Numerical Modeling Study of the Influence of Softcover on Strata and Support Behavior in a Bord and Pillar Depillaring Working

This research focuses on the strata control issues in a Bord and Pillar depillaring working under the influence of dead load condition of voluminous and fragmented softcover of overburden dump material. It reports the modeling of a mine working through the FLAC 2D software under the Indian geo-minin...

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Veröffentlicht in:	Mining, metallurgy & exploration metallurgy & exploration, 2020-08, Vol.37 (4), p.1151-1168
Hauptverfasser:	Sahoo, S. K., Singh, G. S. P., Sharma, S. K., Singh, U. K.
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Schlagworte:	Engineering Materials Engineering Metallic Materials Metallurgy & Metallurgical Engineering Mineral Resources Mining & Mineral Processing Physical Sciences Science & Technology Technology
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creator	Sahoo, S. K. Singh, G. S. P. Sharma, S. K. Singh, U. K.
description	This research focuses on the strata control issues in a Bord and Pillar depillaring working under the influence of dead load condition of voluminous and fragmented softcover of overburden dump material. It reports the modeling of a mine working through the FLAC 2D software under the Indian geo-mining conditions. The modeling results of an actual mine working under softcover were compared with that under the intact overburden condition to assess the influence of the soft overburden over the depillaring working. The modeling work involved progressive caving of the strata and the cyclic goaf filling following the model-simulated occurrence of main fall and periodic caving. Mohr-Coulomb Failure criteria along with a simplified strain-softening (MCSS) model was used to study the failure and caving mechanism. Salamon’s compaction model was used to simulate compaction and resultant stress recovery in the goaf material. Comparison of the model findings was done in terms of load on supports, abutment stress, and convergence, apart from the stress redistribution and failure mechanism. The load transfer mechanism of the soft overburden was also studied for an overall understanding of the strata behavior in such workings.
doi_str_mv	10.1007/s42461-020-00246-1
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The modeling results of an actual mine working under softcover were compared with that under the intact overburden condition to assess the influence of the soft overburden over the depillaring working. The modeling work involved progressive caving of the strata and the cyclic goaf filling following the model-simulated occurrence of main fall and periodic caving. Mohr-Coulomb Failure criteria along with a simplified strain-softening (MCSS) model was used to study the failure and caving mechanism. Salamon’s compaction model was used to simulate compaction and resultant stress recovery in the goaf material. Comparison of the model findings was done in terms of load on supports, abutment stress, and convergence, apart from the stress redistribution and failure mechanism. 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subjects	Engineering Materials Engineering Metallic Materials Metallurgy & Metallurgical Engineering Mineral Resources Mining & Mineral Processing Physical Sciences Science & Technology Technology
title	Numerical Modeling Study of the Influence of Softcover on Strata and Support Behavior in a Bord and Pillar Depillaring Working
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