Open Access
E3S Web Conf.
Volume 109, 2019
International Conference Essays of Mining Science and Practice
Article Number 00017
Number of page(s) 11
Published online 09 July 2019
  1. Horiainov, P.M., Ivaniuk, G.Yu. (2001). Energy percolation is a resource of new ideas in geotectonics. Vesnik of Voronezh State University. Series geology, (11), 7-22 [Google Scholar]
  2. Yudin, V.V. (2010). Pop-up structures in tectonics of the world and Southern Ukraine. 8th international conference “Crimea 2009”, 51-68 [Google Scholar]
  3. Minkevicius, S., Kulvietis, G. (2005). Reliability in Computer Networks. System Modelling and Optimization, 295-300 [Google Scholar]
  4. Cepulkauskas, A., Kulvietiene, R., Kulvietis, G. (2003). Computer Algebra for Analyzing the Vibrations of Nonlinear Structures. International Conference on Computational Science, 747-753 [Google Scholar]
  5. Pesotskyi M.F. (2004). Lugansk region. Atlas. Kyiv: Kartographia, 31 [Google Scholar]
  6. Amosov, I.I., Velikanova, M.V., Ivanov G.A. (1978). Geology of coal and shale oil deposits in the USSR (12). Moskva: Nedra [Google Scholar]
  7. Terentyev, Е.V. (1976). Paleotectonic reconstructions on geological sections as an analysis of the history of the structure formations and tectonic movements. Tectonics of coal basins and deposits of the USSR (5). Moskva: Nedra [Google Scholar]
  8. Sollogub, V.S., Borodulin, M.I., Chekunov, A.V. (1977). The deep structure of Donbas and adjacent regions. Geologicheskii zhurnal, (2), 23-31 [Google Scholar]
  9. Raznitsyn, V.A. (1975). Tectonic zoning and genesis of the North zone structures with small size folding. Geotektonika, (2), 57-72 [Google Scholar]
  10. Bulat, A.F., Zviahilskyi, E.L., Lukinov, V.V., Perepelytsia, L.I., Pymonenko, L.I. (2008). The carbonaceous massif of Donbas as a heterogeneous environment. Kyiv: Naukova dumka [Google Scholar]
  11. Stovba, S.N., Tolkunov A.P., Stifenson, P.A., Bagger, Yu. (2002). The deep structure of the Donetsk orogen according to the data of CDP on the profile of DOBRE-2000. Naukovyi visnyk Natsionalnoho hirnychoho universytetu, (4), 86-98 [Google Scholar]
  12. Pryvalov, V.O. (2005). Tectonothermal evolution of the Donetsk basin. Abstract of the dissertation for the Doctor of Geological Sciences degree. Specialty 04.00.16. Dnipropetrovsk, 35 [Google Scholar]
  13. Pryvalov, V.A., Zhykaliak, N.V., Ovcharenko V.A., Panova O.A. (2002). The intensity ratio of different-age tectonic movements along the regional gaps of the Donbas Northern Margin. Mineralni resursyi Ukrainyi, (8), 21-23 [Google Scholar]
  14. Pryvalov, V.A. (1998). The rotation of blocks and scenario of the Donetsk Basin tectonic evolution. Heolohyia i heokhimiia horiuchykh kopalyn, (4), 142-158 [Google Scholar]
  15. Nahorniy, Yu.N., Nahorniy, V.N., Zemlianoi, B.P. (1973). On the role of constipation tectonic movements in the formation of Donetsk Basin folded structures. Geotektonika, (5), 107-117 [Google Scholar]
  16. Smichko, R.M. (1985). The main faults of the Donetsk Basin and associated shears. Geotektonika, (2), 120-125 [Google Scholar]
  17. Shkurskiy E.F. (1980). On discontinuities, feathering mediumand large-amplitude thrusts. Ugol Ukrainyi, (11), 46 [Google Scholar]
  18. Mikhalev A.K. (1988). On horizontal component of the Kamensky thrust amplitude in Donbas. Geologicheskii zhurnal, (1), 127-129 [Google Scholar]
  19. Mikhalev A.K. (1978). About faults in surface sediments of Krasnoarmeysky district of Donbas. Geologicheskii zhurnal, (2), 57-72 [Google Scholar]
  20. Diachenko, N.A., Pryvalov, V.A. (2011). Low-amplitude tectonics of the Petro-Donetsk anticline (using as an example Luganskaya mine). Naukovi pratsi UkrNDMI NAN Ukrainy, (8), 163-176 [Google Scholar]
  21. McClay, K.R., Rutter, E.H., Knipe R.J. (1990). Deformation mechanics in analogue models of extensional fault systems. Deformation mechanisms, rheology and tectonics: Geological Society Special Publication (54), 445-454 [CrossRef] [Google Scholar]
  22. McClay, K., Bonora, M. (2001). Analog models of restraining stepovers in strike-slip fault systems. AAPG Bulletin (85), (2), 233-260 [Google Scholar]
  23. Tevelev, Al.V., Kosheleva, I.A., Khotylev, A.O., Prudnikov, I.A., Tevelev, Ark.V. (2015). The Data on the Composition and Age of the Kozlinogorsk Gabbro-Alkaline Granite Complex on the Western Slope of the Southern Urals. Moscow University Geology Bulletin. (70), (4). 338-349 [CrossRef] [Google Scholar]
  24. Bekzhanov, G.R., Buhaiets, A.I., Los V.L. (1987). Geological models in the prediction of mineral resources. Moskva: Nedra [Google Scholar]

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