Adsorption characteristics of CN− species on the chalcopyrite surface and its response to flotation

Adsorption characteristics of CN− species on the chalcopyrite surface and its response to flotation

•The surface hydrophilicity and hydrophobicity of chalcopyrite are affected by cyanidation time, and the negative charge on the chalcopyrite surface gradually increases with the increase of the cyanidation time.•In the late stage of cyanide leaching, the flotation recovery of chalcopyrite increased...

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Bibliographic Details
Published in:Separation and purification technology Vol. 276; p. 119322
Main Authors: Zhao, Qianfei, Yang, Hongying, Tong, Linlin
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2021
Subjects:
Chalcopyrite
Coverage thickness
Cyanide adsorption
Inhibition
ToF−SIMS
Cyanide adsorption
Chalcopyrite
Inhibition
Coverage thickness
ToF−SIMS
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Summary:•The surface hydrophilicity and hydrophobicity of chalcopyrite are affected by cyanidation time, and the negative charge on the chalcopyrite surface gradually increases with the increase of the cyanidation time.•In the late stage of cyanide leaching, the flotation recovery of chalcopyrite increased slightly, indicating that chalcopyrite was self-activating to a certain extent.•Hydrophilic and negative charge species on the chalcopyrite surface were revealed.•A model for the contamination film formed in the process of chalcopyrite step-by-step cyanide leaching is proposed. Among cyanide tailings, chalcopyrite is one of the main minerals. However, little study is available regarding the flotation behavior and mechanism of cyanide chalcopyrite, especially the influence of cyanide leaching time on the physical and chemical properties of chalcopyrite surface. In this work, the cyanide adsorption mechanism of the chalcopyrite surface over time and its response to flotation was probed for the first using contact angle, zeta potential, microflotation, X − ray photoelectron spectroscopy (XPS) and time−of−flight secondary ion mass spectrometry (ToF−SIMS). The results of contact angle showed that the surface hydrophobicity of the chalcopyrite surface decreased with increasing cyanidation time, thus preventing the adsorption of xanthate, which was confirmed by zeta potential and microflotation. XPS analysis indicated that with the gradual progress of cyanidation, hydrophilic CN−, CNO−, SO42− and CuCN− were formed on the surface of chalcopyrite. ToF−SIMS investigated the distribution of anion species on the surface of chalcopyrite, showing that with the increasing cyanidation time, more cyanide species formed on the surface of mineral layer, and gradually diffuse from the mineral surface to the bulk phase, finally forming a film with depth of about 20 nm. Thus, the chalcopyrite hydrophobicity was depressed.
ISSN:1383-5866
DOI:10.1016/j.seppur.2021.119322