Deterministic and probabilistic stability analysis of a mining rock slope in the vicinity of a major public road — case study of the LAB Chrysotile mine in Canada

Amoushahi, Sina; Grenon, Martin; Locat, Jacques; Turmel, Dominique

doi:10.1139/cgj-2017-0298

Cited by 8 publications

(3 citation statements)

References 16 publications

(25 reference statements)

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“…In engineering risk assessment, the plot showing the frequency of occurrence versus the magnitude of consequence becomes a plot of annual probability of up to N fatalities (F) versus the number of fatalities (N). Some examples of actual F-N data for different engineering infrastructures are shown in Figure 13, after [16]. Superimposed on Figure 13 are the ALARP limits recommended by the Canadian Dam Association [17], shaded in red for additional risk, orange for tolerable risk, and green for broadly acceptable risk.…”

Section: As Low As Reasonably Practicablementioning

confidence: 99%

Lessons from Tailings Dam Failures—Where to Go from Here?

Williams

2021

Minerals

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Different regions worldwide have adopted various approaches to tailings management, as a result of the site settings and local practices as they have evolved. Tailings dam failures have continued to occur in both developing and developed countries, necessitating a range of tailings management approaches. These failures, while rare, continue to occur at a frequency that exceeds both industry and society expectations, and there is much to be learned from well-documented cases. Tailings management continues to be overly reliant on a net present value approach using a high discount factor, rather than a whole-of-life approach that may result in safer and more stable tailings facilities and may also facilitate the eventual mine closure. There is a need for the further development and implementation of new tailings management technologies and innovations, and for the application of whole-of-life costing of tailings facilities. Changes in tailings management will most readily be achieved at new mining projects, making change across the minerals industry a generational process.

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Section: As Low As Reasonably Practicablementioning

confidence: 99%

Lessons from Tailings Dam Failures—Where to Go from Here?

Williams

2021

Minerals

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“…A large number of engineering examples and data show that among rocky slopes, slopes containing weak interlayer of undesirable geology are more prone to damage because the mechanical properties of weak interlayer are poor, and when encountering external factors such as water, wind and vibration, it is very easy to show the nature of unfavorable slope stability [5][6]. With the increasing frequency of human engineering activities, several landslide disasters have occurred on slopes containing weak strata worldwide, causing large losses to people's lives and property safety [7][8]. Researching slope stability analysis of slopes containing soft and weak interlayers has become a key technical problem in the geotechnical engineering community and has important theoretical and practical significance for preventing landslide disasters [9][10].…”

Section: Introductionmentioning

confidence: 99%

“…With the increasing frequency of human engineering activities, several landslide disasters have occurred on slopes containing weak strata worldwide, causing large losses to people's lives and property safety [7][8]. Researching slope stability analysis of slopes containing soft and weak interlayers has become a key technical problem in the geotechnical engineering community and has important theoretical and practical significance for preventing landslide disasters [9][10].…”

Section: Introductionmentioning

confidence: 99%

Prediction analysis of slope stability due to soft and weak interlayers based on partial least squares method

Cui

2023

Applied Mathematics and Nonlinear Sciences

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In this paper, based on sampling and analysis of a large number of soft and weak sandwich slope data, several factors that have a great influence on slope stability are established, and a predictive analysis model describing the stability of soft and weak sandwich slopes is established by using the now more advanced partial least squares method. Then, for the traditional partial least squares method that is not suitable for the non-linear stability coefficient of the weak sandwich to slope stability prediction, the recursive partial least squares method with forgetting factor is proposed for the weak sandwich to slope stability prediction analysis to solve the problem of stability prediction lag. Finally, based on elastic mechanics, elastic fracture mechanics and unsaturated soil mechanics, the structure of soft and weak interlayers on slopes and their stability strength are studied, and the performance of MATLAB-based partial least squares method for slope stability prediction analysis is verified by designing orthogonal experiments. The results show that the predicted values do not differ much from the results of finite element calculation, the absolute errors are all less than 0.15, and there are 5 absolute non-differences less than 0.1, accounting for 62.5% of the total number of predicted groups. The relative errors were less than 6%. This study shows that the partial least squares method can deal with the nonlinear mapping relationship between slope stability and influencing factors well and can make more accurate and objective prediction results on the stability of slopes.

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Tolerance and Acceptability

Oboni¹,

Oboni²

2021

Convergent Leadership-Divergent Exposures

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Deterministic and probabilistic stability analysis of a mining rock slope in the vicinity of a major public road — case study of the LAB Chrysotile mine in Canada

Cited by 8 publications

References 16 publications

Lessons from Tailings Dam Failures—Where to Go from Here?

Lessons from Tailings Dam Failures—Where to Go from Here?

Prediction analysis of slope stability due to soft and weak interlayers based on partial least squares method

Tolerance and Acceptability

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