ArticleName |
Геомеханическая оценка напряженно-деформированного состояния массива вмещающих пород при
заполнении выработанного пространства продуктами гидрометаллургической переработки урановых руд |
ArticleAuthorData |
Забайкальский государственный университет, Чита, Россия:
Лизункин В. М., проф., д-р техн. наук
Лизункин М. В., проф., д-р техн. наук, lmv1972@mail.ru
ПАО «ППГХО им. Е. П. Славского», Краснокаменск, Россия
Бодров А. С., главный инженер ЦНИЛ, канд. техн. наук
Институт горного дела УрО РАН, Екатеринбург, Россия: Сосновская Е. Л., старший научный сотрудник, канд. геол.-минерал. наук |
References |
1. Bodrov A. S. Development of backfilling technology using uranium hydrometallurgy residue : Dissertation … of Candidate of Engineering Sciences. Chita, 2022. 182 p. 2. Abramkin N. I., Miroshnichenko K. S., Dorodniy A. V. Justification of efficient recycling and neutralization methods for municipal solid waste using promising geotechnologies. GIAB. 2018. No. 1. pp. 83–91. 3. Volkov E. P., Anushenkov A. N. Developing the technology of mine stowing with processing tailings based hardening blends. Izvestiya vuzov. Gornyi zhurnal. 2019. No. 7. pp. 5–13. 4. Bek А. А., Yestemesov Z. А., Baidzhanov D. О., Fedotenko N. А. Effective strengthening solutions for fractured rock masses using tailings. Eurasian Mining. 2022. No. 1. P. 59–63.
5. Golik V. I., Komashchenko V. I. Ferruginous quartzite processing waste as a source of additional metal recovery and backfilling. Gornyi Zhurnal. 2017. No. 3. pp. 43–47. 6. Darbinyan T. P., Lozitsky V. A., Gogolev D. V., Balandin V. V. Backfill improvement in underground mines of NorNickel’s Polar Division: Current situation and prospects. Gornyi Zhurnal. 2022. No. 1. pp. 80–84. 7. Dzaparov B. Kh., Kharebov G. Z., Stas V. P., Stas P. P. Research of dry mixtures based on production waste for underground construction. Sukhie stroitelnye smesi. 2020. No. 1. pp. 35–38. 8. Kuzmin E. V., Kalakutskiy A. V., Tarasov M. A., Morozov A. A. Concept for Disposal of Class 2 and Class 3 Radioactive Waste in Underground Workings with Isolating Backfilling using Paste made with Processed Uranium Ore Materials. Gornaya pormyshlennost. 2020. No. 6. pp. 31–36. 9. Kulikova A. A., Kovaleva A. M. Use of tailings of enrichment for laying of the developed space of mines. GIAB. 2021. No. 2-1. pp. 144–154. 10. Dushin A. V., Ignatуeva M. N., Yurak V. V., Ivanov A. N. Economic evaluation of environmental impact of mining: Ecosystem approach. Eurasian Mining. 2020. No. 1. pp. 30–36. 11. Montyanova A. N., Trofimov A. V., Rumyantsev A. E., Vilchinskiy V. B., Nagovitsin Yu. N. Experience and efficiency of application of plasticized backfilling concrete. Vestnik Magnitogorskogo gosudarstvennogo tekhnicheskogo universiteta im. G. I. Nosova. 2019. Vol. 17, No. 1. pp. 18–25. 12. Chongchong Qi, Fourie A. Cemented paste backfill for mineral tailings management: Review and futur e perspectives. Minerals Engineering. 2019. Vol. 144. 106025. DOI: 10.1016/j.mineng.2019.106025 13. Fabian K. Implementation-based design – Upfront thinking for tailings, soft soil, sediment and fly ash projects. Paste 2018 : Proceedings of the 21st International Seminar on Paste and Thickened Tailings. Perth : Australian Centre for Geomechanics, 2018. pp. 545–552. 14. Kamarou M., Korob N., Kwapinski W., Romanovski V. High-quality gypsum binders based on synthetic calcium sulfate dihydrate produced from industrial waste. Journal of Industrial and Engineering Chemistry. 2021. Vol. 100. pp. 324–332. 15. Hongjian Lu, Chongchong Qi, Qiusong Chen, Deqing Gan, Zhenlin Xue et al. A new procedure for recycling waste tailings as cemented paste backfill to underground stopes and open pits. Journal of Cleaner Production. 2018. Vol. 188. pp. 601–612. 16. Shenghua Yin, Yajian Shao, Aixiang Wu, Hongjiang Wang, Xiaohui Liu et al. A systematic review of paste technology in metal mines for cleaner produc tion in China. Journal of Cleaner Production. 2020. Vol. 247. 119590. DOI: 10.1016/j.jclepro.2019.119590 17. Jinglin Wen, Husheng Li, Fuxing Jiang, Zhengxing Yu, Haitao Ma et al. Rock burst risk evaluation based on equivalent surrounding rock strength. International Journal of Mining Science and Technology. 2019. Vol. 29, Iss. 4. pp. 571–576. 18. Moatamedi M., Khawaja H. Finite Element Analysis. Boca Raton : CRC Press, 2018. 162 p. 19. Qinghua Lei, Ke Gao. A numerical study of stress variability in heterogeneous fractured rocks. International Journal of Rock Mechanics and Mining Sciences. 2019. Vol. 113. pp. 121–133. 20. Rust W. Non-Linear Finite Element Analysis in Structural Mechanics. Cham : Springer, 2015. 363 p. 21. Vlokh N. P. Ground control in underground mines. Moscow : Nedra, 1994. 208 p. 22. Zubkov A. V. Geomechanics and geotechnology. Yekaterinburg : IGD UrO RAN, 2001. 335 p. 23. Shupletsov Yu. P. Durability and deformability of rock massifs. Yekaterinburg : UrO RAN, 2003. 195 p. 24. Lizunkin M. V. Validation of underground mining technology for structurally complex ore deposits : Dissertation … of Candidate of Engineering Sciences. Chita, 2021. 439 p. |