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    Quantifying the Risk of Construction in Landslide Prone Areas

    New search for: Mokwa, Robert
    New search for: Womack, Ray
    New search for: Cameron, Dave

    Cut and fill earthwork activity associated with construction of highways and buildings in steeply sloping terrain through landslide deposits is difficult and involves enhanced levels of risk. Quantifying the risk of failure using conventional deterministic slope stability analyses may not adequately address the inherent uncertainties that are often encountered in these areas, which typically include significant spatial variability of the subsurface geomaterials, and geologic anomalies that may be difficult to identify in traditional subsurface geotechnical investigations. A practical reliability-based approach is described and applied to a slope failure that occurred during construction of a roadway and development near the town of Big Sky, Montana.

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    Quantifying the Risk of Construction in Landslide Prone Areas

    New search for: Mokwa, Robert
    New search for: Womack, Ray
    New search for: Cameron, Dave

    Cut and fill earthwork activity associated with construction of highways and buildings in steeply sloping terrain through landslide deposits is difficult and involves enhanced levels of risk. Quantifying the risk of failure using conventional deterministic slope stability analyses may not adequately address the inherent uncertainties that are often encountered in these areas, which typically include significant spatial variability of the subsurface geomaterials, and geologic anomalies that may be difficult to identify in traditional subsurface geotechnical investigations. A practical reliability-based approach is described and applied to a slope failure that occurred during construction of a roadway and development near the town of Big Sky, Montana.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Quantifying the Risk of Construction in Landslide Prone Areas

    New search for: Mokwa, Robert
    New search for: Womack, Ray
    New search for: Cameron, Dave

    Cut and fill earthwork activity associated with construction of highways and buildings in steeply sloping terrain through landslide deposits is difficult and involves enhanced levels of risk. Quantifying the risk of failure using conventional deterministic slope stability analyses may not adequately address the inherent uncertainties that are often encountered in these areas, which typically include significant spatial variability of the subsurface geomaterials, and geologic anomalies that may be difficult to identify in traditional subsurface geotechnical investigations. A practical reliability-based approach is described and applied to a slope failure that occurred during construction of a roadway and development near the town of Big Sky, Montana.

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    Title:

    Quantifying the Risk of Construction in Landslide Prone Areas

    Contributors:

    Mokwa, Robert (author) / Womack, Ray (author) / Cameron, Dave (author)

    Conference:

    GeoTrans 2004 ; 2004 ; Los Angeles, California, United States

    Published in:

    Geotechnical Engineering for Transportation Projects ; 2010-2019

    Publication date:

    2004-07-21

    ISBN:

    9780784407448

    DOI:

    https://doi.org/10.1061/40744(154)196

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Retaining structures , Soil mixing , Geotechnical engineering , Slope stability , Transportation management , Risk management , Landslides , Embankments , Construction management

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