Sensitivity Analysis of Influence Factors at Open-Pit Coal Mine High Slope Based on Uniform Experimental

Fei Zhang; Jing Cao; Hui Min Zhao

doi:10.4028/www.scientific.net/AMR.671-674.284

Paper Titles

Research on Suitable Anti-Sliding Piles Spacing Considering of Soil Arch Effect in Colluvial Landslide
p.262

Research on the Failure Mechanism of Bedding High Rock Slope at an Open-Pit Mine
p.266

Research on the Softening and Disintegration Mechanism of Carbonaceous Shale
p.274

Research Status and Prospect of Rock Mass Acoustic Emission Instrument
p.280

Sensitivity Analysis of Influence Factors at Open-Pit Coal Mine High Slope Based on Uniform Experimental
p.284

Sensitivity Analysis on Influencing Factors of Double-Row Piles for Excavation
p.290

Study on Deformation of Steel Cylinder during Artificial Island Construction
p.296

Study on Law of Structural Evolution and Sedimentary Evolution for North Uskyurt Basin
p.302

The Analysis for the Dynamic Strength and Vibration Liquefaction of Saturated Sand under Cyclic Loading
p.306

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Sensitivity Analysis of Influence Factors at Open-Pit Coal Mine High Slope Based on Uniform Experimental

Abstract:

The number of test times and test effectiveness are dependent on the test approaches in sensitivity analysis of the slope stability. In the paper, considering the mechanical parameters and groundwater of rock and soil, the sensitivity analysis of the slope is researched by the uniform experimental design. Its results are analyzed through grey correlation analysis. It is shown that the change of groundwater level in the open-pit slope is the most sensitive in the open-pit slope.

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Periodical:

Advanced Materials Research (Volumes 671-674)

Pages:

284-289

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.671-674.284

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Online since:

March 2013

Authors:

Fei Zhang, Jing Cao, Hui Min Zhao

Keywords:

Grey Relational Analysis (GRA), Sensitivity Analysis, Slope Stability, Uniform Design

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