XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 537
Oshitani, J., Franks, G. V. and Griffin, M. 2010. Dry dense
medium separation of iron ore using a gas–solid fluid-
ized bed. Advanced Powder Technology, 21, 573–577.
Pohl, H. A. 1951. The motion and precipitation of sus-
pensoids in divergent electric fields. Journal of applied
Physics, 22, 869–871.
Pohl, H. A. 1958. Some effects of nonuniform fields on
dielectrics. Journal of Applied Physics, 29, 1182–1188.
Tripathy, S. K., Banerjee, P. K., Suresh, N., et al., 2017.
Dry High-Intensity Magnetic Separation In Mineral
Industry—A Review Of Present Status And Future
Prospects. Mineral Processing and Extractive Metallurgy
Review, 38, 339–365.
Yano, H., Kubota, T., Miyamoto, H., et al., 2006.
Touchdown of the Hayabusa spacecraft at the Muses
Sea on Itokawa. Science, 312, 1350–1353.
Oshitani, J., Franks, G. V. and Griffin, M. 2010. Dry dense
medium separation of iron ore using a gas–solid fluid-
ized bed. Advanced Powder Technology, 21, 573–577.
Pohl, H. A. 1951. The motion and precipitation of sus-
pensoids in divergent electric fields. Journal of applied
Physics, 22, 869–871.
Pohl, H. A. 1958. Some effects of nonuniform fields on
dielectrics. Journal of Applied Physics, 29, 1182–1188.
Tripathy, S. K., Banerjee, P. K., Suresh, N., et al., 2017.
Dry High-Intensity Magnetic Separation In Mineral
Industry—A Review Of Present Status And Future
Prospects. Mineral Processing and Extractive Metallurgy
Review, 38, 339–365.
Yano, H., Kubota, T., Miyamoto, H., et al., 2006.
Touchdown of the Hayabusa spacecraft at the Muses
Sea on Itokawa. Science, 312, 1350–1353.