Abstract:The activation of depressed marmatite and chalcopyrite were investigated using sodium metabisulfite as activator. The results indicate that the zinc recovery rate exceeds 86% under the conditions of xanthate concentration of 5.32×10^-5 mol/L, 2^# oil 10 mg/L, copper sulfate concentration 8.01×10^-5 mol/L, pH of 9.8-10.2 and sodium metabisulfite concentration of 1.67×10^-3 mol/L. The copper recovery rate exceeds 95% under the conditions of xanthate concentration of 5.32×10^-5 mol/L, 2^# oil of 10 mg/L, pH of 9.8-10.2 and sodium metabisulfite concentration of 1.33×10^-3 mol/L. Moreover, the activation-flotation rate constant of chalcopyrite is bigger than that of marmatite. Based on above studies, IR and Zeta potential were used to analyze the activation mechanism. The results show that the ion , which sodium metabisulfite can give in aqueous solutions, can promote the oxidation of cyanide to cyanate, and therefore destroy Zn—C bond and Cu—C bond, which inhibites the adsorption of cyanide. Moreover, the ion can oxidize divalent sulfur ion into elemental sulfur, causing the mineral surfaces hydrophobic. Due to stronger reducibility of cyanide than that of divalent sulfur ion, sodium metabisulfite can firstly destroy cyanide and then attack the sulphides.

Key words: sodium metabisulfite; copper zinc sulfide ore; cyanide; activation mechanism; kinetics