XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2461
Dowling, S., Barnes, S.J., Hill, R. and Hicks, J., 2004.
Komatiites and nickel sulfide ores of the Black Swan
area, Yilgarn Craton, Western Australia. 2: Geology
and genesis of the orebodies, Miner. Depos. 39(7),
707–728.
Grguric B.A., Rosengren N.M., Fletcher C.M., Hronsky
J.M.A, 2006. Type 2 deposits: geology, mineralogy,
and processing of the Mount Keith and Yakabindie
orebodies, Western Australia. Nickel Depos.
Yilgarn Craton.: Geol., Geochem., Geophys. Appl.
Explor. 2006 13:119–138.
Guy, P.J. and Trahar, W.J., 1984. The influence of grind-
ing and flotation environments on the laboratory batch
flotation of galena, Int. J. Miner. Process. 12:15–38.
Guy, P.J. and Trahar, W.J., 1985. The effects of oxidation and
mineral interaction on sulphide flotation, In Flotation
of Sulphide Minerals (Editor: K. S. E. Forssberg), pp. 91
– 110 (Elsevier, New York).
Harris, D.C., and Nickel, E.H., 1972. Pentlandite compo-
sitions and associations in some mineral deposits, The
Canadian Mineralogist 11(4), 861–878.
Heyes, G.W. and Trahar, W.J., 1977. The natural flotability
of chalcopyrite, Int. J. Miner. Process. 4:317–344.
Heyes, G.W. and Trahar, W.J., 1979. Oxidation-reduction
effects in the flotation of chalcocite and cuprite, Int. J.
Miner. Process. 6:229–252.
Keele, R. and Nickel, E., 1974. The geology of a primary
millerite-bearing sulfide assemblage and supergene
alteration at the Otter Shoot, Kambalda, Western
Australia, Econ. Geol. 69(7), 1102–1117.
Kelsall, D.F., Restarick, C.J. and Stewart, P.S.B., 1974.
Technical note on an improved cyclosizing technique.
Proc. Australas. Inst. Min. Metall. 251: 9–10.
Light, T.S., 1972. Standard solution for redox potential
measurement. Anal. Chem. 48 1038–1039.
Pyke, B., Senior, G.D., Thomas, S., inventor(s) WMC
Resources Ltd, assignee. Recovery of valuable metals.
US Patent 7753212B2. Filed September 16th, 2003.
Ralston, J., 1991. Eh and its consequences in sulphide min-
eral flotation. Miner. Eng. 4(7–11), 859–878.
Ruonal, M., Heimala, S., and Jounela, S., 1997. Different
aspects of using electrochemical potential measure-
ments in mineral processing, Int. J. Miner. Process.
51(1–4), 97–110.
Senior, G.D., Shannon, L.K., and Trahar, W.J., 1994. The
flotation of pentlandite from pyrrhotite with particular
reference to the effects of particle size. Int. J. Miner.
Process. 42, 169–190.
Senior, G.D. and Ahveninen, R.I., inventor(s) BHP
Billiton Nickel West Pty Ltd, assignee. Separation of
minerals. US Patent 6170669B1. Filed June 30th,
1998.
Senior, G.D., Guy, P.J. and Bruckard, W.J., 2006. The selec-
tive flotation of enargite from other copper minerals—
a single mineral study in relation to beneficiation of
the Tampakan deposit in the Philippines. Int. J. Miner.
Process. 81, 15–26.
Senior, G.D., Pyke, B. and Judd, B., inventor(s) BHP
Billiton SSM Development Pty Ltd, assignee. Processing
nickel bearing sulphides. US Patent 9028782B2. Filed
January 9th, 2009.
Senior, G.D., Smith, L.K., Silvester, E. and Bruckard, W.J.,
2009. The flotation of gersdorffite in sulphide nickel
systems—A single mineral study. Int. J. Miner. Process.
93, 165–171.
Shean and Cilliers, 2011. A review of froth flotation con-
trol. Int. J. Miner. Process. 100(3–4), 57–71.
Smith, L.K., Senior, G.D., Bruckard, W.J. and Davey,
K.J., 2011. The flotation of millerite – a single mineral
study. Int. J. Miner. Process. 99, 27–31.
Smith, L.K. and Bruckard, W.J., 2007. The separation of
arsenic from copper in a Northparkes copper–gold
ore using controlled-potential flotation. Int. J. Miner.
Process. 84, 15–24.
Smith, L.K., Davey, K.J. and Bruckard, W.J., 2009. The
flotation behaviour of arsenic-bearing minerals in
nickel sulphide flotation systems. In: Enviromine2009:
Proceedings of the first International Seminar on
Environmental Issues in the Mining Industry: 30
September-2 October 2009 (Editors: C. Moran, J.
Wiertz), pp. 31 – 43 (Gecamin, Santiago, Chile).
Smith, L.K., Davey, K.J. and Bruckard, W.J., 2012. The
use of pulp potential control to separate copper and
arsenic – an overview based on selected case studies.
In: XXVI International Mineral Processing Congress
2012 Proceedings, pp. 5057 – 5067 (Indian Institute of
Metals, New Delhi, India).
Trahar, W.J., 1984. The influence of pulp potential in
sulfide flotation, in Principles of Flotation, The Wark
Symposium, (Editors: M H Jones, J T Woodcock),
pp. 117–135 (AusIMM, Melbourne).
Wells, P.F., Agar, G.E., Reynolds, K.O.P., inventor(s) Vale
Canada Limited, assignee. Selective flotation of nickel
sulphide ores. UK Patent 2086768A. Filed March
16th, 1981.
Woods, R., 2003. Electrochemical potential controlling
flotation, Int. J. Miner. Process. 72(1–4), 151–162.
