최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Resources recycling = 자원리싸이클링, v.31 no.6, 2022년, pp.73 - 80
푸레브 오윤빌렉 (조선대학교 첨단에너지자원공학과) , 김현수 (조선대학교 첨단에너지자원공학과) , 박철현 (조선대학교 첨단에너지공학과)
This study investigated the mineralogical characteristics and basic flotation properties of domestic molybdenum ores. The source mineral of molybdenum was identified as molybdenite, and the main gangue minerals in the raw ore were silicate minerals. Copper, lead, and zinc were also found in trace am...
Wadsworth, J., Wittenauer, J., 1993 : The history of development of molybdenum alloys for structural applications, pp.26, United States.
Shields, J.A., Applications of molybdenum metal and its alloys, International Molybdenum Association(IMOA), https://www.imoa.info/molybdenum-media-centre/downloads/, November 1, 2022.
Zhang, X., Lu, L., Cao, Y., et al., 2020 : The flotation separation of molybdenite from chalcopyrite using a polymer depressant and insights to its adsorption mechanism, Chemical Engineering Journal, 395, pp.125137.
Yi, G., Macha, E., Van Dyke, J., et al., 2021 : Recent progress on research of molybdenite flotation: A review, Advances in colloid and interface science, 295(4), pp. 102466
Kim, B.S., Sohn, H.S., Lee, J.C., et al., 2008 : Status on Manufacturing Molybdenum and Molybdenum Compounds, Trends in Metals & Materials Engineering, 21(4), pp.13-20.
Smirnov, K., Raspopov, N., Shneerson, Y.M., et al., 2010 : Autoclave leaching of molybdenite concentrates with catalytic additives of nitric acid, Russian Metallurgy (Metally), 2010(7), pp.588-595.
Jeon, H.-S., Lee, E.-S., Baek, S.-H., et al., 2016 : Recovery of High-Grade Molybdenite Concentrate for Lubricant Use by Froth Flotation, The Korean Soc iety of Mineral and Energy Resources Engineers, 53(3), pp.219-230.
Rincon, J., Gaydardzhiev, S., Stamenov, L., 2019 : Investigation on the flotation recovery of copper sulphosalts through an integrated mineralogical approach, Minerals Engineering, 130, pp.36-47.
Abdollahi, M., Bahrami, A., Mirmohammadi, M.S., et al., 2020 : A process mineralogy approach to optimize molybdenite flotation in copper-molybdenum processing plants, Minerals Engineering, 157, pp.106557.
Lotter, N., Kowal, D., Tuzun, M., et al., 2003 : Sampling and flotation testing of Sudbury Basin drill core for process mineralogy modelling, Minerals Engineering, 16(9), pp.857-864.
Can, N.M., Celik, I.B., Bicak, O., et al., 2013 : Mass balance and quantitative mineralogy studies for circuit modification, Mineral Processing and Extractive Metallurgy Review, 34(5), pp.348-365.
Huynh, L., Feiler, A., Michelmore, A., et al., 2000 : Control of slime c oatings by the use of anionic phosphates: A fundamental study, Minerals Engineering, 13(10-11), pp. 1059-1069.
Park, C.-H., Jeon, H.-S., 2010 : The effect of sodium silicate as pH modifier and depressant in the froth flotation of molybdenite ores, Materials Transactions, 51(7), pp. 1367-1369.
Qin, W., Wu, J., Jiao, F., et al., 2017 : Mechanism study on flotation separation of molybdenite from chalcocite using thioglycollic acid as depressant, International Journal of Mining Science and Technology, 27(6), pp.1043-1049.
Wang, Z., He, T., Li, H., et al., 2022 : Influence of magnetized water on molybdenite flotation and its mechanism. Environmental Technology, 43(1), pp.107-115.
Wan, H., Yang, W., Cao, W., et al., 2017 : The interaction between Ca 2+ and molybdenite edges and its effect on molybdenum flotation, Minerals, 7(8), pp.141.
Zhang, Q., Zhu, H., Yang, B., et al., 2019 : Effect of Pb 2+ on the flotation of molybdenite in the presence of sulfide ion, Results in Physics, 14, pp.102361.
Tanaka, Y., Miki, H., Suyantara, G.P.W., et al., 2021 : Mineralogical Prediction on the Flotation Behavior of Copper and Molybdenum Minerals from Blended Cu-Mo Ores in Seawater, Minerals, 11(8), pp.869.
Lin, S., Wang, C., Liu, R., et al., 2022 : Surface characterization of molybdenite, bismuthinite, and pyrite to identify the influence of pH on the mineral floatability, Applied Surface Science, 577, pp.151756.
Nie, Q., Cheng, Y., Liu, C., et al., 2020 : Mineralogy Study on a Fine-Grained Cu-Mo Sulphide Ore in Jiudingshan China, In Proceedings of the IOP Conference Series: Materials Science and Engineering, 782(4), pp.42017.
Arbiter, N., Fujii, Y., Hansen, B., et al., 1975 : Surface properties of hydrophobic solids. Advances in Interfacial Phenomena of Particulate/Solution/Gas System, Applications to Flotation Research, P. Somasundaran and R.B. Grieves, eds., AICHE Symposium Series, AICHE Symp. 71, pp.176-182.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.