Archive/Features of Modeling the Mechanical Response of Crushed Salt-Based Backfill Material in Potash Mines
Features of Modeling the Mechanical Response of Crushed Salt-Based Backfill Material in Potash Mines
Alexander A. Selikhov, Maxim A. Karasev, Vladislav V. Petrushin et al.
8 juillet 2026
en

Abstract

The development of potash deposits under complex mining and geological conditions requires the implementation of efficient geotechnologies, including backfilling of mined-out voids. Preserving the water-protective strata and preventing mining-induced accidents are impossible without accurate prediction of the stress–strain state of the backfill mass. Traditional models, based on the Mohr–Coulomb criterion, are unable to properly describe physical and mechanical processes occurring in crushed salt rock, including the transition from dilatancy to compaction and nonlinear hardening. This requires the application of specialized models such as the SRP model. The aim of this study is to investigate the mechanical response of crushed salt rock backfill material under complex loading conditions and to calibrate the parameters of the SRP model in order to improve the accuracy of geomechanical calculations. The shape of the plastic flow surface in the deviatoric plane was established, including both shear and cap components. A nonlinear dependence of the friction angle on mean stress was identified and described by a logarithmic function. The law of plastic hardening was determined, and a non-associated plastic flow rule was confirmed in the shear domain. The calibrated SRP model allows for predicting the backfill mass behavior with high reliability, which is a necessary condition for substantiating the parameters of safe potash mining.

IPC Classification

C07B60

Keywords

featuresmodelingmechanicalresponsecrushedsalt-basedbackfillmaterialpotashminesdevelopmentdepositscomplexmininggeologicalconditionsrequiresimplementationefficientgeotechnologiesincludingbackfillingmined-outvoids
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