8
Chipakwe, V., Semsari, P., Karlkvist, T., Rosenkranz, J.,
and Chelgani, S.C. (2020). “A critical review on the
mechanisms of chemical additives used in grinding and
their effects on the downstream processes,” Journal of
Materials Research and Technology, 9, pp. 8148–8162.
Chipakwe, V., Karlkvist, T., Rosenkranz, J., and
Chelgani, S.C. (2022). “Beneficial effects of a polysac-
charide-based grinding aid on magnetite flotation: a
green approach,” Scientific Reports, 12, pg. 6502.
Claremboux, V., and Kawatra, S.K., 2022. “Iron ore pellet-
ization: Part I. Fundamentals,” Mineral Processing and
Extractive Metallurgy Review, 43(4), pp. 529–544.
Da Cruz, D.G., Gonçalves, P.S.M., Lelis, D.F., and
Lima, R.M.F. (2021). “Effect of Ca2+ and Mg2+ ions
on the reverse cationic flotation of itabiritic iron ore,”
HOLOS, 37(3), pp. 1–11.
Dauce, P.D., de Castro, G.B., Lima, M.M.F., and
Lima, R.M.F., (2019). “Characterisation and magnetic
concentration of an iron ore tailings,” Journal of Materials
Research and Technology, 8(1), pp. 1052–1059.
Eisele, T.C. and Kawatra, S.K., 2003. “A review of bind-
ers in iron ore pelletization,” Mineral Processing and
Extractive Metallurgy Review, 24(1), pp. 1–90.
Green, R.E. and Colombo, A.F. (1984). “Dispersion-
Selective Flocculation-Desliming Characteristics of
Oxidized Taconites,” Bureau of Mines Report of
Investigations.
Halt, J.A., and Kawatra, S.K., (2017). “Does the Zeta
Potential of an Iron Ore Concentrate Affect the
Strength and Dustiness of Unfired and Fired Pellets?”
Mineral Processing and Extractive Metallurgy Review,
38(2), pp. 132–141.
Haselhuhn, H.J., Carlson, J.J. and Kawatra, S.K., (2012).
“Water chemistry analysis of an industrial selective
flocculation dispersion hematite ore concentrator
plant,” International Journal of Mineral Processing, 112,
pp. 107–109.
Haselhuhn, H.J. and Kawatra, S.K., (2015a). “Effect of
water chemistry on hematite selective flocculation
and dispersion,” Mineral Processing and Extractive
Metallurgy Review, 36(5), pp. 305–309.
Haselhuhn, H.J. and Kawatra, S.K., (2015b). “Role of
water chemistry in the selective flocculation and dis-
persion of iron ore,” Mining, Metallurgy &Exploration,
32(2), pp. 69–77.
Haselhuhn, H.J. and Kawatra, S.K. (2015c). “Flocculation
and dispersion studies of iron ore using laser scatter-
ing particle size analysis,” Minerals &Metallurgical
Processing, 32(4), pp. 191–195.
Jankovic, A., (2015). “Developments in iron ore com-
minution and classification technologies” Iron Ore –
Mineralogy, Processing and Environmental Sustainability,
pp. 251–282.
Kawatra, S.K. and Ripke, S.J., (2002). “Laboratory studies
for improving green ball strength in bentonite-bonded
magnetite concentrate pellets,” International Journal of
Mineral Processing, 72(1–4), pp. 429–441.
Klimpel, R.R. and Austin, L.G. (1982). “Chemical addi-
tives for wet grinding of minerals,” Powder Technology,
31(2), pp. 239–253.
McDonald, J.E.D., and Kawatra, S.K. (2017).
“Aggloemration of hematite concentrate by starches,”
Mineral Processing and Extractive Metallurgy Review,
38(1), pp. 1–6.
Parra-Álvarez, N., Claremboux, V., and Kawatra, S.K.,
(2020). 2020 SME Annual Conference and Expo.
Parra-Álvarez, N., Haselhuhn, J., Claremboux, V., and
Kawatra, S.K., (2023). “Specifically Adsorbed Ions in
the Reverse Cationic Flotation of Iron Ore,” Mineral
Processing and Extractive Metallurgy Review, 44(1),
pp. 13–21.
Peres, A.E.C., and Correa, M.I., (1996). “Depression of
iron oxides with corn starches,” Minerals Engineering,
9(12), PP. 1227–1234.
Ripke, S.J., and Kawatra, S.K., (2000). “Can fly-ash
extend bentonite binder for iron ore agglomeration?”
International Journal of Mineral Processing, 60(3–4),
pp. 181–198.
Rodrigues, S.R.R., Correa de Araujo, A., de Oliveira, F.J.
(2008). “Frother assisted amine flotation of iron ores,”
2nd International Iron Symposium.
Shao, A., (2013). “Flotation separation of Donganshan
carbonates-containing hematite ore,” Journal of Central
South University: Science and Technology, 2, pp. 456–
460 (in Chinese).
Sivrikaya, O., Arol, A.I., Eisele, T.C., and Kawatra, S.K.,
(2012). “The effect of calcined colemanite addition on
the mechanical strength of magnetite pellets produced
with organic binders,” Mineral Processing and Extractive
Metallurgy Review, 34(4), pp. 210–222.
Suardini, P.K., (1994). “Analysis of the behavior of iron ore
and coal flotation circuits.” Thesis for the Degree of
M.S., Michigan Technological University, pp. 243.
USGS, (2024). “Iron Ore,” Mineral Commodity
Summaries, U.S. Geological Survey, pp. 100–101.
Van der Meer, F.P., (2015). “Pellet feed grinding by HPGR,”
Minerals Engineering, 73, pp. 21–30.
