220 B RP
Boston, MA 02115
United States
Northeastern University (USA)
Grinding, Grinding aids, Quartz, Triisopropanolamine, Surface
Low-grade magnesite, dolomite, Grinding aid EGTA, Grinding-flotation system, Surface properties, Slurry environment
Low-grade magnesite ore, Grinding, Flotation, EDTMPA, Adsorption mechanism
magnesite, Grinding, Sodium tripolyphosphate, surface properties, Grinding efficiency
Low-grade magnesite ore, dolomite, Grinding, Flotation, Diethanolamine
low-grade magnesite ore, Novel chelating depressant CDTA, Simultaneous impurity removal, Efficient flotation recovery, Interface adsorption mechanism
Magnesite, Calcite, GLDA, Flotation separation, adsorption mechanism
Polycarboxylate-bsed grinding aids, Quartz removal by flotation, Selective grinding technology, Optimization of particle size distribution, Enhancement of particle dispersion
low-grade magnesite ore, calcium gangue removal, amino acid-based collector, surface activity, interfacial adsorption mechanism
Low-grade magnesite ore, Dolomite, Grinding, Flotation, Diethanolamine
Low-grade magnesite ore, Quartz, Dolomite, Nitrilotriacetic acid, Efficient depression, Flotation separation