| 1047 - 1055 |
Engineering, equipment and materials: Developments in the design of a bacterial oxidation reactor
Hayward T, Satalic DM, Spencer PA |
| 1057 - 1073 |
The identification of perturbations in a base metal flotation plant using computer vision of the froth surface
Bezuidenhout M, VanDeventer JSJ, Moolman DW |
| 1075 - 1083 |
An image processing algorithm for measurement of flotation froth bubble size and shape distributions
SadrKazemi N, Cilliers JJ |
| 1085 - 1093 |
An approach to rock size measurement based on a model of the human visual system
Crida RC, deJager G |
| 1095 - 1105 |
An automated data acquisition technique for settling tests
Vergouw JM, Anson J, Dalhke R, Xu Z, Gomez C, Finch JA |
| 1107 - 1118 |
Electroacoustic measurements of sulfide mineral particles
Prestidge CA, Rowlands WN |
| 1119 - 1125 |
Mechanochemical processing of refractory pyrite.
Warris CJ, McCormick PG |
| 1127 - 1138 |
The effect of external gas/slurry contact on the flotation of fine particles
Tortorelli JP, Craven JW, Toguri JM, Dobby GS, Agar GE |
| 1139 - 1163 |
An investigation of galena recovery problems in the Hilton Concentrator of Mount Isa Mines Limited, Australia
Grano SR, Lauder DW, Johnson NW, Ralston J |
| 1165 - 1176 |
Thermal decomposition of dolomite and the extraction of its constituents
Caceres PG, Attiogbe EK |
| 1177 - 1181 |
The recovery of palladium with the use of ion exchange resins
Els ER, Lorenzen L, Aldrich C |
