8
Processors Conference Proceedings, pp 74–85,
Ottawa, Canada, 2017, Office of the Secretary of the
Canadian Mineral Processors, a Technical Society of
The Canadian Institute of Mining, Metallurgy and
Petroleum (CIM).
[14] Lane, G., Dakin, P., Stephenson1, D., Johnston, A.
and Granados, H. (2015). The Comminution Circuit
Design for The Constancia Project. In Proceedings
SAG 2015. Sixth International Conference on
Semiautogenous and High-Pressure Grinding
Technology, Vancouver, 20–24 September 2015.
[15] Lara, L, Bueno, M and Delboni, H. (2024).
Relationship between the number of tested sam-
ples and SAG milling capacity variability estima-
tion. Procemin 2024 – 20th International Mineral
Processing Seminar (pp. 415–421). Santiago:
Gecamin.
[16] Morrell, S. (2004). Predicting the specific energy of
autogenous and semi-autogenous mills from small
diameter drill core samples. Minerals Engineering
17(3): 447–451.
[17] Morrell, S. (2019). How to Formulate an Effective
Ore Comminution Characterization Program. In
Proceedings of the MetPlant, Perth, WA, Australia,
10–11 September 2019 The Australasian Institute of
Mining and Metallurgy: Melbourne, VC, Australia,
2019 p. 5175.
[18] Napier-Munn, T., Morrell, S., Morrison, R. and
Kojovic, T. (1996). Mineral Comminution Circuits:
Their Operation and Optimisation, first ed. Julius
Kruttschnitt Mineral Research Centre, Indooroopilly,
Australia.
[19] Staples, P., Lane, G., Braun, R., Foggiatto, B.
and Bueno, M. P. Are SAG Mills Losing Market
Confidence? In Proceedings SAG 2015. Sixth
International Conference on Semiautogenous
and High-Pressure Grinding Technology, 20‑24
September 2015.
[20] Starkey, J., Dobby, G. and Kosick, G. (1994). A new
tool for hardness testing. Proceedings of the 26th
Annual Meeting of the Canadian Mineral Processors,
Ottawa, Canada.
Processors Conference Proceedings, pp 74–85,
Ottawa, Canada, 2017, Office of the Secretary of the
Canadian Mineral Processors, a Technical Society of
The Canadian Institute of Mining, Metallurgy and
Petroleum (CIM).
[14] Lane, G., Dakin, P., Stephenson1, D., Johnston, A.
and Granados, H. (2015). The Comminution Circuit
Design for The Constancia Project. In Proceedings
SAG 2015. Sixth International Conference on
Semiautogenous and High-Pressure Grinding
Technology, Vancouver, 20–24 September 2015.
[15] Lara, L, Bueno, M and Delboni, H. (2024).
Relationship between the number of tested sam-
ples and SAG milling capacity variability estima-
tion. Procemin 2024 – 20th International Mineral
Processing Seminar (pp. 415–421). Santiago:
Gecamin.
[16] Morrell, S. (2004). Predicting the specific energy of
autogenous and semi-autogenous mills from small
diameter drill core samples. Minerals Engineering
17(3): 447–451.
[17] Morrell, S. (2019). How to Formulate an Effective
Ore Comminution Characterization Program. In
Proceedings of the MetPlant, Perth, WA, Australia,
10–11 September 2019 The Australasian Institute of
Mining and Metallurgy: Melbourne, VC, Australia,
2019 p. 5175.
[18] Napier-Munn, T., Morrell, S., Morrison, R. and
Kojovic, T. (1996). Mineral Comminution Circuits:
Their Operation and Optimisation, first ed. Julius
Kruttschnitt Mineral Research Centre, Indooroopilly,
Australia.
[19] Staples, P., Lane, G., Braun, R., Foggiatto, B.
and Bueno, M. P. Are SAG Mills Losing Market
Confidence? In Proceedings SAG 2015. Sixth
International Conference on Semiautogenous
and High-Pressure Grinding Technology, 20‑24
September 2015.
[20] Starkey, J., Dobby, G. and Kosick, G. (1994). A new
tool for hardness testing. Proceedings of the 26th
Annual Meeting of the Canadian Mineral Processors,
Ottawa, Canada.