Assessing Stability of a Pit Slope using Observed Correlation between Surficial Damage and Strain Level during a Planar Failure Monitored by Radar

Assessing Stability of a Pit Slope using Observed Correlation between Surficial Damage and Strain Level during a Planar Failure Monitored by Radar

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Dr. Pramod Rajmeny

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Assessing Stability of a Pit Slope using Observed Correlation between Surficial Damage and Strain Level during a Planar Failure Monitored by Radar

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Graham Dick,Erik Eberhardt,Albert Cabrejo-Liévano,Doug Stead,Nick Rose (2015). Development of an early-warning time-of-failure analysis methodology for open-pit mine slopes utilizing ground-based slope stability radar monitoring data.
John Read,Peter Stacey (2009). Guidelines for Open Pit Slope Design.
Z Zavodni (2001). Time-dependent movements of open pit slopes.
(2001). Littleton.
Douglas Stead,John Coggan,Davide Elmo,Ming Yan (2007). Modelling Brittle Fracture in Rock Slopes - Experience Gained and Lessons Learned.
Timothy Sullivan (2007). Hydromechanical Coupling and Pit Slope Movements.
G Dick,E Eberhardt,D Stead,N Rose (2013). Early detection of impending slope failure in open mines using spatial and temporal analysis of real aperture radar measurements.
Z Zavodni,C Broadbent (1980). Slope failure kinematics.
D Varne (1982). Time-deformation relations in creep to failure of earth materials.
D Martin (1993). Time dependent deformation of rock slopes.
K Mercer (2006). Investigation into the time dependent deformation behavior and failure mechanisms of unsupported rock slopes based on the interpretation of observed deformation behavior.
D Stead,E Eberhardt (2013). Understanding the mechanics of Large landslides.
M Diederichs,P Kaiser (1999). Stability of large excavations in laminated hard rock masses: the voussoir analogue revisited.
Peter Kaiser,Bo Kim (2008). Rock Mechanics Challenges in Underground Construction and Mining.
Erik Eberhardt (2008). Twenty-ninth Canadian Geotechnical Colloquium: The role of advanced numerical methods and geotechnical field measurements in understanding complex deep-seated rock slope failure mechanisms.
D Brox,W Newcomen (2003). Utilizing strain criteria to predict high wall stability performance.
T Stacey (2006). Mechanism of slope failure during heavy rainfall in Nagasaki, July 1982.
W Newcomen,G Dick (2016). An update to the strain-based approach to pit wall failure prediction, and a justification for slope monitoring.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

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No ethics committee approval was required for this article type.

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How to Cite This Article

dr._pramod_rajmeny. 2021. \u201cAssessing Stability of a Pit Slope using Observed Correlation between Surficial Damage and Strain Level during a Planar Failure Monitored by Radar\u201d. Global Journal of Research in Engineering - A : Mechanical & Mechanics GJRE-A Volume 21 (GJRE Volume 21 Issue A1).

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GJRE Volume 21 Issue A1

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Journal Specifications

Crossref Journal DOI 10.17406/gjre

Print ISSN 0975-5861

e-ISSN 2249-4596

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GJRE-A Classification FOR Code: 091399p

Submission ReceivedApril 11, 2021
Peer Review Double Blind
Handling Editor
Accepted April 30, 2021
Published May 15, 2021

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May 30, 2021

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