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Preliminary communication

https://doi.org/10.17559/TV-20160517083309

Long-term stability calculation of reservoir bank slope considering water-rock interaction

Liang-Peng Wan ; School of Water Resources and Hydropower Engineering, Wuhan University, Bayi road No. 299, Wuchang district in Wuhan of Hubei, China
Mei-Ling Zhou ; China Three Gorges University, Daxue road No. 8, Xiling district in Yichang of Hubei, China
Subin Desar ; China Three Gorges University, Daxue road No. 8, Xiling district in Yichang of Hubei, China


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Abstract

Early warning and forecast have always been the key points for landslide research because the disaster caused by landslide leads to enormous life and property loss. This article applies the transformed degradation results of rock to rock mass to calculate the stability and failure mode changes of landslide over time, and to guide engineering through experiment based on hydro-fluctuation belt water-rock interaction of Three Gorges Reservoir area. The results showed that until the rock mass degrades to a certain extent, the sliding zone export gets rise, the slip plane moves to surface, the back edge crack surface gets down, and the sliding mass gradually narrows down. As the ability of hydro-fluctuation belt to resist upper rock mass load reduces, the hydro-fluctuation belt collapses at the first, and then causes the back edge crack resulting in huge amount of rock mass slip. The contribution of each parameter in different stratum to landslide stability is studied through sensitivity analysis. Based on this, the comprehensive strength parameter can be evaluated and calculated combined with continuous deterioration of hydro-fluctuation belt. The comprehensive strength parameter can reflect comprehensive disaster resist capacity of landslide. The research results provide a reference for actual project, and the research methods provide a new way for landslide early warning and forecast.

Keywords

comprehensive strength; deteriorating rule; failure mode; reservoir bank slope; stability analysis; water-rock interaction

Hrčak ID:

174736

URI

https://hrcak.srce.hr/174736

Publication date:

10.2.2017.

Article data in other languages: croatian

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