Monitoring the Ore Massif State in Deep Rock Shock Mines

International Journal of Geoinformatics and Geological Science
© 2019 by SSRG - IJGGS Journal
Volume 6 Issue 2
Year of Publication : 2019
Authors : Olga Hachay , Andrey Khachay , Oleg Khachay
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Olga Hachay , Andrey Khachay , Oleg Khachay, "Monitoring the Ore Massif State in Deep Rock Shock Mines," SSRG International Journal of Geoinformatics and Geological Science, vol. 6,  no. 2, pp. 6-13, 2019. Crossref, https://doi.org/10.14445/23939206/IJGGS-V6I2P102

Abstract:

The process of mining a rock-shock array can be managed by following the recommendations of the theory of catastrophes. For this process, as the control parameters are the energy values during explosions and the location of these explosions relative to the array area being worked on. Kinematic and dynamic parameters of deformational waves and structural features of the array through which these waves pass, act as internal parameters. Combined use of qualitative recommendations of the theory of catastrophes and spatial-temporal data of changes in the internal parameters of the array will help forecast catastrophes in the mine. To correctly account for changes in internal parameters of the array, we used a new model of the array structure: a continuous medium including discrete system of blocks with hierarchical inclusions. In this work, iterative algorithms for 2-D modelling for diffraction sound and linear polarized transversal elastic waves on these inclusions are constructed.

Keywords:

Mining rock shock array, recommends of theory of catastrophes, kinematic and dynamic parameters of deformational waves, structural features of the array, new hierarchical model of the array, internal parameters, algorithms of modelling.

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