| 1 |
A novel regrinding circuit to deal with fluctuation in feed grade at the Sarcheshmeh copper complex
Agheli S, Hosseini M, Shirazi HHA, Hassas BV
Separation Science and Technology, 55(1), 98, 2020 |
| 2 |
Recognition of flotation working conditions through froth image statistical modeling for performance monitoring
Zhang J, Tang ZH, Liu JP, Tan Z, Xu PF
Minerals Engineering, 86, 116, 2016 |
| 3 |
A review of froth flotation control
Shean BJ, Cilliers JJ
International Journal of Mineral Processing, 100(3-4), 57, 2011 |
| 4 |
A new SEM-EDS based automated mineral analysis solution for PGM-bearing ores and flotation products
Bushell C
Minerals Engineering, 24(12), 1238, 2011 |
| 5 |
Effect of calcium ions on the adsorption of CMC onto the basal planes of New York talc - A ToF-SIMS study
Burdukova E, Van Leerdam GC, Prins FE, Smeink RG, Bradshaw DJ, Laskowski JS
Minerals Engineering, 21(12-14), 1020, 2008 |
| 6 |
The use of ToF-SIMS and microflotation to assess the reversibility of binding of CMC onto talc
Parolis LAS, van der Merwe R, van Leerdam GC, Prins FE, Smeink RG
Minerals Engineering, 20(10), 970, 2007 |
| 7 |
Determination of preferential adsorption of Depramin (R) on mineral surfaces by ToF-SIMS
Smeink RG, van Leerdam GC, Mahy JWG
Minerals Engineering, 18(2), 247, 2005 |
| 8 |
Level control strategies for flotation cells
Kampjarvi P, Jamsa-Jounela SL
Minerals Engineering, 16(11), 1061, 2003 |
| 9 |
SUPASIM: a flotation plant design and analysis methodology
Hay MP, Rule CM
Minerals Engineering, 16(11), 1103, 2003 |
| 10 |
Effect of ultrasonic treatment on zinc removal from hydroxide precipitates by dissolved air flotation
Qi BC, Aldrich C
Minerals Engineering, 15(12), 1105, 2002 |
