This paper discusses the hydrophobicity of the pyrite surface under different extents of oxidation. Experimental results demonstrate that pyrite is floatable only under initial oxidation of its surface, while the fres...This paper discusses the hydrophobicity of the pyrite surface under different extents of oxidation. Experimental results demonstrate that pyrite is floatable only under initial oxidation of its surface, while the fresh unoxidized or deeply oxidized surface of pyrite is hydrophilic. In the tests an organic reductant C6H3(OH)3 was chosen as the pyrite depressant. It is highly efficient ,and the sulfur in flotation can be significantly improved.展开更多
文摘This paper discusses the hydrophobicity of the pyrite surface under different extents of oxidation. Experimental results demonstrate that pyrite is floatable only under initial oxidation of its surface, while the fresh unoxidized or deeply oxidized surface of pyrite is hydrophilic. In the tests an organic reductant C6H3(OH)3 was chosen as the pyrite depressant. It is highly efficient ,and the sulfur in flotation can be significantly improved.
