Геолого-промышленные типы месторождений. Титаномагнетит-ильменитовый тип
Аннотация
Ключевые слова
Полный текст:
PDFЛитература
Avdonin V.V. 1999. Printsipy geologo-promyshlennoy tipizatsii rudnykh mestorozhdeniy [Principles of geological and industrial typification of ore deposits]. Moskva, ZAO Geoinformmark, p. 40. (in Russian)
Arzamastsev A.A., Bea F., Arzamasceva L.V. et al. 2006. Proterozoyskiy polifaznyy massiv Gremyakha-Vyrmes, Kolskiy p-ov: primer smesheniya bazitovykh i shchelochnykh mantiynykh rasplavov [Proterozoic polyphase Gremyakha-Vyrmes massif, Kola peninsula: an example of mixed basite and alkaline mantle melts]. Petrologiya. 14(4):384–414. (in Russian)
Belov N.V. Bokiy G.B. 1954. Sovremennoe sostoyanie kristallokhimii i eyo blizhayshie zadachi [The current state of crystal chemistry and its closest tasks]. In: I kristallokhim. konf. Moskva, Izd. AN SSSR, pp. 7–38. (in Russian)
Bulakh A.G., Zolotaryov A.A., Krivovichev V.G. 2014. Struktura, izomorfizm, formuly, klassifikatsiya mineralov [Structure, isomorphism, formulas, classification of minerals]. SPb.: Izd-vo S.-Peterburg. univ., p. 132. (in Russian)
Geologiya SSSR. T.XII. Ch.I. Geologicheskoe opisanie [Geology of USSR. T.XII. Ch. I. Geological description]. Moskva, Nedra, 1969, p. 706. (in Russian)
Geologiya SSSR. T.XII. CH.II. Poleznye iskopaemye [Geology of USSR. T.XII. Ch. II. Minerals]. K.K. Zoloev Ed.. Moskva, Nedra, 1973. p. 632. (in Russian)
Gosudarstvennyy doklad o sostoyanii i ispolzovanii mineralno-syrevykh resursov Rossiyskoy Federatsii v 2018 godu [State report on the state and use of mineral resources of the Russian Federation in 2018]. Ministerstvo prirodnykh resursov i ekologii Rossiyskoy Federatsii. Moskva, 2019. p. 422. (in Russian)
Grin D.H., Ringvud A.E. 1968. Proiskhozhdenie bazaltovykh magm [The origin of basalt magmas]. Petrologiya verkhney mantii. Moskva, Mir, p. 132–227. (in Russian)
Drobot G.D., Korolenko N.V., Blinov V.A., Epifanov A.Yu. 1998. Titanovye mestorozhdeniya v anortozitakh dokembriya [Titanium deposits in Precambrian anorthosites]. Otechestvennaya geologiya. 4:54–58. (in Russian)
Iblaminov R.G. 1988. Geokhimicheskaya zonalnost titanomagnetitovykh mestorozhdeniy Urala [Geochemical zonation of titanomagnetite deposits of the Urals]. In: Geologiya, poiski i razvedka rudnykh i nerudnykh mestorozhdeniy poleznykh iskopaemykh. Sverdlov. gorn. Inst. Sverdlovsk, p. 101–106. (in Russian)
Iblaminov R.G., Kudryavtseva G.P., Garanin V.K. 1987. Rezultaty kompleksnogo issledovaniya mineralov rud magmaticheskikh mestorozhdeniy Urala [Results of a comprehensive study of minerals of ores of magmatic deposits of the Urals]. In: Mineralogiya i geokhimiya poleznykh iskopaemykh Zapadnogo Urala. Perm. gos. univ., Perm, pp. 90–112. (in Russian)
Kreyter V.M. 1940. Poiski i razvedka poleznykh iskopaemykh [Prospecting and exploration of minerals]. Moskva-Leningrad, Gosgeolizdat, p. 790. (in Russian)
Letnikov F.A. 1992. Sinergetika geologicheskikh sistem [Synergetics of geological systems]. Novosibirsk, Nauka, p. 230. (in Russian)
Metodicheskie rekomendatsii po primeneniyu Klassifikatsii zapasov mestorozhdeniy i prognoznykh resursov tverdykh poleznykh iskopaemykh [Methodological recommendations on the application of the Classification of reserves of deposits and forecast resources of solid minerals]. Vypuski po rudnym poleznym iskopaemym. Moskva, 2007. (in Russian)
Nekrasov I.Ya. 1991. Geokhimiya, mineralogiya i genezis zolotorudnykh mestorozhdeniy [Geochemistry, mineralogy and genesis of gold deposits]. Ed. N.P. Laverov. Moskva, Nauka, p. 302. (in Russian)
Paskonov V.M., Polezhaev V.I., Chudov L.A. 1984. Chislennoe modelirovanie protsessov teplo- i massoobmena [Numerical modeling of heat and mass exchange processes]. Moskva, Nauka, p. 288. (in Russian)
