| 529 - 530 |
Selected papers from the Centenary of Flotation Symposium, 5-9 June 2005, Brisbane, Australia - Foreword
Jameson GJ |
| 531 - 538 |
Characterization of large size flotation cells
Yianatos JB, Henriquez FH, Oroz AG |
| 539 - 547 |
Stability of foams and froths in the presence of ionic and non-ionic surfactants
Wang LG, Yoon RH |
| 548 - 553 |
Microorganisms in flotation and flocculation: Future technology or laboratory curiosity?
Smith RW, Miettinen M |
| 554 - 560 |
Gas dispersion measurements in industrial flotation cells
Schwarz S, Alexander D |
| 561 - 570 |
Spectroelectrochemical investigations of flotation reagent-surface interaction
Hope GA, Woods R, Parker GK, Watling KM, Buckley FM |
| 571 - 581 |
The ability of static secondary ion mass spectrometry to discriminate submonolayer from multilayer adsorption of thiol collectors
Goh SW, Buckley AN, Lamb RN, Woods R |
| 582 - 597 |
Flotation of hematite using C6-C18 saturated fatty acids
Quast K |
| 598 - 608 |
The effect of polysaccharides and polyacrylamides on the depression of talc and the flotation of sulphide minerals
Beattie DA, Huynh L, Kaggwa GBN, Ralston J |
| 609 - 618 |
Improving the recovery of coarse coal particles in a Jameson cell
Cowburn J, Harbort G, Manlapig E, Pokrajcic Z |
| 619 - 626 |
CFD modelling of bubble-particle attachments in flotation cells
Koh PTL, Schwarz MP |
| 627 - 632 |
Optimisation of a multistage flotation plant using plant survey data
Loveday BK, Hemphill AL |
| 633 - 640 |
Flotation process diagnostics and modelling by coal grain analysis
Ofori P, O'Brien G, Firth B, Jenkins B |
| 641 - 650 |
Role of oily bubbles in enhancing bitumen flotation
Su L, Xu ZH, Masliyah J |
| 651 - 658 |
Dewetting kinetics on silica substrates: Three phase contact expansion measurements for aqueous dodecylammonium chloride films
Nguyen AV, Alexandrova L, Grigorov L, Jameson GJ |
| 659 - 665 |
Pyrite activation in amyl xanthate flotation with nitrogen
Miller JD, Kappes R, Simmons GL, LeVier KM |
| 666 - 674 |
Liberated 0-10 mu m particles from sulphide ores, their production and separation - Recent developments and future needs
Johnson NW |
| 675 - 686 |
The effect of heavy oxidation upon flotation and potential remedies for Merensky type sulfides
Newell AJH, Bradshaw DJ, Harris PJ |
| 687 - 695 |
Selective detachment process in column flotation froth
Honaker RQ, Ozsever AV, Parekh BK |
| 696 - 702 |
Grade recovery optimization using data unification and real time gross error detection
Bascur OA, Linares R |
| 703 - 712 |
The interfacial conformation of polypropylene glycols and their foam properties
Tan SN, Fornasiero D, Sedev R, Ralston J |
| 713 - 718 |
The froth stability column: Measuring froth stability at an industrial scale
Barbian N, Hadler K, Cilliers JJ |
| 719 - 725 |
Interaction forces between chemically modified hydrophobic surfaces evaluated by AFM - The role of nanoscopic bubbles in the interactions
Ishida N, Higashitani K |
| 726 - 733 |
Frother-related research at McGill University
Finch JA, Gelinas S, Moyo P |
| 734 - 747 |
Application of numerical image analysis to process diagnosis and physical parameter measurement in mineral processes - Part I: Flotation control based on froth textural characteristics
Bartolacci G, Pelletier P, Tessier J, Duchesne C, Bosse PA, Fournier J |
| 748 - 757 |
Evaluation of a Microcel (TM) sparger in the Red Dog column flotation cells
Pyecha J, Lacouture B, Sims S, Hope G, Stradling A |
| 758 - 765 |
Creating value through application of flotation science and technology
Clark ME, Brake I, Huls BJ, Smith BE, Yu M |
| 766 - 773 |
Fundamental properties of flotation frothers and their effect on flotation
Melo F, Laskowski JS |
| 774 - 783 |
Case studies on the performance and characterisation of the froth phase in industrial flotation circuits
Tsatouhas G, Grano SR, Vera M |
| 784 - 789 |
Kinetics of collector adsorption on mineral surfaces
Fredriksson A, Holmgren A, Forsling W |
| 790 - 798 |
Improved statistical methods applied to surface chemistry in minerals flotation
Hart B, Biesinger M, Smart RS |
| 799 - 806 |
The interaction of xanthates and amines with pyroxene activated by copper and nickel
O'Connor CT, Malysiak V, Shackleton NJ |
| 807 - 815 |
Some gas dispersion characteristics of mechanical flotation machines
Nesset JE, Hernandez-Aguilar JR, Acuna C, Gomez CO, Finch JA |
| 816 - 823 |
The use of FrothSim to optimise the water addition to a column flotation cell
Neethling SJ, Hadler K, Cilliers JJ, Stradling AW |
| 824 - 830 |
Tracking of particles in the froth phase: An experimental technique
Ata S, Pigram S, Jameson GJ |
| 831 - 840 |
Designing flotation circuits for high fines recovery
Pease JD, Curry DC, Young MF |
| 841 - 851 |
Selective transport of attached particles across the pulp-froth interface
Seaman DR, Manlapig EV, Franzidis JP |
| 852 - 859 |
The Sullivan concentrator - the last (and best) 30 years
Fairweather MJ |
| 860 - 869 |
Marmatite depression in galena flotation
Quast K, Hobart G |
