Институт проблем комплексного освоения недр им. академика Н. В. Мельникова РАН, Москва, Россия

Кулибаба С. Б., ведущий научный сотрудник, д-р техн. наук, проф., kulibaba_s@ipkonran.ru

В результате проведенных исследований установлены не учитываемые ранее факторы, влияющие на величину относительного максимального оседания земной поверхности над горными выработками: соотношение размера выработанного пространства пласта к мощности неподработанного междупластья с учетом прочностных свойств слагающих его породных слоев, а также кратность подработки земной поверхности. На основе анализа результатов натурных инструментальных наблюдений на шахтах Донбасса получена новая зависимость, позволяющая значительно повысить точность прогноза деформаций земной поверхности.

1. Grishhenkov N. N., Shneer V. R., Blinnikova E. V., Rakhmanova T. I., Stelmakh S. S. Structural measures to increase the life time for safe use of residential and civil buildings on undermined areas of coaldeposits. RANIMI Transactions : Collection of Scientific Papers. Donetsk, 2015. No. 15. pp. 168–179.
2. Prokopov A. Yu. The application of cart ographic research method to detection of dangerous zones of civil–industrial territories (by the example of Shakhty city). Izvestiya Tulskogo gosudarstvennogo universiteta. Nauki o Zemle. 2018. No. 1. pp. 35–51.
3. Pronskaya N. V. Conditions for formation of sinkholes over mining works of closed anthracite mines. Izvestiya Tulskogo gosudarstvennogo universiteta. Nauki o Zemle. 2024. No. 2. pp. 208–218.
4. Florkowska L., Bryt-Nitarska I., Kruczkowski Ja. Deformation and damage to buildings caused by ground movements in mining areas (case study). Inżynieria Bezpieczeństwa Obiektów Antropogenicznych. 2021. No. 4. pp. 52–63.
5. Dalgic K. D., Gulen B., Liu Y., Acikgoz S., Burd H. et al. Masonry buildings subjected to settlements: Half-scale testing, detailed measurements, and insights into behaviour. Engineering Structures. 2023. Vol. 278. ID 115233.
6. Burd H. J., Yiu W. N., Acikgoz S., Martin C. M. Soil–foundation interaction model for t he assessment of tunnelling-induced damage to masonry buildings. Tunnelling and Underground Space Technology. 2022. Vol. 119. ID 104208.
7. Skazhenik V. B., Chernyshenko I. V., Grishchenkov N. N., Golubev F. M. Prediction of displacements and deformations of the earth’s surface based on computer modeling. Zhurnal teoreticheskoy i prikladnoy mekhaniki. 2023. No. 2(83). pp. 74–85.
8. Hou Z., Yang K., Li Y., Gao W., Wang S. et al. Dynamic prediction model of mining subsidence combined with D-InSAR technical parameter inversion. Environmental Earth Sciences. 2022. Vol. 81, Iss. 11. DOI: 10.1007/s12665-022-10423-8
9. Kulibaba S. B. The position of the boundary of the zone of total displacement in the rock above the mined-out space. Marksheyderiya i nedropolz ovanie. 2018. No. 4(96). pp. 31–33.
10. PB 07-269-98. Safety Rules for Structures and Natural Objects to be Protected from Hazardous Influence of Underground Coal Mining. Moscow : Tsentrmag, 2023. 326 p.
11. GSTU 101.00159226.001-2003. Regulations for Undermining Buildings, Structures and Natural Objects in Underground Coal Mining. Donetsk : UkrNIMI, 2003. 128 p.
12. Akimov A. G., Zemisev V. N., Katsnelson N. N. et al. Displacements of Rocks in Underground Coal and Shale Mining. Moscow : Nedra, 1970. 224 p.
13. Viktorov S. D., Iofis M. A., Goncharov S. A. Displacem ent and Failure of Rocks. Moscow : Nauka, 2005. 277 p.
14. Kratzsch H. Bergschadenkunde. Berlin : Springer-Verlag, 1974. 582 s.

15. Zemisev V. N. Rock Mass Deformation Cal culations. Moscow : Nedra, 1973. 145 p.
16. Gertner I. A. Physical and mechanical properties of rocks in the Donbas in the context of underground and ground surface movements. Rock Pressure, Rock Displacements and Surveying Procedure : Collected Papers. Leningrad : VNIMI, 1970. Vol. 77. pp. 229–239.
17. Popov V. N., Silchenko O. B., Paramonova M. S. On the changes of physico-mechanical properties of rocks with depth of a lying. MIAB. 2011. No. 5. pp. 108–117.
18. Sarychev V. I., Safronov V. P., Zaytsev Yu. V., Romanyuk A. V. Method of estimation of vertical movements of the eart h’s surface in under-worked areas. Izvestiya Tulskogo gosudarstvennogo universiteta. Nauki o Zemle. 2020. No. 4. pp. 250–262.
19. Kulibaba S. B. Field observations of the vertical displacement of undermined massif. Marksheyderskiy vestnik. 2019. No. 1(128). pp. 46–51.
20. Kulibaba S. B. Predicti on of displacements and deformations in undermined rock mass. Ugol Ukrainy. 2000. No. 1. pp. 41–43.
21. Draper N. R., Smith H. Applied Regressio n Analysis. 3^rd ed. New York : John Wiley & Sons, 1998. 705 p.