of compacted loess in loess-filled foundation induced by dynamic loading[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(S1): 235-240. DOI: 10.11779/CJGE2021S1043
Citation: DAI Qian, LIAO Hong-jian, KANG Xiao-sen, DONG Qi. Behaviors of dynamic strain and pore pressure of compacted loess in loess-filled foundation induced by dynamic loading[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(S1): 235-240. DOI: 10.11779/CJGE2021S1043

动荷载下填方体压实黄土动应变与动孔压变化规律研究

Behaviors of dynamic strain and pore pressure of compacted loess in loess-filled foundation induced by dynamic loading

  • 摘要: 某黄土填方体不同深度含水率差异明显,部分层位体积含水率达到50%,高含水率影响该填方体在长期动荷载作用下的变形与应力状态,需开展动荷载下填方体压实黄土动应变与动孔压变化研究。制备接近填方体实际干密实度的三轴试样,开展不同围压与不同循环应力比条件下饱和压实黄土动三轴试验,研究循环应力比与循环次数对饱和压实黄土塑性应变累积、应变变化率、应变幅值、孔压累积、孔压变化率与孔压幅值的影响规律,进一步基于边界面塑性理论揭示循环应力比和围压的这一影响机制。研究结果有利于黄土填方体动力分析,对该高填方体长期变形评估具有重要参考意义。

     

    Abstract: The water content of different layers is various in a typical high loess-filled foundation.The water content of some layers even comes to 50%, which may greatly affect the strain and stress state of the high loess-filled foundation under dynamic loading.Thus, it's necessary to study the dynamic strain and pore pressure of the compacted loess in the high loess-filled foundation.The compacted loess samples are made according to the actual dry density of the filled-loess foundation, then series of dynamic triaxial tests are conducted on the compacted loess samples subjected to different confining pressures and cyclic stress ratios.Based on the test results, the influences of cyclic stress ratio and cyclic number on deviatoric strain, deviatoric strain rate, deviatoric strain amplitude, pore pressure, pore pressure rate, and pore pressure amplitude are analyzed.The influences are further explored in the framework of the bounding surface plasticity theory.The conclusions are meaningful in analyzing the high filled-loess foundation under dynamic loading and in evaluating the deformation of the loess-filled foundation.

     

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