Impact of mechanical activation and mechanochemical activation on microstructural changes, leaching rate and leachability of natural chalcopyrite

Impact of mechanical activation and mechanochemical activation on microstructural changes, leaching rate and leachability of natural chalcopyrite

•MCA along with Fe and Fe2O3 addition enhance the leachability and leaching rate.•The MCA with Fe promotes leachability and leaching rate more than MCA with Fe2O3.•The leaching mechanism changed to chemical control due to MCA with Fe.•Except for microstrain, all microstructural changes always are ef...

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Bibliographic Details
Published in:Minerals engineering Vol. 217; p. 108962
Main Authors: Akhgar, B.N., Kavanlouei, M., Farhoudi, S., Rohzad, M.H.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2024
Subjects:
Chalcopyrite
Leaching kinetics
Mechanochemistry
Microstructural changes
Chalcopyrite
Leaching kinetics
Mechanochemistry
Microstructural changes
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Summary:•MCA along with Fe and Fe2O3 addition enhance the leachability and leaching rate.•The MCA with Fe promotes leachability and leaching rate more than MCA with Fe2O3.•The leaching mechanism changed to chemical control due to MCA with Fe.•Except for microstrain, all microstructural changes always are effective. The influence of mechanical activation (MA) and mechanochemical activation (MCA) with Fe and Fe2O3 on the microstructural changes, leachability and leaching rate of natural chalcopyrite was investigated and compared. MCA pretreatments were carried out by chalcopyrite co-milling with Fe and Fe2O3 for 20 and 50 min. The XRD analysis indicated that even after 50 min MA and MCA, constituent phases of chalcopyrite, Fe and Fe2O3 could be detectable beside the newly formed bornite. Regarding the peak broadening and peak intensity reduction, MCA generally intensified the microstructural changes of chalcopyrite in comparison with MA. The microstructural study performed by the Rietveld method also proved that all microstructural parameters changed in favor of reactivity, such that the amorphization degree and microstrain were increased to 96 % and 0.164 (%), respectively, while crystallite size was reduced to 14.6 nm after 50 min MCA of chalcopyrite with Fe2O3. It could be concluded from the leaching tests that MCA along with Fe and Fe2O3 addition could promote the leachability and leaching rate of chalcopyrite, as compared to MA and nonactivated chalcopyrite. Although both the MCA of chalcopyrite with Fe and Fe2O3 could enhance copper extractions in the 1 M sulfuric acid leaching tests at 80 °C, Fe addition was slightly more effective than Fe2O3. The results obtained from the kinetic study also revealed that the leaching mechanism of nonactivated chalcopyrite, mechanically activated chalcopyrite and mechanochemically activated chalcopyrite with Fe2O3 changed from diffusion control to chemical control due to MCA with Fe. Finally, the combination of kinetic and microstructural studies proved that all microstructural parameters, except for the microstrain parameters of chalcopyrite MCA with Fe2O3, could be effective in chalcopyrite reactivity promotion.
ISSN:0892-6875
DOI:10.1016/j.mineng.2024.108962