| 1 |
Flotation frother mixtures: Decoupling the sub-processes of froth stability, froth recovery and entrainment
McFadzean B, Marozva T, Wiese J
Minerals Engineering, 85, 72, 2016 |
| 2 |
Gas dispersion properties of collector/frother blends
Zhou X, Jordens A, Cappuccitti F, Finch JA, Waters KE
Minerals Engineering, 96-97, 20, 2016 |
| 3 |
Micro- and nano-scale phenomena effect on bubble size in mechanical flotation cell
Javor Z, Schreithofer N, Heiskanen K
Minerals Engineering, 70, 109, 2015 |
| 4 |
Validity of critical coalescence concentration in dynamic conditions
Javor Z, Schreithofer N, Heiskanen K
International Journal of Mineral Processing, 127, 16, 2014 |
| 5 |
Frother function-structure relationship: Dependence of CCC95 on HLB and the H-ratio
Finch JA, Zhang W
Minerals Engineering, 61, 1, 2014 |
| 6 |
The effect of frother blends on the flotation performance of selected PGM bearing ores
Ngoroma F, Wiese J, Franzidis JP
Minerals Engineering, 46-47, 76, 2013 |
| 7 |
Visualization of flow in froth
Blonde P, Finch JA
Minerals Engineering, 35, 16, 2012 |
| 8 |
The effect of frother type and dosage on flotation performance in the presence of high depressant concentrations
Wiese J, Harris P
Minerals Engineering, 36-38, 204, 2012 |
| 9 |
The effect of bubble release techniques on their behaviour at the initial stages of rise
Javor Z, Schreithofer N, Heiskanen K
Minerals Engineering, 36-38, 254, 2012 |
| 10 |
Comparative Study of the Effect of Frothers on the Flotation of Nickel Sulphide Ore
Afolabi AS, Muzenda E, Abdulkareem AS, Maluleke V, Ikotun AG
Particulate Science and Technology, 30(3), 287, 2012 |
