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马少坤,邵 羽,黄艳珍. 基于孔隙比和渗透系数与深度相关的深基坑开挖变形分析[J]. 岩土工程学报, 2013, 35(zk2): 940-944.
引用本文: 马少坤,邵 羽,黄艳珍. 基于孔隙比和渗透系数与深度相关的深基坑开挖变形分析[J]. 岩土工程学报, 2013, 35(zk2): 940-944.
MA Shao-kun1, 2, 3, SHAO Yu2, 3, HUANG Yan-zhen2, 3. Deformation of deep foundation pits due to excavation considering change of void ratio and permeability coefficient with depth[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(zk2): 940-944.
Citation: MA Shao-kun1, 2, 3, SHAO Yu2, 3, HUANG Yan-zhen2, 3. Deformation of deep foundation pits due to excavation considering change of void ratio and permeability coefficient with depth[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(zk2): 940-944.

基于孔隙比和渗透系数与深度相关的深基坑开挖变形分析

Deformation of deep foundation pits due to excavation considering change of void ratio and permeability coefficient with depth

  • 摘要: 基于多孔介质渗流与应力耦合作用模型,采用ABAQUS中的用户子程序VOIDRI,以实现孔隙比随深度的非线形变化,并同时设置渗透系数随深度变化。对降水开挖流固耦合分析与不考虑降水的开挖分析作对比,可以得到:每个开挖步的地下连续墙的最大水平位移发生位置随基坑的开挖深度及支撑情况而不断变化;考虑流固耦合的坑外地表沉降大于不考虑流固耦合的地表沉降;降水能显著减小基坑回弹变形;降水流固耦合作用对地表土体的水平位移的影响较小。研究成果可对基坑施工过程中的地基和围护结构变形预测提供重要参考。

     

    Abstract: Based on the effect of fluid-solid coupling, the subroutine is complied by using the user subroutine named VOIDRI of ABAQUS to achieve the void ratio nonlinearly changing with depth. Meanwhile, the coefficient of permeability changing with depth is set. According to the comparative analysis considering or ignoring the effect of fluid-solid coupling, many useful conclusions are drawn. The position of the maximum horizontal displacement of wall at each excavation step changes with the excavation depth and different supporting situations. The ground settlement considering the effect of fluid-solid coupling is greater than that ignoring the effect of fluid-solid coupling. The rebound at the bottom can significantly decrease due to the effect of fluid-solid coupling. However, the horizontal displacement of surface is less affected by fluid-solid coupling. As a result, these conclusions can be used as an important reference for predicting the deformation of foundation and supporting structure during excavation of deep pits.

     

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