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古水水电站争岗特大型滑坡堆积体方量高达4 750×104 m3,存在多处厚度超过50 m的超深层滑坡。稳定性直接关系到大坝的建设与运营。工程地质勘测、2008年降雨产生的变形资料表明,该滑坡体是一个多期次复合型滑坡,主要由基岩、滑带土和松散堆积物组成,地表已出现大量拉张和剪切裂缝,天然工况下整体处于沿贯通底滑面发生蠕滑变形的状态,各种工况下均存在滑塌的可能性,必须进行开挖加固治理。针对二维平面方法无法考虑计算断面的侧向约束和底滑面在空间上的曲率效应,运用三维极限平衡方法和大变形拉格朗日有限差分法,根据实际地质信息建立了多个三维计算模型,通过对治理前后滑坡体应力、变形、塑性区和安全系数变化对比分析,定性、定量对其稳定性进行了评价,并引入有限元点和面安全系数法对加固后稳定性进行了校核。结果真实反映了滑坡体的稳定性现状与规律,与现场勘查成果相吻合。开挖加固后,滑坡体局部和整体稳定性均有显著提高,结合排水措施,将更有利于保持其稳定性。研究成果可为类似工程问题提供有意义的参考。
The volume of large-scale landslide accumulated in Gushui hydropower station is 4 750 × 104 m3, and there are many ultra-deep landslides with thickness over 50 m. Stability is directly related to dam construction and operation. Engineering geological survey and deformation data from rainfall in 2008 show that the landslide body is a multi-stage complex type landslide mainly composed of bedrock, slip-soil and loose sediments. A large amount of tension and shear cracks have appeared on the ground surface, Under natural conditions, the whole structure is in a state of creeping deformation along the through bottom slip surface. Under all conditions, there is the possibility of slipping and must be treated by excavation and reinforcement. The two-dimensional plane method can not consider the lateral constraint of the section and the curvature effect of the bottom sliding surface in space. By using the three-dimensional limit equilibrium method and the large deformation Lagrange finite difference method, a number of three-dimensional calculations are established based on the actual geological information Model, the stability of the landslide body is evaluated qualitatively and quantitatively by comparing and analyzing the changes of stress, deformation, plasticity zone and safety factor of the landslide body before and after treatment, and the stability of the reinforcement is introduced by introducing the finite element point and surface safety factor method nuclear. The results truly reflect the status quo and laws of the stability of the landslide, which is consistent with the results of the site survey. After excavation and reinforcement, the local and overall stability of the landslide has been significantly improved, combined with drainage measures, will be more conducive to maintaining its stability. The research results can provide meaningful reference for similar engineering problems.