XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1633
Hackl, R.P., Dreisinger, D.B., Peters, E. and King, J.A.,
1995. Passivation of chalcopyrite during oxidative
leaching in sulfate media. Hydrometallurgy, 39, 25–48.
Holmes, P.R., Crundwell, F.K., 2013. Polysulfides do
not cause passivation: Results from the dissolution
of pyrite and implications for other sulfide minerals.
Hydrometallurgy, 139, pp. 101–110.
McMillan, R.S., MacKinnon, D.J. and Dutrizac, J.E.,
1982. Anodic dissolution of n-type and p-type chalco-
pyrite. J. App. Electrochem., 12, 743–757.
Nicol, M.J., 2016. Photocurrents at chalcopyrite and pyrite
electrodes under leaching conditions. Hydromet., 163,
104–107.
O’Connor, G.M., 2019. Fundamentals of Chalcopyrite
Dissolution in Alkaline Glycine Solutions. PhD thesis,
Curtin University.
Oguchi, T., Sato, K., Teranishi, T., 1980. Optical reflectiv-
ity spectrum of a CuFeS2 single crystal. J. Phys Soc.
Japan, 48, 123–128.
Parker, A.J., Paul, R.L., Power, G.P., 1981. Electrochemical
Aspects of leaching of copper from chalcopyrite in fer-
ric and cupric salt solutions. Aust. J. Chem. 34, 13–34.
Peters, E. 1984. Electrochemical methods for decom-
posing sulphide minerals. In Richardson, P.E., (edi-
tors) Proceedings of the international Symposium on
Electrochemistry in Mineral and Metal Processing. The
Electrochemical Society, Pennington, VA.
Piao, S.Y., Tozawa, K., 1985. Effect of iron content in
zinc suphide concentrates on zinc extraction. J. Min.
Metall. Inst. Japan, 101, 795.
Pinches, A., Myburgh, P.J., van der Merwe, C., 1997.
Process for the rapid leaching of chalcopyrite in the
absence of catalysts. US Patent US6277341B1.
Roberts, H.S., Adams, L.H., 1922. The use of minerals as
radio-detectors Am Min 7, 131–136.
Tossell, J.A., 1982. Electronic structure of chalcopyrite. J.
Chem. Physics, 77, 77–82.
Vaughan, D.J., Rosso, K.M., 2006. Chemical bond-
ing in sulphide minerals. Reviews in Mineralogy and
Geochemistry. 61, pp. 231–264
Vaughan, D.J., Tossell, J.A., 1980. The chemical bond and
the properties of sulfide minerals. Can. Mineral. 18,
157–163.
Warren, G.W., Wadsworth, M.E. and El-Raghy, S.M.,
1982. Passive and transpassive anodic behavior of
chalcopyrite in acid solutions. Metall. Trans. B, 13,
571–579.
Weisener, C.G., Smart, R.StC., Gerson, A.R., 2003.
Kinetics and mechanisms of the leaching of low Fe
Sphalerite. Geochim Cosmochim. Acta, 67, 823–830.
Wherry, E.T., 1925. Radio detector minerals. Am. Mineral.,
10, 28–31.
Hackl, R.P., Dreisinger, D.B., Peters, E. and King, J.A.,
1995. Passivation of chalcopyrite during oxidative
leaching in sulfate media. Hydrometallurgy, 39, 25–48.
Holmes, P.R., Crundwell, F.K., 2013. Polysulfides do
not cause passivation: Results from the dissolution
of pyrite and implications for other sulfide minerals.
Hydrometallurgy, 139, pp. 101–110.
McMillan, R.S., MacKinnon, D.J. and Dutrizac, J.E.,
1982. Anodic dissolution of n-type and p-type chalco-
pyrite. J. App. Electrochem., 12, 743–757.
Nicol, M.J., 2016. Photocurrents at chalcopyrite and pyrite
electrodes under leaching conditions. Hydromet., 163,
104–107.
O’Connor, G.M., 2019. Fundamentals of Chalcopyrite
Dissolution in Alkaline Glycine Solutions. PhD thesis,
Curtin University.
Oguchi, T., Sato, K., Teranishi, T., 1980. Optical reflectiv-
ity spectrum of a CuFeS2 single crystal. J. Phys Soc.
Japan, 48, 123–128.
Parker, A.J., Paul, R.L., Power, G.P., 1981. Electrochemical
Aspects of leaching of copper from chalcopyrite in fer-
ric and cupric salt solutions. Aust. J. Chem. 34, 13–34.
Peters, E. 1984. Electrochemical methods for decom-
posing sulphide minerals. In Richardson, P.E., (edi-
tors) Proceedings of the international Symposium on
Electrochemistry in Mineral and Metal Processing. The
Electrochemical Society, Pennington, VA.
Piao, S.Y., Tozawa, K., 1985. Effect of iron content in
zinc suphide concentrates on zinc extraction. J. Min.
Metall. Inst. Japan, 101, 795.
Pinches, A., Myburgh, P.J., van der Merwe, C., 1997.
Process for the rapid leaching of chalcopyrite in the
absence of catalysts. US Patent US6277341B1.
Roberts, H.S., Adams, L.H., 1922. The use of minerals as
radio-detectors Am Min 7, 131–136.
Tossell, J.A., 1982. Electronic structure of chalcopyrite. J.
Chem. Physics, 77, 77–82.
Vaughan, D.J., Rosso, K.M., 2006. Chemical bond-
ing in sulphide minerals. Reviews in Mineralogy and
Geochemistry. 61, pp. 231–264
Vaughan, D.J., Tossell, J.A., 1980. The chemical bond and
the properties of sulfide minerals. Can. Mineral. 18,
157–163.
Warren, G.W., Wadsworth, M.E. and El-Raghy, S.M.,
1982. Passive and transpassive anodic behavior of
chalcopyrite in acid solutions. Metall. Trans. B, 13,
571–579.
Weisener, C.G., Smart, R.StC., Gerson, A.R., 2003.
Kinetics and mechanisms of the leaching of low Fe
Sphalerite. Geochim Cosmochim. Acta, 67, 823–830.
Wherry, E.T., 1925. Radio detector minerals. Am. Mineral.,
10, 28–31.