| 1 |
The role of sodium sulfide in the flotation of pyrite depressed in chalcopyrite flotation
Cao Z, Chen XM, Peng YJ
Minerals Engineering, 119, 93, 2018 |
| 2 |
The galvanic interaction between chalcopyrite and pyrite in the presence of I lignosulfonate-based biopolymers and its effects on flotation performance
Mu YF, Peng YJ, Lauten RA
Minerals Engineering, 122, 91, 2018 |
| 3 |
The kinetics modeling of chalcopyrite and pyrite, and the contribution of particle size and sodium metabisulfite to the flotation of copper complex ores
Hassanzadeh A, Karakas F
Particulate Science and Technology, 35(4), 455, 2017 |
| 4 |
The mechanism of pyrite depression at acidic pH by lignosulfonate-based biopolymers with different molecular compositions
Mu YF, Peng YJ, Lauten RA
Minerals Engineering, 92, 37, 2016 |
| 5 |
The use of canola oil as an environmentally friendly flotation collector in sulphide mineral processing
Owusu C, Quast K, Addai-Mensah J
Minerals Engineering, 98, 127, 2016 |
| 6 |
Post-regrind selective depression of pyrite in pyritic copper-gold flotation using aeration and diethylenetriamine
Agorhom EA, Skinner W, Zanin M
Minerals Engineering, 72, 36, 2015 |
| 7 |
Evaluation of the replacement of NaCN with Acidithiobacillus ferrooxidans in the flotation of high-pyrite, low-grade lead-zinc ore
Mehrabani JV, Mousavi SM, Noaparast M
Separation and Purification Technology, 80(2), 202, 2011 |
| 8 |
Effect of oxidation potential and zinc sulphate on the separation of chalcopyrite from pyrite
He S, Skinner W, Fornasiero D
International Journal of Mineral Processing, 80(2-4), 169, 2006 |
