3034 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Scholarships (MRS) and Research Training Programme
Scholarships (RTPS) provided by the University of
Melbourne. The authors are grateful to CSIRO Mineral
Resources, Clayton, Victoria, Australia, for accessing their
laboratories and facilities.
REFERENCES
Bhambhani, T., Farinato, R., Nagaraj, D. R., &
Somasundaran, P. (2023). Effect of platy gangue min-
erals in sulfide flotation: Part I-transport rates. Minerals
Engineering,201.doi:10.1016/j.mineng.2023.108185.
Farrokhpay, S., Ndlovu, B., &Bradshaw, D. (2018).
Behavior of talc and mica in copper ore flotation. Applied
Clay Science, 160. doi: 10.1016/j.clay.2018.02.011.
Forssberg, E., Sundberg, S., &Hongxin, Z. (1988).
Influence of different grinding methods on floatabil-
ity. International Journal of Mineral Processing, 22(1–4).
doi: 10.1016/0301-7516(88)90063-4.
Hiçyilmaz, C., Ulusoy, U., &Yekeler, M. (2004). Effects of
the shape properties of talc and quartz particles on the
wettability based separation processes. Applied Surface
Science, 233(1–4). doi: 10.1016/j.apsusc.2004.03.209.
Holland, H. J., &Murtagh, M. J. (2000). An XRD mor-
phology index for talcs: The effext of particle size and
morphology on the specific surface area. JCPDS-
International Centre for Diffraction Data 2000, Abvances
in X-Ray Analysis, 42(C).
Little, L., Becker, M., Wiese, J., &Mainza, A. N. (2015).
Auto-SEM particle shape characterisation: Investigating
fine grinding of UG2 ore. Minerals Engineering, 82.
doi: 10.1016/j.mineng.2015.03.021.
Nalaskowski, J., Abdul, B., Du, H., &Miller, J. D. (2007).
Anisotropic character of talc surfaces as revealed by
streaming potential measurements, atomic force
microscopy, molecular dynamics simulations and
contact angle measurements. Canadian Metallurgical
Quarterly, 46(3). doi: 10.1179/cmq.2007.46.3.227.
Tarasevich, Y. I., &Aksenenko, E. V. (2014).
Hydrophobicity of talc basal surface. Colloid Journal,
76(4). doi: 10.1134/S1061933X14040140.
Triffett, B., &Bradshaw, D. (2008). The role of morphol-
ogy and host rock lithology on the flotation behaviour
of molybdenite at Kennecott Utah Copper. Australasian
Institute of Mining and Metallurgy Publication Series.
Ulusoy, U. (2023). A Review of Particle Shape Effects
on Material Properties for Various Engineering
Applications: From Macro to Nanoscale. In Minerals
(Vol. 13, Issue 1). doi: 10.3390/min13010091.
Ulusoy, U., &Kursun, I. (2011). Comparison of differ-
ent 2D image analysis measurement techniques for
the shape of talc particles produced by different media
milling. Minerals Engineering, 24(2). doi: 10.1016
/j.mineng.2010.05.011.
Verrelli, D. I., Bruckard, W. J., Koh, P. T. L., Schwarz, M. P.,
&Follink, B. (2014). Particle shape effects in flotation.
Part 1: Microscale experimental observations. Minerals
Engineering, 58. doi: 10.1016/j.mineng.2014.01.004.
Wiese, J., Becker, M., Yorath, G., &O’Connor, C. (2015).
An investigation into the relationship between particle
shape and entrainment. Minerals Engineering, 83. doi:
10.1016/j.mineng.2015.09.012.
Xia, W. (2017). Role of particle shape in the floatability
of mineral particle: An overview of recent advances.
In Powder Technology (Vol. 317). doi: 10.1016
/j.powtec.2017.04.050
Scholarships (MRS) and Research Training Programme
Scholarships (RTPS) provided by the University of
Melbourne. The authors are grateful to CSIRO Mineral
Resources, Clayton, Victoria, Australia, for accessing their
laboratories and facilities.
REFERENCES
Bhambhani, T., Farinato, R., Nagaraj, D. R., &
Somasundaran, P. (2023). Effect of platy gangue min-
erals in sulfide flotation: Part I-transport rates. Minerals
Engineering,201.doi:10.1016/j.mineng.2023.108185.
Farrokhpay, S., Ndlovu, B., &Bradshaw, D. (2018).
Behavior of talc and mica in copper ore flotation. Applied
Clay Science, 160. doi: 10.1016/j.clay.2018.02.011.
Forssberg, E., Sundberg, S., &Hongxin, Z. (1988).
Influence of different grinding methods on floatabil-
ity. International Journal of Mineral Processing, 22(1–4).
doi: 10.1016/0301-7516(88)90063-4.
Hiçyilmaz, C., Ulusoy, U., &Yekeler, M. (2004). Effects of
the shape properties of talc and quartz particles on the
wettability based separation processes. Applied Surface
Science, 233(1–4). doi: 10.1016/j.apsusc.2004.03.209.
Holland, H. J., &Murtagh, M. J. (2000). An XRD mor-
phology index for talcs: The effext of particle size and
morphology on the specific surface area. JCPDS-
International Centre for Diffraction Data 2000, Abvances
in X-Ray Analysis, 42(C).
Little, L., Becker, M., Wiese, J., &Mainza, A. N. (2015).
Auto-SEM particle shape characterisation: Investigating
fine grinding of UG2 ore. Minerals Engineering, 82.
doi: 10.1016/j.mineng.2015.03.021.
Nalaskowski, J., Abdul, B., Du, H., &Miller, J. D. (2007).
Anisotropic character of talc surfaces as revealed by
streaming potential measurements, atomic force
microscopy, molecular dynamics simulations and
contact angle measurements. Canadian Metallurgical
Quarterly, 46(3). doi: 10.1179/cmq.2007.46.3.227.
Tarasevich, Y. I., &Aksenenko, E. V. (2014).
Hydrophobicity of talc basal surface. Colloid Journal,
76(4). doi: 10.1134/S1061933X14040140.
Triffett, B., &Bradshaw, D. (2008). The role of morphol-
ogy and host rock lithology on the flotation behaviour
of molybdenite at Kennecott Utah Copper. Australasian
Institute of Mining and Metallurgy Publication Series.
Ulusoy, U. (2023). A Review of Particle Shape Effects
on Material Properties for Various Engineering
Applications: From Macro to Nanoscale. In Minerals
(Vol. 13, Issue 1). doi: 10.3390/min13010091.
Ulusoy, U., &Kursun, I. (2011). Comparison of differ-
ent 2D image analysis measurement techniques for
the shape of talc particles produced by different media
milling. Minerals Engineering, 24(2). doi: 10.1016
/j.mineng.2010.05.011.
Verrelli, D. I., Bruckard, W. J., Koh, P. T. L., Schwarz, M. P.,
&Follink, B. (2014). Particle shape effects in flotation.
Part 1: Microscale experimental observations. Minerals
Engineering, 58. doi: 10.1016/j.mineng.2014.01.004.
Wiese, J., Becker, M., Yorath, G., &O’Connor, C. (2015).
An investigation into the relationship between particle
shape and entrainment. Minerals Engineering, 83. doi:
10.1016/j.mineng.2015.09.012.
Xia, W. (2017). Role of particle shape in the floatability
of mineral particle: An overview of recent advances.
In Powder Technology (Vol. 317). doi: 10.1016
/j.powtec.2017.04.050