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李梦姿, 蔡国庆, 李昊, 杨贝贝, 赵成刚. 考虑抗拉强度剪断的非饱和土无限边坡稳定性分析[J]. 岩土工程学报, 2020, 42(4): 705-713. DOI: 10.11779/CJGE202004013
引用本文: 李梦姿, 蔡国庆, 李昊, 杨贝贝, 赵成刚. 考虑抗拉强度剪断的非饱和土无限边坡稳定性分析[J]. 岩土工程学报, 2020, 42(4): 705-713. DOI: 10.11779/CJGE202004013
LI Meng-zi, CAI Guo-qing, LI Hao, YANG Bei-bei, ZHAO Cheng-gang. Stability of infinite unsaturated soil slopes with tensile strength cut-off[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(4): 705-713. DOI: 10.11779/CJGE202004013
Citation: LI Meng-zi, CAI Guo-qing, LI Hao, YANG Bei-bei, ZHAO Cheng-gang. Stability of infinite unsaturated soil slopes with tensile strength cut-off[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(4): 705-713. DOI: 10.11779/CJGE202004013

考虑抗拉强度剪断的非饱和土无限边坡稳定性分析

Stability of infinite unsaturated soil slopes with tensile strength cut-off

  • 摘要: 基于Fredlund强度理论提出了抗拉强度包线部分截断的非饱和土非线性强度准则(C-F准则)。该准则允许土体破坏过程中产生剪切破碎。然后建立无限边坡在稳定渗流作用下,考虑抗拉强度部分剪断的无限边坡稳定性分析方法框架,给出非线性强度包线下安全系数的求解方法。该方法可以考虑抗拉强度部分剪断和渗流作用对边坡稳定性的影响规律。分析结果表明,C-F准则较Fredlund强度准则所得安全系数会有降低,对渗流高陡非饱和土边坡稳定性分析的影响会更加显著。

     

    Abstract: Based on the Fredlund strength theory, a nonlinear strength criterion for unsaturated soils is proposed. The tensile strength envelope of the Fredlund strength theory as a result of extrapolation of compressive tests into the tensile regime is partially truncated or eliminated in the new strength criterion. The new tensile strength cut-off criterion (C-F criterion) allows to construct the failure mechanisms including rupture mode and shear deformation mode. Then a generalized framework for the stability of infinite slopes under steady unsaturated seepage conditions is put forward using the C-F criterion, and a uniform expression for the safety factor under nonlinear strength criterion is given. The influences of tensile strength cut-off and seepage on slope stability can be considered. The results show that the stability factors for infinite slopes in unsaturated soils with tensile strength cut-off are reduced compared to those based on the Fredlund strength envelope, with the largest drop for steep slopes particularly subjected to heavy rainfall infiltration.

     

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