Abstract

DOROUDGAR, A.  and  NOFERESTI, H.. Identifying the prone zones to initiation of unstable failure by numerical simulation of mining pillars under compression. J. S. Afr. Inst. Min. Metall. [online]. 2024, vol.124, n.11, pp.661-672. ISSN 2411-9717.  https://doi.org/10.17159/2411-9717/2265/2024.

Unstable rock failure or rock bursting is one of the most dangerous problems in deep hard rock mines. This type of failure, that occurs uncontrollably, is associated with a significant release of strain energy from the surrounding rock. In this study, the numerical simulation of unstable rock failure was carried out using the three-dimensional explicit Lagranian finite-volume finite difference method to identify the onset and location of unstable failure events in the model. On this basis, a numerical simulation of mine pillars with width-to-height ratios of 0.5, 2 and 3 was performed. A criterion was developed, based on the calculation of the elastic strain energy, to determine the prone areas for the initiation of rockburst in the models. The results of this study showed that, in softer loading systems, due to large amounts of stored elastic strain energy, an unstable equilibrium is established, which leads to the rapid transfer of strain energy to the rock in the form of violent failure. It was also found that the unstable failure starts at the corners and free surface of the model. The new criterion developed in this study may help predict the occurrence of rockbursts in slender pillars and the design of pillars to control human and financial losses caused by this phenomenon.

Keywords : mining pillars; rockburst; elastic strain energy; finite difference method.

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