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刘成, 孙钧, 杨平, 王海波. 泥膜形成与状态划分细观分析及模型试验研究[J]. 岩土工程学报, 2014, 36(3): 435-442. DOI: 10.11779/CJGE201403005
引用本文: 刘成, 孙钧, 杨平, 王海波. 泥膜形成与状态划分细观分析及模型试验研究[J]. 岩土工程学报, 2014, 36(3): 435-442. DOI: 10.11779/CJGE201403005
LIU Cheng, SUN Jun, YANG Ping, WANG Hai-bo. Mesoscopic analysis and model test on formation process and state division of slurry membrane[J]. Chinese Journal of Geotechnical Engineering, 2014, 36(3): 435-442. DOI: 10.11779/CJGE201403005
Citation: LIU Cheng, SUN Jun, YANG Ping, WANG Hai-bo. Mesoscopic analysis and model test on formation process and state division of slurry membrane[J]. Chinese Journal of Geotechnical Engineering, 2014, 36(3): 435-442. DOI: 10.11779/CJGE201403005

泥膜形成与状态划分细观分析及模型试验研究

Mesoscopic analysis and model test on formation process and state division of slurry membrane

  • 摘要: 泥水盾构施工中泥浆在高压作用下侵入土层形成不同状态的泥膜,泥膜的形成机理复杂,但其状态划分依据相对简单。基于离散元程序YADE编制了流体与颗粒相互作用及粒间长程引力作用模型,从粒径比、粒间范德华力、流体初始流速以及泥浆颗粒密度几个方面分析了泥浆侵入土层初始恒速阶段的堆积状态,确定土层最紧密堆积对应的泥膜状态理论下限值。采用静置后的泥浆侵入土层模型试验分析了两组土层粒径的泥膜状态,表明粒径比对泥膜状态的影响与离散元分析结果、泥膜状态划分理论相吻合。初步建立了泥膜形成过程的宏细观联系,弥补了传统过滤理论和离散元法未考虑颗粒侵入土层动态形成泥膜的不足。

     

    Abstract: In the slurry shield construction, slurry membrane forms when slurry invades stratum under high pressure. The mechanism of slurry membrane formation is complicated, but the criteria for the state division are relatively easy. A model of fluid-particle interaction and intergranular long-range attractive force is developed based on the discrete element program YADE to analyze the packing state of slurry particles during the initial constant rate period from the viewpoint of partical diameter ratio, Van der Waals force, initial fluid velocity and slurry particle density, to determine the lower limit value of slurry membrane state corresponding to the closest packing of soil particles. The slurry membrane state with two diameters of soil particles is also analyzed by conducting the model test using the slurry after standing. The result of model test shows that the influence of partical diameter ratio on slurry membrane state is consistent with the DEM simulation and the theory of state division of slurry membrane. The macro-meso relation is established for slurry membrane formation process. This study remedies the defects of the conventional filtration theory and DEM simulation which do not consider slurry invading stratum and slurry membrane forming dynamically.

     

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