REDUCCIÓN CARBOTÉRMICA DE
SULFUROS METÁLICOS
V. BIBLIOGRAFÍA
1. R. E. Cech and T. D. Tieman (1969). "The hydrogen reduction of copper, nickel,
cobalt and iron sulfides and the formation of filamentary metals". Trans. AIME,
245:1727-1733.
2. F. Habashi and R. Dugdale (1973). "The reduction of sulfide minerals by hydrogen
in the presence of lime". Metall. Trans., 4: 1867-1871.
3. M. C. Bronson and H. Y. Sohn (1983). "The carbothermal reduction of nickel sulfide
in the presence of lime". Metall Trans., 14B: 605-615.
4. U. 0. Igiehon, B. S. Terry and P. Grieveson (1992). Carbothermic reduction of antimony
sulfide".
Trans, Inst. Min. and Metall, Sect. C, 101, C144C154.
5. T. R. Mankhand and R M. Prasad (1982). "Limeenhanced hydrogen reduction of
molydenite". Metall Trans. B.; vol. 1313: 275-282.
6. R. Padilla, M. C. Ruiz and H. Y. Sohn (1997). "Reduction of molybdenite with
carbon in the presence of lime" Metall Mater. Trans., 28B: 265-274.
7. N. Machengewuta, A. 3ha and P. Grieveson (1989). "Mechanism of carbothermic
reduction of nickel sulfide minerals in the presence of lime". Scand. 3. Metall, 18:
81-88.
8. M. K. Mohan, Y. K. Mankhand and P. M. Prasad (1987). "Lime-enhanced carbon
monoxide reduction of chalcocite". Metall Trans., 1813: 719-725.
9. M. Moinpour and Y. K. Rao (1989). "The reduction of copper sulfide with CO-CO2-H2,
gas mixtures in the presence of CaO". The AusIMM Bulletin and Proceedings, Vol. 294:
63-72.
10. A. Jha, P Grieveson and J. H. E. Jeffes (1989). "An investigation on the
carbothermic reduction of copper sulfide minerals: Kinetic and thermodynamic
considerations" Scand. 3. Metall., 18: 31-34.
11. R. Padilla and M.C. Ruiz (1999). Kinetic study on the hme-enhanced reduction of
chalcocite". EPID Congress 1999, TMS, Warrendale, PA, USA: 39-49.
12. R. Padilla and H.Y. Sohn (1979). "The reduction of stannic oxide with
carbon". Metall. Trans. 8, vol.1013:109-15.
13. YK.Rao and S.K. El-Rahaiby (1989). Met. Trans.S, 1985, vol. SB, pp. 465-75.
14. Y.K.Rao: Metall Trans., 1971, vol. 2, pp.1439-47.
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