Mr. La Huapei, a senior engineer equivalent to professor, the former deputy chief engineer in Beijing Central Engineering and Research Institute for Nonferrous Metallurgical Industries (ENFI), is now a senior adviser ...Mr. La Huapei, a senior engineer equivalent to professor, the former deputy chief engineer in Beijing Central Engineering and Research Institute for Nonferrous Metallurgical Industries (ENFI), is now a senior adviser for the Institute.展开更多
The role of trivalent antimony was investigated in removing As, Sb, and Bi impurities from a copper electrolyte. Puri- fication experiments were carried out by adding a various concentrations of Sb(III) ions in a sy...The role of trivalent antimony was investigated in removing As, Sb, and Bi impurities from a copper electrolyte. Puri- fication experiments were carried out by adding a various concentrations of Sb(III) ions in a synthetic electrolyte containing 185 g/L sulfuric acid, 45 g/L Cu2+, 10 g/L As, and 0.5 g/L Bi under stirring at 65℃ for 2 h. The electrolyte was filtered, and the structure, morphology and composition of the precipitate were analyzed by means of chemical analysis, scanning electron mi- croscopy (SEM), X-ray diffraction (XRD), transmission electron microscopy (TEM), and IR spectroscopy. The precipitate is composed of irregular lumps which are agglomerated by fine dendritic and floccus particles, and it mainly consists of As, Sb, Bi, and O elements. Characteristic bands in the IR spectra of the precipitate are As-OX (X=As, Sb, Bi), Sb-OY (Y=Sb, Bi), O-As-O1 As-OH, Sb-OH, and O-H. The precipitate is a mixture of microcrystalline SbAsQ, (Sb,As)203, and amorphous phases. As, Sb, and Bi impurities are effectively removed from the copper electrolyte by Sb(III) ions attributing to these pre- cipitates.展开更多
文摘Mr. La Huapei, a senior engineer equivalent to professor, the former deputy chief engineer in Beijing Central Engineering and Research Institute for Nonferrous Metallurgical Industries (ENFI), is now a senior adviser for the Institute.
基金support by the National Natural Scientific Foundation of China(No. 50904023)the Natural Science Research Project of the Education Department of Henan Province (No.2010B450001)+1 种基金the Innovation Scientists and Technicians Troop Construction Projects of Henan Province(No. 104100510005)the Basic and Frontier Technologies Research Projects of Henan Province, China(No. 092300410064)
文摘The role of trivalent antimony was investigated in removing As, Sb, and Bi impurities from a copper electrolyte. Puri- fication experiments were carried out by adding a various concentrations of Sb(III) ions in a synthetic electrolyte containing 185 g/L sulfuric acid, 45 g/L Cu2+, 10 g/L As, and 0.5 g/L Bi under stirring at 65℃ for 2 h. The electrolyte was filtered, and the structure, morphology and composition of the precipitate were analyzed by means of chemical analysis, scanning electron mi- croscopy (SEM), X-ray diffraction (XRD), transmission electron microscopy (TEM), and IR spectroscopy. The precipitate is composed of irregular lumps which are agglomerated by fine dendritic and floccus particles, and it mainly consists of As, Sb, Bi, and O elements. Characteristic bands in the IR spectra of the precipitate are As-OX (X=As, Sb, Bi), Sb-OY (Y=Sb, Bi), O-As-O1 As-OH, Sb-OH, and O-H. The precipitate is a mixture of microcrystalline SbAsQ, (Sb,As)203, and amorphous phases. As, Sb, and Bi impurities are effectively removed from the copper electrolyte by Sb(III) ions attributing to these pre- cipitates.
