Effect of the pyrite content on chalcopyrite flotation in the presence of different regrinding conditions

This study aimed to investigate the impact of varying contents of pyrite on copper in the presence of different regrinding conditions, which were altered by using two types of grinding media, iron and ceramic balls, followed by flotation in the cleaner stage. It was found that the flotation performance of rougher copper concentrate can be improved by changing the regrinding conditions based on the content of pyrite. SEM-EDS (scanning electron microscope), X-ray spectrometer, EDTA extraction and XPS (X-ray photoelectron spectroscopy) studies illustrated that when the pyrite content was high, using iron media to regrind was beneficial to promote the generation of hydrophilic FeOOH on the surface of pyrite and improve copper grade. While using ceramic media for low pyrite content would avoid too much FeOOH covering the surface of chalcopyrite. Electrochemical studies further showed that the galvanic corrosion current of chalcopyrite-pyrite increased with the addition of pyrite and became stronger with the participation of iron media.