STABILITY EVALUATION AND REINFORCEMENT OF UNLOADING FISSURES IN RIGHT BANK OF DAGANGSHAN HYDROPOWER STATION
LI Manlin1,2,WEI Wei1,2,ZHANG Ronggui1,2
(1. PowerChina Chengdu Engineering Corporation Limited,Chengdu,Sichuan 610072,China;2. High Concrete Dam Affiliation,National Hydropower Technology Research and Development Center,Chengdu,Sichuan 610072,China)
Abstract:The topographical and geological condition of dam area of Dagangshan hydropower station is complex and the bank slope is steep. The well developed geological structures,unloading fissures,high earthquake intensity and complicated slope structures lead to the problem of stability of the high slope at the right bank. The potential sliding mode of the slope was studied in detail considering the site conditions of geology and construction. A synthetic scheme of reinforcing treatment was thus proposed and used for the belt with dense unloading fissures at the right bank slope. The stability analysis of slope was carried out with different numerical methods. The results indicate that the safety factor of the slope after the reinforcement meets the requirement of the control standard. At the same time,the data of in-situ monitoring indicate that the slope is stable and the scheme of reinforcing treatment is reasonable and effective.
黎满林1,2,卫 蔚1,2,张荣贵1,2. 大岗山右岸边坡卸荷裂隙密集带加固及稳定性评价研究[J]. 岩石力学与工程学报, 2014, 33(11): 2276-2282.
LI Manlin1,2,WEI Wei1,2,ZHANG Ronggui1,2. STABILITY EVALUATION AND REINFORCEMENT OF UNLOADING FISSURES IN RIGHT BANK OF DAGANGSHAN HYDROPOWER STATION. , 2014, 33(11): 2276-2282.
杨 强,薛利军,王仁坤,等. 岩体变形加固理论及非平衡态弹塑性力学[J]. 岩石力学与工程学报,2005,24(20):3 704-3 712. (YANG Qiang,XUE Lijun,WANG Renkun,et al. Reinforcement theory considering deformation mechanism of rock mass and non- equilibrium elasto-plastic mechanics[J]. Chinese Journal of Rock Mechanics and Engineering,2005,24(20):3 704-3 712.(in Chinese))
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