Open Access
Issue |
E3S Web Conf.
Volume 166, 2020
The International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF 2020)
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Article Number | 02002 | |
Number of page(s) | 7 | |
Section | Geotechnical and Geoenvironmental Engineering | |
DOI | https://doi.org/10.1051/e3sconf/202016602002 | |
Published online | 22 April 2020 |
- B. Pirogov, GMV. 1, 5–17 (2008) [Google Scholar]
- V. Farmer JMM. 31, 241–329 (1958) [Google Scholar]
- M. Mecik, T. Shishelova, V. Liopo, JAS. 3, 464–465 (1966) [Google Scholar]
- T. Shishelova, A. Kolodeznikova, V. Shulga, FI. 2 (15), 3294–3298 (2015) [Google Scholar]
- E. Giesekke, JMP 11, 9–56 (1983) [Google Scholar]
- B. Pirogov, G. Porotov, I. Holoshin, V. Tarasenko, Tehnologicheskaya mineralogiya zheleznyh rud (Technological Mineralogy of Iron Ores). (Nauka, Leningrad, 1982) [Google Scholar]
- B. Pirogov, A. Trunin, I. Holoshin, GMV. 1, 78–87 (2001) [Google Scholar]
- A. Moiseenko, L. Orlov, G. Bogatkin, V. Strelchenko, V. Komandrovskij, I. Egorova, MNTO PRIB. 11 (41), 21–27 (2003) [Google Scholar]
- B. Pirogov, I. Holoshin, A. Trunin, A.s. 17879 SSSR, G01V9/00/(SSSR). No. 1783461, 23.12.1992 [Google Scholar]
- Yu. Batura, M. Uglovskaya, OBRUD 5, 24–25 (2005) [Google Scholar]
- J. Miller, J. Kellar, W. Cross, in Adv Coal Miner Process Using Flotation Proc Eng Found Conf., (Littleton, 1998), pp. 33–44 [Google Scholar]
- V. Revnivcev, G. Dolivo-Dobrovolskaya, P. Vladimirov, Tehnologicheskaya mineralogiya oblomochnyh malyh chastic (Technological mineralogy of clastic small particles). (Nauka, SPb, 1993) [Google Scholar]
- M. Hohulya, M. Maslova, L. Gerasimova, GIAB 2, 180–192 (2013) [Google Scholar]
- A. Remizov, D. Kamalova, R. Skochilov, I. Suvorova, N. Batyrshin, Kh.E. Kharlampidi, VKY 700, 73-79, (2004) [Google Scholar]
- I. Plyusnina, Infrakrasnye spektry mineralov (Infrared Spectra of Minerals). (Nauka, Mоscow, 1977) [Google Scholar]
- V. Chanturiya, V. Makarov, A. Kalinkin et al, CM 10, 80–85 (2000) [Google Scholar]
- V. Komandrovskij, A. Moiseenko, ATSNP. 8, 25–28 (2012) [Google Scholar]
- R. Skochilov, A. Fshman, A. Ivanov, VKY 5, 135–142 (2011) [Google Scholar]
- R. Clark, T. Roush, Reflectance spectroscopy: quantitative analysis techniques for remote sensing applications. JGR (1984). doi:10.1029/JB089iB07p06329 [Google Scholar]
- A. Smith, Pricladnaya IK spektroskopiya (Applied IR Spectroscopy). (Mir, Mоscow, 1982), p. 328 [Google Scholar]
- V. Chanturiya, Yu. Brylyakov, E. Kopoprulina, M. Ryazanceva, FHPRPI (SO RAN) 4, 136–149 (2014) [Google Scholar]
- V. Chanturiya, I. Bunin, M. Ryazanceva, I. Habarova, E. Koporulina, N. Anashkina, Aktivaciya poverhnosti i napravlennoe izmenenie fizikohimicheskih i tehnologicheskih svojstv galenita pri vozdejstvii nanosekundnyh elektromagnitnyh impulsov (Surface activation and directional change in the physicochemical and technological properties of galena when exposed to nanosecond electromagnetic pulses). FHPRPI 3, 154–169 (2014) [Google Scholar]
- E. Ozhogina, A. Rogozhin, Prognoznaya ocenka tehnologicheskih svojstv poleznyh iskopaemyh metodami prikladnoj mineralogii (Predictive evaluation of technological properties of mineral resources by applied mineralogy methods), in Seminar on Technological Mineralogy Moscow, ed. by V. Shchiptsov, April 9–11, 2012 (Petrozavodsk, 2013), pp. 46–49 [Google Scholar]
- A. Guatame-García, M. Buxton, F. Deon, C. Lievens, C. Hecker, MEMR 11(2), 420–421 (2018) [Google Scholar]
- I. Plaksin, V. Solnyshkin, Infrakrasnaya spektroskopiya poverhnostnyh sloev reagentov na mineralah (Infrared spectroscopy of surface layers of reagents on minerals). (Nauka, Moscow, 1966) [Google Scholar]
- R.L. Frost, Hydroxyl deformation in kaolins. Clays and Clay Minerals 46(3), 280–289 (1998). doi:10.1346/ccmn.1998.0460307 [CrossRef] [Google Scholar]
- R.L. Frost, É. Makó, J. Kristóf, J.T. Kloprogge, Modification of kaolinite surfaces through mechanochemical treatment – a mid-IR and near-IR spectroscopic study, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 58(13), 2849–2859 (2002). doi:10.1016/S13861425(02)00033-1 [CrossRef] [Google Scholar]
- R.L. Frost, A.M. Vassallo, The dehydroxylation of the kaolinite clay minerals using infrared emission spectroscopy. Clays and Clay Minerals 44(5), 635–651 (1996). doi:10.1346/CCMN.1996.0440506 [CrossRef] [Google Scholar]
- R. Lima, P. Brandao, A. Peres, Min. Engin. 18, 267–273 (2005) [CrossRef] [Google Scholar]
- E. Malinowski, Factor analysis in chemistry (Wiley, Hoboken, 2002), p. 432 [Google Scholar]
- Xiu Liancun, Zheng Zhizhong, Chen Chunxia, Gao Yang, in International Conference on Progress in Informatics and Computing 2017 [Google Scholar]
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