Backfilling technology in Kazakhstan mines

L. A. Krupnik1, Yu. N. Shaposhnik2, S. N. Shaposhnik2, A. K. Tursunbaeva3
1K. I. Satpaev Kazakh National Technical University
2D. Serikbaev East Kazakhstan State Technical University
3Karaganda State Technical University

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Tài liệu tham khảo

Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Progress in Backfilling in Kazakhstan Mines, Gorny Zh., 2012, no. 10.

Gusev, Yu.P., Berezikov, E.P., Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Resource-Saving Geotechnologies in Maleevsky Mine of Zyryanovsky Mining and Metallurgical Integrated Works (Kazzinc Co.), Gorny Zh., 2008, no. 11.

Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Analysis of Backfill Mixture Compositions for Underground Mining in East Kazakhstan, Gorny Zh., 2010, no. 4.

Berezikov, E.P., Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Diversification of Backfill Mixture Components in Preparation Flowsheet, Gorny Zh. Kazakh., 2009, no. 4.

Bitimbaev, M.Zh., Krupnik, L.A., and Shaposhnik, Yu.N., Teoriya i praktika zakladochnykh rabot pri razrabotke mestorozhdenii poleznykh iskopaemykh (Theory and Practice of Backfilling in Mineral Mining), Almaty: Assots. Vuzov Kazakhstana, 2012.

Vorob’ev, A.E., Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Methods of Backfill Mixture Feeding in Mines in East Kazakhstan, Gorny vestn. Uzbek., 2010, vol. 43, no. 4.

Barilyuk, A.I., Ryshkel’, I.A., Tkachev, V.M., Makarov, A.B., Ort, V.G., and Ananin, A.I., Orlovsky Deposit Mining with Top-Down Horizontal Slicing Method, Gorny Zh., 2002, no. 5.

Nikolaev, E.N., Gul’tyaev, V.G., and Kozhbanov, K.Kh., Technology of Hardening Backfill Mixture Preparation in Orlovsky Mine, Gorny Zh., 2002, no. 5.

Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Selection of the Efficient Backfilling Technology in Suzdal’sky Mine of Alel JSC, Trudy KarGTU, 2011, vol. 43, no. 2.

Krupnik, L.A., Shaposhnik, Yu.N., and Shaposhnik, S.N., Possibility to Improve Strength Properties of Filling Masses in Mining with Slicing Systems, Gorny Zh. Kazakh., 2012, no. 6.

Anushenkov, A.N., Freidin, A.M., and Shalaurov, V.A., Preparation of Molten Solidifying Fill from Production Wastes, Journal of Mining Science, 1998, vol. 34, no. 1, pp. 86–90.

Muzgina, V.S., Experience and Prospects of Using Production Waste in Backfill Mixtures, Tr. IGD A.D. Kunaeva, 2004, no. 68.

Falikman, V.R., Vainer, A.Ya., and Bashlykov, N.F., New Generation of Super Plastifiers, Beton Zhelezobeton, 2000, no. 5.

Krupnik, L.A., Shaposhnik, Yu.N., Shaposhnik, S.N., and Shushkevich, K.A., Selection of Backfill Mixture Feeding Method in Underground Mines Tr. IGD A.D. Kunaeva, 2010, no. 79.

Metodicheskie ukazaniya po opredeleniyu normativnoi prochnosti tverdeyushchei zakladki i otsenke prochnostnykh svoistv iskusstvennykh massivov (Instructional Guidelines on Determination of Hardening Backfill Mixture Strength Characteristics and Evaluation of Strength of Filling Masses), Leningrad: VNIMI, 1975.

Normy tekhnologicheskogo proektirovaniya gornodobyvayushchikh predpriyatii s podzemnym sposobom razrabotki (metodicheskie rekomendatsii) (Production Design Standards for Underground Mines), under Decree of Committee for Governmental Control over Emergencies and Industrial Safety of the Republic of Kazakhstan, no. 46, dated Dec 4, 2008.