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Study on the effect of collector and inhibitor acid on the floatability of collophane and dolomite in acidic media by TOF-SIMS and XPS
Authors:Qing Chen  Qin Zhang  Brian R. Hart  Junjian Ye
Affiliation:1. Mining College, Guizhou University, Guiyang, China;2. Senior Research Scientist, Surface Science Western, University of Western Ontario, Ontario, London, Canada;3. Mining College, Guizhou University, Guiyang, China

Department of mineral processing engineering, National & Local Joint Laboratory of Engineering for Effective Utilization of Regional Mineral Resources from Karst Areas, Guiyang, China

Department of mineral processing engineering, Guizhou Key Lab of Comprehensive Utilization of Non-metallic Mineral Resources, Guiyang, China

Abstract:Most of the phosphate ore in southern China is contained within siliceous dolomite phosphate rock, and more than 90% of it is medium and low-grade collophane. Reverse flotation of carbonate gangue minerals (dolomite) from phosphate in acidic media is still the most economical method for the reduction of carbonate in collophane concentrates. It has been recognized that the collophane and dolomite in acidic media affect the surface properties of minerals, thereby affecting their flotation properties. In this paper, HCl and H3PO4 were used as regulators or inhibitors to study the flotation behaviour of collophane and dolomite. The inhibition mechanism of collophane and dolomite in two acid media was studied by time-of-flight secondary ion mass spectrometry (TOF-SIMS) and X-ray photoelectron spectroscopy (XPS) analyses. It was found that the addition of an inhibiting acid can partially depress the collophane and improve the flotation of dolomite, thus achieving their flotation separation, and the inhibition effect of H3PO4 on collophane is better than that of HCl. And it was found by TOF-SIMS analysis that the increase in acid concentration did not reduce the adsorption concentration of the collector, and the main reason for the inhibition was not the decrease in the adsorption concentration of the collector. The adsorption capacity of collector on dolomite surface with H3PO4 is greater than that with HCl. The XPS test indicated that metaphosphate (PO3−1) is the pivotal ion for depressing collophane under acid conditions.
Keywords:collophane  dolomite  floatation  TOF-SIMS  XPS
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