Chipakwe, V., Semsari, P., Karlkvist, T., Rosenkranz, J.,
and Chelgani, S.C. (2020). “A critical review on the
mechanisms of chemical additives used in grinding and
their effects on the downstream processes,” Journal of
Materials Research and Technology, 9, pp. 8148–8162.
Chipakwe, V., Karlkvist, T., Rosenkranz, J., and
Chelgani, S.C. (2022). “Beneficial effects of a polysac-
charide-based grinding aid on magnetite flotation: a
green approach,” Scientific Reports, 12, pg. 6502.
Claremboux, V., and Kawatra, S.K., 2022. “Iron ore pellet-
ization: Part I. Fundamentals,” Mineral Processing and
Extractive Metallurgy Review, 43(4), pp. 529–544.
Da Cruz, D.G., Gonçalves, P.S.M., Lelis, D.F., and
Lima, R.M.F. (2021). “Effect of Ca2+ and Mg2+ ions
on the reverse cationic flotation of itabiritic iron ore,”
HOLOS, 37(3), pp. 1–11.
Dauce, P.D., de Castro, G.B., Lima, M.M.F., and
Lima, R.M.F., (2019). “Characterisation and magnetic
concentration of an iron ore tailings,” Journal of Materials
Research and Technology, 8(1), pp. 1052–1059.
Eisele, T.C. and Kawatra, S.K., 2003. “A review of bind-
ers in iron ore pelletization,” Mineral Processing and
Extractive Metallurgy Review, 24(1), pp. 1–90.
Green, R.E. and Colombo, A.F. (1984). “Dispersion-
Selective Flocculation-Desliming Characteristics of
Oxidized Taconites,” Bureau of Mines Report of
Investigations.
Halt, J.A., and Kawatra, S.K., (2017). “Does the Zeta
Potential of an Iron Ore Concentrate Affect the
Strength and Dustiness of Unfired and Fired Pellets?”
Mineral Processing and Extractive Metallurgy Review,
38(2), pp. 132–141.
Haselhuhn, H.J., Carlson, J.J. and Kawatra, S.K., (2012).
“Water chemistry analysis of an industrial selective
flocculation dispersion hematite ore concentrator
plant,” International Journal of Mineral Processing, 112,
pp. 107–109.
Haselhuhn, H.J. and Kawatra, S.K., (2015a). “Effect of
water chemistry on hematite selective flocculation
and dispersion,” Mineral Processing and Extractive
Metallurgy Review, 36(5), pp. 305–309.
Haselhuhn, H.J. and Kawatra, S.K., (2015b). “Role of
water chemistry in the selective flocculation and dis-
persion of iron ore,” Mining, Metallurgy &Exploration,
32(2), pp. 69–77.
Haselhuhn, H.J. and Kawatra, S.K. (2015c). “Flocculation
and dispersion studies of iron ore using laser scatter-
ing particle size analysis,” Minerals &Metallurgical
Processing, 32(4), pp. 191–195.
Jankovic, A., (2015). “Developments in iron ore com-
minution and classification technologies” Iron Ore –
Mineralogy, Processing and Environmental Sustainability,
pp. 251–282.
Kawatra, S.K. and Ripke, S.J., (2002). “Laboratory studies
for improving green ball strength in bentonite-bonded
magnetite concentrate pellets,” International Journal of
Mineral Processing, 72(1–4), pp. 429–441.
Klimpel, R.R. and Austin, L.G. (1982). “Chemical addi-
tives for wet grinding of minerals,” Powder Technology,
31(2), pp. 239–253.
McDonald, J.E.D., and Kawatra, S.K. (2017).
“Aggloemration of hematite concentrate by starches,”
Mineral Processing and Extractive Metallurgy Review,
38(1), pp. 1–6.
Parra-Álvarez, N., Claremboux, V., and Kawatra, S.K.,
(2020). 2020 SME Annual Conference and Expo.
Parra-Álvarez, N., Haselhuhn, J., Claremboux, V., and
Kawatra, S.K., (2023). “Specifically Adsorbed Ions in
the Reverse Cationic Flotation of Iron Ore,” Mineral
Processing and Extractive Metallurgy Review, 44(1),
pp. 13–21.
Peres, A.E.C., and Correa, M.I., (1996). “Depression of
iron oxides with corn starches,” Minerals Engineering,
9(12), PP. 1227–1234.
Ripke, S.J., and Kawatra, S.K., (2000). “Can fly-ash
extend bentonite binder for iron ore agglomeration?”
International Journal of Mineral Processing, 60(3–4),
pp. 181–198.
Rodrigues, S.R.R., Correa de Araujo, A., de Oliveira, F.J.
(2008). “Frother assisted amine flotation of iron ores,”
2nd International Iron Symposium.
Shao, A., (2013). “Flotation separation of Donganshan
carbonates-containing hematite ore,” Journal of Central
South University: Science and Technology, 2, pp. 456–
460 (in Chinese).
Sivrikaya, O., Arol, A.I., Eisele, T.C., and Kawatra, S.K.,
(2012). “The effect of calcined colemanite addition on
the mechanical strength of magnetite pellets produced
with organic binders,” Mineral Processing and Extractive
Metallurgy Review, 34(4), pp. 210–222.
Suardini, P.K., (1994). “Analysis of the behavior of iron ore
and coal flotation circuits.” Thesis for the Degree of
M.S., Michigan Technological University, pp. 243.
USGS, (2024). “Iron Ore,” Mineral Commodity
Summaries, U.S. Geological Survey, pp. 100–101.
Van der Meer, F.P., (2015). “Pellet feed grinding by HPGR,”
Minerals Engineering, 73, pp. 21–30.