Surface properties of copper-sulfide minerals with sodium-hydrosulfide activation

The surface properties of slightly oxidized chalcocite, bornite, and chalcopyrite with sodium hydrosulfide (NaHS) treatment were investigated by solid analyses of X-ray photoelectron spectroscopy, solution analyses, and zeta potential measurements. NaHS is known as a flotation activator for copper-oxide minerals by sulfurizing their surfaces. This study focused on the surface properties before/after sulfurization by the NaHS at several NaHS dosages and alkaline pHs. Iron leaching and precipitates of copper–iron-sulfide minerals have also been investigated. The analysis results showed that NaHS sulfurized the oxidized copper species, CuO and CuSO₄, to copper sulfide, but oxidized iron species, Fe₂O₃ and Fe(OH)₃, were not sulfurized by NaHS. These oxidized iron species dissolved into solutions as complex ion, Fe(HS)₂⁰, then Fe(HS)₂⁰ was decomposed by dissolved oxygen and reprecipitated as Fe₂O₃. The results of chalcocite showed that Cu₂S was generated on the surfaces with NaHS treatment at any pH. The bornite and chalcopyrite results indicated that Fe₂O₃ was produced on bornite surfaces with an increase in pH, whereas the chalcopyrite surfaces were covered as the pH decreased. A flotation test was conducted using a Chilean copper ore that contained chalcocite, bornite, and chalcopyrite, and the flotation recovery of each mineral was consistent with the surface sulfurization at several NaHS dosages and pHs.