Geotechnical Engineering Anti-Leakage in Unstable Mountain

Hua Shu Yang; Xin Long Peng; Bi Chang Fu; Yu Lu Yang; Yi Wang; Xue Peng Wang; Ying Ju Pu

doi:10.4028/www.scientific.net/AMM.477-478.519

Paper Titles

Further Debate about Visual Design Methods for Pile Foundation
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Application of Axial Force Compensation for Steel Support System in Practical Project
p.503

Experimental Study on O-Cell Test of Long Rock Socket Bored Pile
p.509

Research on Stability Analysis of Soil Slope in Consideration of Creep Property
p.514

Geotechnical Engineering Anti-Leakage in Unstable Mountain
p.519

The Grouting Diffusion Model of Power-Law Fluid in Single Fracture
p.524

Hydro-Mechanical Coupled Analysis of the Variable Permeability Coefficient of Fractured Rock Mass
p.531

Analysis on Railway Ballast-Glue Micro-Characteristics
p.535

FBG Sensor Application for GFRP Soil Nailing Pull-Out Test
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 477-478Geotechnical Engineering Anti-Leakage in Unstable...

Geotechnical Engineering Anti-Leakage in Unstable Mountain

Abstract:

Effective unit weight, inner friction angle and cohesion are the main engineering indices of rock-soil mass anti-slide. Deviant leakage brings about obvious decrease of effective unit weight, inner friction angle and cohesion under combined action of thrust, buoyancy, and lubrication. So as to slip in unstable rock-soil mass. Deviant leakage schleps out weensy particles, induces seepage failure, so geotechnical engineering would collapse. Therefore the reasonable anti-leakage in unstable mountain is one of the key technologies that urgently to be solved in geotechnical engineering. Combined with the typical landslide geology, several groundwork anti-leakage were studied for earth-rock dam, correlative processes and technologies were discussed, and construction parameters were designed. The abnormal situations that may occur in construction were analysed, and preparative schemes were put forward. The results had been validated in practical engineering.

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Periodical:

Applied Mechanics and Materials (Volumes 477-478)

Pages:

519-523

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.477-478.519

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Online since:

December 2013

Authors:

Hua Shu Yang, Xin Long Peng, Bi Chang Fu*, Yu Lu Yang, Yi Wang, Xue Peng Wang, Ying Ju Pu

Keywords:

Anti-Leakage, Earth-Rock Dam, Geotechnical Engineering, Landslide

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