Dowling, S., Barnes, S.J., Hill, R. and Hicks, J., 2004.
Komatiites and nickel sulfide ores of the Black Swan
area, Yilgarn Craton, Western Australia. 2: Geology
and genesis of the orebodies, Miner. Depos. 39(7),
707–728.
Grguric B.A., Rosengren N.M., Fletcher C.M., Hronsky
J.M.A, 2006. Type 2 deposits: geology, mineralogy,
and processing of the Mount Keith and Yakabindie
orebodies, Western Australia. Nickel Depos.
Yilgarn Craton.: Geol., Geochem., Geophys. Appl.
Explor. 2006 13:119–138.
Guy, P.J. and Trahar, W.J., 1984. The influence of grind-
ing and flotation environments on the laboratory batch
flotation of galena, Int. J. Miner. Process. 12:15–38.
Guy, P.J. and Trahar, W.J., 1985. The effects of oxidation and
mineral interaction on sulphide flotation, In Flotation
of Sulphide Minerals (Editor: K. S. E. Forssberg), pp. 91
– 110 (Elsevier, New York).
Harris, D.C., and Nickel, E.H., 1972. Pentlandite compo-
sitions and associations in some mineral deposits, The
Canadian Mineralogist 11(4), 861–878.
Heyes, G.W. and Trahar, W.J., 1977. The natural flotability
of chalcopyrite, Int. J. Miner. Process. 4:317–344.
Heyes, G.W. and Trahar, W.J., 1979. Oxidation-reduction
effects in the flotation of chalcocite and cuprite, Int. J.
Miner. Process. 6:229–252.
Keele, R. and Nickel, E., 1974. The geology of a primary
millerite-bearing sulfide assemblage and supergene
alteration at the Otter Shoot, Kambalda, Western
Australia, Econ. Geol. 69(7), 1102–1117.
Kelsall, D.F., Restarick, C.J. and Stewart, P.S.B., 1974.
Technical note on an improved cyclosizing technique.
Proc. Australas. Inst. Min. Metall. 251: 9–10.
Light, T.S., 1972. Standard solution for redox potential
measurement. Anal. Chem. 48 1038–1039.
Pyke, B., Senior, G.D., Thomas, S., inventor(s) WMC
Resources Ltd, assignee. Recovery of valuable metals.
US Patent 7753212B2. Filed September 16th, 2003.
Ralston, J., 1991. Eh and its consequences in sulphide min-
eral flotation. Miner. Eng. 4(7–11), 859–878.
Ruonal, M., Heimala, S., and Jounela, S., 1997. Different
aspects of using electrochemical potential measure-
ments in mineral processing, Int. J. Miner. Process.
51(1–4), 97–110.
Senior, G.D., Shannon, L.K., and Trahar, W.J., 1994. The
flotation of pentlandite from pyrrhotite with particular
reference to the effects of particle size. Int. J. Miner.
Process. 42, 169–190.
Senior, G.D. and Ahveninen, R.I., inventor(s) BHP
Billiton Nickel West Pty Ltd, assignee. Separation of
minerals. US Patent 6170669B1. Filed June 30th,
1998.
Senior, G.D., Guy, P.J. and Bruckard, W.J., 2006. The selec-
tive flotation of enargite from other copper minerals—
a single mineral study in relation to beneficiation of
the Tampakan deposit in the Philippines. Int. J. Miner.
Process. 81, 15–26.
Senior, G.D., Pyke, B. and Judd, B., inventor(s) BHP
Billiton SSM Development Pty Ltd, assignee. Processing
nickel bearing sulphides. US Patent 9028782B2. Filed
January 9th, 2009.
Senior, G.D., Smith, L.K., Silvester, E. and Bruckard, W.J.,
2009. The flotation of gersdorffite in sulphide nickel
systems—A single mineral study. Int. J. Miner. Process.
93, 165–171.
Shean and Cilliers, 2011. A review of froth flotation con-
trol. Int. J. Miner. Process. 100(3–4), 57–71.
Smith, L.K., Senior, G.D., Bruckard, W.J. and Davey,
K.J., 2011. The flotation of millerite – a single mineral
study. Int. J. Miner. Process. 99, 27–31.
Smith, L.K. and Bruckard, W.J., 2007. The separation of
arsenic from copper in a Northparkes copper–gold
ore using controlled-potential flotation. Int. J. Miner.
Process. 84, 15–24.
Smith, L.K., Davey, K.J. and Bruckard, W.J., 2009. The
flotation behaviour of arsenic-bearing minerals in
nickel sulphide flotation systems. In: Enviromine2009:
Proceedings of the first International Seminar on
Environmental Issues in the Mining Industry: 30
September-2 October 2009 (Editors: C. Moran, J.
Wiertz), pp. 31 – 43 (Gecamin, Santiago, Chile).
Smith, L.K., Davey, K.J. and Bruckard, W.J., 2012. The
use of pulp potential control to separate copper and
arsenic – an overview based on selected case studies.
In: XXVI International Mineral Processing Congress
2012 Proceedings, pp. 5057 – 5067 (Indian Institute of
Metals, New Delhi, India).
Trahar, W.J., 1984. The influence of pulp potential in
sulfide flotation, in Principles of Flotation, The Wark
Symposium, (Editors: M H Jones, J T Woodcock),
pp. 117–135 (AusIMM, Melbourne).
Wells, P.F., Agar, G.E., Reynolds, K.O.P., inventor(s) Vale
Canada Limited, assignee. Selective flotation of nickel
sulphide ores. UK Patent 2086768A. Filed March
16th, 1981.
Woods, R., 2003. Electrochemical potential controlling
flotation, Int. J. Miner. Process. 72(1–4), 151–162.