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刘溢, 李镜培, 陈伟. 被动区深层搅拌桩加固对超大深基坑变形的影响[J]. 岩土工程学报, 2012, 34(suppl): 465-469.
引用本文: 刘溢, 李镜培, 陈伟. 被动区深层搅拌桩加固对超大深基坑变形的影响[J]. 岩土工程学报, 2012, 34(suppl): 465-469.
LIU Yi, LI Jing-pei, CHEN Wei. Effect of reinforcement of deep mixing piles on deformation of ultra-deep excavations in passive zone[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 465-469.
Citation: LIU Yi, LI Jing-pei, CHEN Wei. Effect of reinforcement of deep mixing piles on deformation of ultra-deep excavations in passive zone[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 465-469.

被动区深层搅拌桩加固对超大深基坑变形的影响

Effect of reinforcement of deep mixing piles on deformation of ultra-deep excavations in passive zone

  • 摘要: 选取不同加固土体参数,采用土体卸载条件下的HS(hardening-soil)有限元模型,分析了被动区加固对超大深基坑变形的影响。结果表明:深搅加固对墙体侧向位移的影响随深度增加而增大,可以最终减小墙体侧向位移达27%左右;在临近墙体局部范围内抑制坑底隆起效果显著,抑制隆起量最多超过50%;对墙背土体沉降抑制显著,局部降低60%左右。因此,根据不同地质条件和基坑变形控制要求,选择合理的加固形式使加固土体达到设计强度,既能保证基坑安全和环境影响的要求,又能节省造价。

     

    Abstract: By selecting different parameters of reinforced soil and adopting hardening-soil finite element model based on unloading, the influence of bottom soil on deformation of excavations is studied. The results show that the reinforcing influence on lateral deformation increases with the increase of the excavation depth, and the final lateral deformation can be reduced by 27%. This effect is prominent for controlling the uplift in bottom soil around retaining structures, and the utmost inhibition of uplift may exceed 50%. The influence of reinforcement on soil settlement behind the retaining structures is conspicuous, about 60% in local zone. Therefore, selecting a rational reinforcing form based on different geological conditions and deformation requirements is needed to make the reinforced soil intensity reach the design demand, which can guarantee the excavation safety and environment impact and save the engineering cost.

     

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