4.7 Article

Effect of oxygen and sodium sulfide on flotation of cuprite and its modification mechanism

Journal

TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
Volume 33, Issue 4, Pages 1233-1243

Publisher

ELSEVIER
DOI: 10.1016/S1003-6326(23)66178-3

Keywords

cuprite; sulfidization flotation; sulfidization mechanism; oxidization; copper sulfide species

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The effect of oxygen and Na2S on the flotation of cuprite was studied using flotation test, FESEM, EMPA and XPS. The results of micro-flotation experiments showed that the addition of an appropriate amount of Na2S greatly increased the flotation recovery of cuprite. FESEM analysis revealed that after sulfidization, numerous fragments were found on the cuprite surfaces, and the shapes of these fragments became more regular and complete with a Na2S concentration of 5.0x10-4 mol/L. EPMA and EDS analysis confirmed that these fragments were newly-formed copper sulfide species, which played a key role in promoting the flotation of cuprite. XPS analysis showed that the sulfidization process of cuprite involved an oxidation-reduction reaction between Na2S and CuO on the surface of cuprite, with Cu2+ being reduced to Cu+ and S2- being mainly oxidized to (S2)2- and (Sn)2-.
Effect of oxygen and Na2S on the flotation of cuprite was invested by flotation test, FESEM, EMPA and XPS. The micro-flotation experiments indicated that the flotation recovery of cuprite can be greatly increased by adding an appropriate amount of Na2S. FESEM showed that numerous fragments were covered on the cuprite surfaces after sulfidization, and the shapes of these fragments were more regular and complete with the Na2S concentration of 5.0x10-4 mol/L. EPMA and EDS analysis confirmed that these fragments were newly-formed copper sulfide species, which was the key to promoting the flotation of cuprite. XPS analysis revealed that the sulfidization process of cuprite was that Na2S first underwent an oxidation-reduction reaction with the CuO on its surface, which was due to the extremely easy oxidation of the surface of cuprite. The Cu2+ was reduced to Cu+, and S2- was mainly oxidized to (S2)2- and (Sn)2-.

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