含水饱和度对边坡稳定性的影响:以马林为例

IF 0.8 Q4 ENGINEERING, CIVIL Advances in Civil and Architectural Engineering Pub Date : 2023-06-29 DOI:10.13167/2023.26.9
Prashant Sudani, K. Patil
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引用次数: 1

摘要

该研究对印度马哈拉施特拉邦浦那地区Malin村发生的灾难性滑坡进行了细致的调查。在研究中,通过采用包括现场、实验室和数值分析在内的多方面方法,对不同含水饱和度水平下的稳定性控制参数进行了全面评估。实地调查提供了对地理剖面、田间密度、斜坡地层和从山坡上获得的代表性土壤样本的重要见解。此外,进行了广泛的实验室调查,以全面了解不同含水饱和度下稳定性控制参数的作用。采用极限平衡法进行数值模拟,严格评价边坡稳定性。结果表明,含水饱和度增大对边坡稳定性控制参数有显著影响,导致边坡失稳,数值模拟结果证实了这一点。研究进一步确定了过量降雨引发滑坡,使土体饱和,稳定性控制参数恶化,最终导致失稳。这项研究的结果为减轻山体滑坡提供了宝贵的见解,并有助于开发有效的监测和预警系统。
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EFFECT OF WATER SATURATION ON STABILITY OF A HILL SLOPE: MALIN CASE STUDY
The study presents a meticulous investigation into the catastrophic landslide that impacted Malin village in Pune district of Maharashtra, India. By employing a multi-faceted approach encompassing field, laboratory, and numerical analyses, in the study, stability governing parameters were thoroughly assessed with respect to varying levels of water saturation. Field investigation provided crucial insights into the geographical profile, field density, slope strata, and representative soil sample acquired from hill slopes. Furthermore, extensive laboratory investigations were conducted to gain a comprehensive understanding of the role of stability governing parameters under different water saturation levels. The limit equilibrium method was employed for numerical simulation to rigorously evaluate slope stability. The results revealed the significant influence of increased water saturation on stability governing parameters, leading to slope instability, which was confirmed by numerical simulation. The study further established that excessive rainfall triggered the landslide, saturating the soil mass and deteriorating the stability governing parameters, ultimately leading to instability. The findings of this study offer valuable insights for mitigating landslides and can be instrumental in developing effective monitoring and warning systems.
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