XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2377
Huai, Y., and Peng, Y., 2020. The formation of iron sul-
phide on oxidised pyrite during sulphidisation and
subsequent interactions with xanthate. Miner Eng
157:106564.
Huai, Y., Qian, Y., and Peng, Y., 2020. Re-evaluating the
sulphidisation reaction on malachite surface through
electrochemical and cryo XPS studies. Appl Surf Sci
531:147334.
Kappes, R., Meikle, J., 2013. The application of Controlled
Potential Sulfidization to Oxidized Copper Sulphide
Ores. In Flotation 13. Cape Town.
Mu, Y., Li, L., and Peng, Y., 2017. Surface properties of
fractured and polished pyrite in relation to flotation.
Miner Eng 101:10–19.
Orwe, D., Grano, S.R., and Lauder, D.W., 1998. Increasing
fine copper recovery at the Ok Tedi concentrator, Papua
New Guinea. Miner Eng 11(2):171–187.
Peng, Y., Wang, B., and Gerson, A., 2012. The effect of
electrochemical potential on the activation of pyrite
by copper and lead ions during grinding. Int J Miner
Process 102–103:141–149.
Ralston, J., 1991. Eh and its consequences in sulphide min-
eral flotation. Miner Eng 4 (7–11):859–878.
Richardson, P.E., and Walker, G.W., 1985 The flotation of
chalcocite, bornite, chalcopyrite, and pyrite in an elec-
trochemical-flotation cell. In Int Miner Process Congr.
p. 198.
von Oertzen, G.U., Skinner, W.M., Nesbitt, H.W., Pratt,
A.R., and Buckley, A.N., 2007. Cu adsorption on
pyrite (100): Ab initio and spectroscopic studies. Surf
Sci 601(24):5794–5799.
Zhou, R., and Chander, S., 1993. Kinetics of sulfidization
of malachite in hydrosulphide and tetrasulphide solu-
tions. Int J Miner Process 37(3–4): 257–272.
Previous Page Next Page

Extracted Text (may have errors)

XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2377
Huai, Y., and Peng, Y., 2020. The formation of iron sul-
phide on oxidised pyrite during sulphidisation and
subsequent interactions with xanthate. Miner Eng
157:106564.
Huai, Y., Qian, Y., and Peng, Y., 2020. Re-evaluating the
sulphidisation reaction on malachite surface through
electrochemical and cryo XPS studies. Appl Surf Sci
531:147334.
Kappes, R., Meikle, J., 2013. The application of Controlled
Potential Sulfidization to Oxidized Copper Sulphide
Ores. In Flotation 13. Cape Town.
Mu, Y., Li, L., and Peng, Y., 2017. Surface properties of
fractured and polished pyrite in relation to flotation.
Miner Eng 101:10–19.
Orwe, D., Grano, S.R., and Lauder, D.W., 1998. Increasing
fine copper recovery at the Ok Tedi concentrator, Papua
New Guinea. Miner Eng 11(2):171–187.
Peng, Y., Wang, B., and Gerson, A., 2012. The effect of
electrochemical potential on the activation of pyrite
by copper and lead ions during grinding. Int J Miner
Process 102–103:141–149.
Ralston, J., 1991. Eh and its consequences in sulphide min-
eral flotation. Miner Eng 4 (7–11):859–878.
Richardson, P.E., and Walker, G.W., 1985 The flotation of
chalcocite, bornite, chalcopyrite, and pyrite in an elec-
trochemical-flotation cell. In Int Miner Process Congr.
p. 198.
von Oertzen, G.U., Skinner, W.M., Nesbitt, H.W., Pratt,
A.R., and Buckley, A.N., 2007. Cu adsorption on
pyrite (100): Ab initio and spectroscopic studies. Surf
Sci 601(24):5794–5799.
Zhou, R., and Chander, S., 1993. Kinetics of sulfidization
of malachite in hydrosulphide and tetrasulphide solu-
tions. Int J Miner Process 37(3–4): 257–272.

Help

loading