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PHYSICS AND MECHANICS OF ROCKS
ArticleName Geological database for modeling and forecasting of deformations in the Antey ore body and host rocks, Streltsovsky ore field
DOI 10.17580/gzh.2015.02.04
ArticleAuthor Shchukin S. I. Petrov V. A. Poluektov V. V. Ustinov S. A.
ArticleAuthorData

Author 1:
Name & Surname: Shchukin S. I.
Company: Priargunsky Industrial Mining and Chemical Union (Krasnokamensk, Russia)
Work Position: Chief Geologist

 

Author 2:
Name & Surname: Petrov V. A.
Company: Institute of Ore Geology, Petrography, Mineralogy and Geochemistry, Russian Academy of Sciences (Moscow, Russia)
Work Position: Deputy Director, Corresponding member of RAS
Contacts: e-mail: vlad@igem.ru

 

Author 3:
Name & Surname: Poluektov V. V.
Company: Institute of Ore Geology, Petrography, Mineralogy and Geochemistry, Russian Academy of Sciences (Moscow, Russia)
Work Position: Researcher

 

Author 4:
Name & Surname: Ustinov S. A.
Company: Institute of Ore Geology, Petrography, Mineralogy and Geochemistry, Russian Academy of Sciences (Moscow, Russia)
Work Position: Junior Researcher

Abstract

For complicated ground conditions and deeper level mining at the Antey deposit in the Streltsovsky uranium ore field, the article describes the research aimed at creating procedure for forecasting and control of rock stress–strain state, detection and delineation of rockburst-hazardous zones followed with planning and execution of mining safety measures. The special-purpose researches involved geostructural and petrography-mineralogical mapping; rock sampling; laboratory testing of mineral-petrochemical composition and petrophysical properties of rocks with generation of electronic databases built in program products, which enabled finding a clear relationship between petrographic parameters of rocks and their metasomatism nature and intensity as well as estimating faulting dynamics and rock mass stress–strain state heterogeneity. Thereupon, the three-dimensional geostructural model of the deposit and mine infrastructure has been developed, numerical modeling of rock mass “behavior” has been performed followed by verification of the modeling results. It is recommended to use the research findings as the methodical approaches to forecasting dynamic events due to lithostatic pressure (stresses–strains), and to accomplishment of mine safety protection both at the Antey deposit and the other ore bodies within the Streltsovsky ore field. 

keywords Rock mass stress–strain state forecasting and control, geostructural and petrographic-mineralogical mapping, database, three-dimensional geostructural modeling, safety
References

1. Morozov K. V., Prosekin B. A. Sozdanie geomekhanicheskoy modeli mestorozhdeniya Antey na osnove tsifrovykh tekhnologiy (Creation of geomechanical model of Antey deposit on the basis of digital technologies). Gornyi Zhurnal = Mining Journal. 2008. No. 8. pp. 47–49. 

2. Rasskazov I. Yu., Saksin B. G., Petrov V. A., Prosekin B. A. Geomekhanicheskie usloviya i osobennosti dinamicheskikh proyavleniy gornogo davleniya na mestorozhdenii Antey (Geomechanical conditions and peculiarities of dynamic displays of rock pressure at Antey deposit). Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh = Journal of Mining Science. 2012. No. 3. pp. 3–13. 

3. Petrov V. A., Poluektov V. V., Andreeva O. V., Golovin V. A., Shchukin S. I., Prosekin B. A., Nasimov R. M., Burmistrov A. A. Karkas razryvnykh narusheniy, mineralno-khimicheskiy sostav, petrofizicheskie svoystva i napryazhenno-deformirovannoe sostoyanie porod mestorozhdeniya Antey (Frame of faultings, mineral-chemical composition, petrophysical properties and stress-strain state of Antey deposit rocks). Sbornik trudov po rudnym mestorozhdeniyam (Collection of proceedings about ore deposits). Moscow : Institute of Geochemistry of Ore Deposits, Petrography, Mineralogy and Geochemistry of Russian Academy of Sciences, 2007. pp. 148–152. 

4. Laverov N. P., Petrov V. A., Poluektov V. V., Nasimov R. N., Hammer Y., Burmistrov A. A., Shchukin S. I. Uranovoe mestorozhdenie — prirodnyy analog khranilishcha otrabotannogo yadernogo topliva i podzemnaya geodinamicheskaya laboratoriya v granitakh (Uranium deposit is a natural analogue of irradiated fuel storage and underground geodynamic laboratory in granites). Geologiya rudnykh mestorozhdeniy = Geology of Ore Deposits. 2008. Vol. 50, No. 5. pp. 387–413.

5. Petrov V. A. Poluektov V. V., Nasimov R. M., Shchukin S. I., Hammer Y. Prirodnye i tekhnogennye izmeneniya napryazhenno-deformirovannogo sostoyaniya porod na uranovom mestorozhdenii v granitakh (Natural and anthropogenic changes of stress-strain state of rocks at uranium deposit in granites). Fizika Zemli = Izvestiya. Physics of the Solid Earth. 2009. No. 11. pp. 86–93.

6. Rasskazov I. Yu., Anikin P. A., Iskra A. Yu., Saksin B. G., Miroshnikov V. I. Rezultaty geoakusticheskikh issledovaniy udaroopasnosti na mestorozhdenii Antey (Results of geo-acoustic researches of rock-bump hazard at Antey deposit). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Information-Analytical Bulletin. 2009. Iss. 4. pp. 41–49.

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