| 1 - 14 |
Sulphide mineral surfaces: theory and experiment
Vaughan DJ, Becker U, Wright K |
| 7 - 8 |
Application of surface science to advancing flotation technology - Preface
Suoninen EJ, Forssberg KSE, Buckley AN |
| 9 - 10 |
Industrial needs of research in the field of flotation
Morizot G |
| 15 - 26 |
Chemisorption - the thermodynamically favoured process in the interaction of thiol collectors with sulphide minerals
Buckley AN, Woods R |
| 27 - 37 |
A surface study of a Boliden ore by TOF-LIMS
Bolin NJ, Chryssoulis SL, Martin CJ |
| 39 - 49 |
Liberation and its role in flotation-based flowsheet development
Morizot G, Conil P, Durance MV, Badri FG |
| 51 - 65 |
On characterization of pulp and froth in cells of flotation plant
Niemi AJ, Ylinen R, Hyotyniemi H |
| 67 - 79 |
Mixed collector systems in flotation
Rao KH, Forssberg KSE |
| 81 - 95 |
Use of surface complexation models in sulphide mineral flotation
Forsling W, Sun ZX |
| 97 - 110 |
Different aspects of using electrochemical potential measurements in mineral processing
Ruonala M, Heimala S, Jounela S |
| 111 - 123 |
Recent contributions to the analysis of soluble salt flotation systems
Miller JD, Veeramasuneni S, Yalamanchili MR |
| 125 - 138 |
Flotation in inorganic electrolytes; the relationship between recover of hydrophobic particles, surface tension, bubble coalescence and gas solubility
Pugh RJ, Weissenborn P, Paulson O |
| 139 - 149 |
Role of hydrodynamic cavitation in fine particle notation
Zhou ZA, Xu ZH, Finch JA, Hu H, Rao SR |
| 151 - 161 |
New methods in flotation research - application of synchrotron radiation to investigation of adsorbates on modified galena surfaces
Szargan R, Uhlig I, Wittstock G, Rossbach P |
| 163 - 170 |
XPS and SR-XPS techniques applied to sulphide mineral surfaces
Laajalehto K, Kartio I, Suoninen E |
| 171 - 181 |
Predicting flotation rates using a rate equation derived from first principles
Mao LQ, Yoon RH |
| 183 - 195 |
Elementary steps in particle-bubble attachment
Nguyen AV, Schulze HJ, Ralston J |
| 197 - 208 |
Measurements of selectivity due to coalescence between two mineralized bubbles and characterization of MIBC action on froth flotation
GourramBadri F, Conil P, Morizot G |
| 209 - 215 |
5-methyl-2-mercaptobenzoxazole adsorbed on Cu2S surface studied by synchrotron radiation excited photoemission
Contini G, Marabini AM, DiCastro V, Polzonetti G |
| 217 - 228 |
Surface characterization of pentlandite, (Fe,Ni)(9)S-8, by X-ray photoelectron spectroscopy
Legrand DL, Bancroft GM, Nesbitt HW |
| 229 - 239 |
Physicochemical mechanisms and ion flotation possibilities using columns for Cr6+ recovery from sulphuric solutions
Filippov LO, Houot R, Joussemet R |
| 241 - 254 |
Rheological investigations of ultrafine galena particle slurries under flotation-related conditions
Prestidge CA |
| 255 - 267 |
Selective flotation of gold from pyrite under oxidizing conditions
Monte MBM, Lins FF, Oliveira JF |
| 269 - 282 |
Shear flocculation and flotation of hematite using sodium oleate
Pascoe RD, Doherty E |
| 283 - 291 |
Infrared study of 2-mercaptabenzothiazole and two of its derivatives adsorbed on PbS
Contini G, Ciccioli A, Cozza C, Barbaro M, Marabini AM |
| 293 - 301 |
Detection of elemental sulphur on galena oxidized in acidic solution
Kartio I, Wittstock G, Laajalehto K, Hirsch D, Simola J, Laiho T, Szargan R, Suoninen E |
| 303 - 313 |
Verification by surface-enhanced Raman spectroscopy of the integrity of xanthate chemisorbed on silver
Buckley AN, Parks TJ, Vassallo AM, Woods R |