Rusakov S.V., Shkaraputa A.P., Shchipanov A.A. 1998. Issledovanie protsessov teplo-massoperenosa binarnoy smesi s uchetom effekta termodiffuzii [Investigation of the processes of heat and mass transfer of a biological mixture taking into account the effect of thermodiffusion]. In: Tr. 2th Rossiyskoy natsionalnoy konferentsii po teploobmenu. T. 3. Svobodnaya konvektsiya. Moskva, Izd-vo MEI, p. 132–135. (in Russian)
Tomilina E.M., Iblaminov R.G. 2021b. Mineralogo-petrograficheskoe issledovanie rudnika Taba, Zapadnyj Bushvel'd (YuAR) [Mineralogical and petrographic study of the Taba mine, Western Bushveld (South Africa)]. Vestnik Permskogo universiteta. Geologiya. 20(2):160–171. (in Russian)
Tugarinov A.I. 1973. Obshchaya geokhimiya [General geochemistry]. Moskva, Atomizdat, p. 288. (in Russian)
Uillemz Dzh. 1973. Geologiya Bushveldskogo kompleksa – krupneyshego vmestilishcha magmaticheskikh rudnykh mestorozhdeniy mira [Geology of the Bushveld complex – the largest reservoir of magmatic ore deposits in the world]. In: Magmaticheskie rudnye mestorozhdeniya. Moskva, Nedra, pp. 7–25. (in Russian)
Fersman A.E. 1940. Pegmatity. T. 1. Granitnye pegmatity [Pegmatites. T.1 Granite pegmatites]. Moskva-Leningrad, Izd. AN SSSR, p. 712. (in Russian)
Fon-der-Flaass G.S., Nikulin V.I. 2000. Atlas struktur rudnykh poley zhelezorudnykh mestorozhdeniy [Atlas of structures of ore fields of iron ore deposits]. Irkutsk, Izd. Irkut. univ,, p. 192. (in Russian)
Holodnov V.V., Shagalov E.S. 2012. Verkhniy i nizhniy vozrastnye rubezhi srednerifeyskiyh rudonosnykh (Ti-Fe-V) intruziy Kusinsko-Kopanskogo kompleksa na Yu. Urale: U-Pb datirovanie tsirkonov Medvedevskogo mestorozhdeniya [Upper and lower age boundaries of Middle-Riphean ore-bearing (Ti-Fe-V) intrusions of the Kusinsko-Kopansky complex on South Urals: U-Pb dating of zircons of the Medvedevskoye deposit]. DAN. 446(4):432–437. (in Russian)
Holodnov V.V., Shagalov E.S., Bocharnikova T.D., Konovalova E.V. 2016. Sostav i stadijnost formirovaniya ilmenitovogo i titanomagnetitovogo orudeneniya v dvupiroksenovom gabbro Medvedevskogo mestorozhdeniya (Yu. Ural): rol rezhima letuchikh komponentov (galogeny i voda) [Composition and sequence of formation of ilmenite and titanomagnetite mineralization in the two-pyroxene gabbro of the Medvedevskoye deposit (S. Urals): the role of the regime of volatile components (halogens and water)]. Litosfera. 2:48–69. (in Russian)
Shteynberg D.S., Kravtsova L.I., Varlakov A.S. 1959. Osnovnye cherty geologicheskogo stroeniya Kusinskoy gabbrovoy intruzii i zalegayushchikh v ney rudnykh mestorozhdeniy [The main features of the geological structure of the Kusinskaya gabbro intrusion and the ore deposits occurring there]. In: Tr. Gorno-geologicheskogo Inst. UF AN SSSR. 40:13–40. (in Russian)
Yaroshevskiy A.A. 2010. Geokhimiya zemnoy kory [Geochemistry of the Earth's crust]. Rossiyskaya geologicheskaya entsiklopediya: v tryokh tomakh. T. I. Moskva – SPb., Izd, VSEGEI, pp. 374–375. (in Russian)
Yaroshevskiy A.A. 1990. Klarki khimicheskikh elementov verhney chasti kontinentalnoy kory (granitno-metamorficheskoy obolochki) [Clarks of chemical elements of the upper part of the continental crust (granite metamorphic shell)]. In: Spravochnik po geokhimicheskim poiskam poleznykh iskopaemykh. Eds. A.P. Solovov, A.YA. Arhipov, V.A. Bugrov et al. Moskva, Nedra, pp. 12–13. (In Russian)
Bowen N.L. 1928. The evolution of the Igneous Rocks. Princeton, NJ: Princeton University Press.
Cawthorn R.G. 2015. The Bushveld Complex, South Africa. In: Charlier B., Namur O, Latypov R. & Tegner C. (Eds.) Layered Intrusions. New York, Springer Geology, pp. 517-588.
Iblaminov R.G. 2020a. Genetic Systematics of Mineral Deposits as Theoretical Basis of Mining Projects. SGEM GeoConference. Albene, Bulgaria. pp.103–109. doi: 10.5593/SGEM2020-august(1.1)
Li Chusi, Ripley E.M., Naldrett A.J. 2009. A new genetic model for the giant Ni-Cu-PGE sulfide deposits associated with the Siberian flood basalts. Econ. Geol. 104(2):185–203.
DOI: http://dx.doi.org/10.17072/psu.geol.21.1.51
Ссылки
- На текущий момент ссылки отсутствуют.