Study on Deformation and Stability of High Slope with Weak Intercalated Layers

Long Jiang; Jian Hui Sun; Wan Shun Wang

doi:10.4028/www.scientific.net/AMM.204-208.3142

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 204-208Study on Deformation and Stability of High Slope...

Study on Deformation and Stability of High Slope with Weak Intercalated Layers

Abstract:

The paper analyzed external deformation, deep deformation and stability of slope with weak intercalated layers in detail through field monitoring of Mayanpo slope at Xiangjiaba Hydropower Station. The results show that: ① Displacement deformation increases with time and decreases with increasing depth, and displacement rate decreases with time. ② Dislocation position exists in weak intercalated layers. Dislocation rate first increases and then decreases until basically stable, and local fluctuations are mainly affected by rainfall and dynamic equilibrium adjustment of the slope internal deformation. ③ Through stability analysis of Mayanpo slope by strength reduction FEM, stability coefficient is 1.72.

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Periodical:

Applied Mechanics and Materials (Volumes 204-208)

Pages:

3142-3145

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.204-208.3142

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Online since:

October 2012

Authors:

Long Jiang, Jian Hui Sun, Wan Shun Wang

Keywords:

Deformation, High Engineering Slope, Stability, Weak Intercalated Layer

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References

[1] Zuyu Chen, Xiaogang Wang, Jian Yang, et al. Stability Analysis of Rock Slope - Principle, Method, Procedure [M]. Beijing: China WaterPower Press, 2005. (In Chinese)

Google Scholar

[2] Zuyu Chen, Xiaogang Wang. High Slope Engineering in Hydropower Construction [J]. WATER POWER, 1999. (In Chinese)

Google Scholar

[3] Zhenying Lian, Guocheng Han, Xianjing Kong. Study on Stability of Excavated Slopes by Strength Reduction FEM [J]. Chinese Journal of Geotechnical Engineering, 2001, 23 (4). (In Chinese)

Google Scholar

[4] Luyu Zhang, Yingren Zheng, Shangyi Zhao. The Feasibility Study of Strength-reduction Method with FEM for Calculating Safety Factors of Soil Slope Stability [J]. Journal of Hydraulic Engineering, 2003, (1). (In Chinese)

Google Scholar

[5] Yingren Zheng, Shangyi Zhao, Luyu Zhang. Slope Stability Analysis by Strength Reduction FEM [J]. Engineering Sciences, 2002, 4(10). (In Chinese)

Google Scholar