著者
張 世波 Acuna Cesar M. 矢沢 彬
出版者
東北大学
雑誌
東北大學選鑛製錬研究所彙報 (ISSN:0040876X)
巻号頁・発行日
vol.40, no.2, pp.143-154, 1985

Three kinds of melting experiments were carried out for investigating the equilibria between ferrite slag and matte as follows : (I) Calcium ferrite slag and copper matte were brought into equilibrium under a current of SO_2-Ar gas. This corresponds to the condition of oxidizing smelting. (II) Calcium ferrite slag, copper matte and metallic copper were brought into equilibrium under a current of Ar gas. This corresponds to the condition of reducing smelting. (III) Three liquid phases of slag, matte and copper were brought into equilibrium under a current of SO_2-Ar gas. This corresponds to the direct production of copper by oxidizing smelting. In all of these cases, the distribution behaviour of arsenic, in addition to those of the principal components, was investigated. The solidified samples were investigated by microscope and electron probe microanalyzer (EPMA) to confirm the structure and composition for each phase obtained. The following crystallites were recognized in each phase. In the metal phase : a. Matrix of copper metal containing arsenic. b. Small bluish-grey particle of Cu_2S or bornite. c. Small greenish-grey crystallite of copper arsenide. d. Small light-grey arsenide consisting of Cu-Fe-As. In the matte phase : i. Bluish-grey matrix consiting of Cu_2S and bornite solid solutions. ii. Hair-like metallic copper. iii. Tiny dark grey crystallite of CaS. iv. Round dark grey particle consisting of calcium ferrite and bornite. v. White particle of iron. vi. Round yellowish-white grain consisting of copper and arsenic. vii. Tiny grey eutectic-type grains of Cu_2O recognized under very high oxygen potential. viii. Dark grey boundary crystallites observed in low grade matte. Sulfide-oxide mixture of Fe-Ca-S-O system. In the slag phase : 1. Large dark grey plate-like crystallites of 2CaO・Fe_2O_3. 2. Large grey plate-like crystallites of FeO・Fe_2O_3・CaO. 3. Massive light grey crystallites of FeO or Fe_3O_4. 4. Tiny dark grey grains observed in calcium ferrite crystallite. 5. Light yellow crystallites of FeS. 6. Brown or bluish-grey crystallites of bornite. 7. Greenish-grey plate-like or massive crystallites. Sulfide-oxide mixture of Fe-Ca-S-O system. 8. Small metallic copper grains. 9. White spherical crystallites of Fe occasionally containing As.
著者
江口 元徳 矢沢 彬
出版者
一般社団法人 資源・素材学会
雑誌
日本鉱業会誌 (ISSN:03694194)
巻号頁・発行日
vol.91, no.1043, pp.39-44, 1975-01-25 (Released:2011-07-13)
参考文献数
24

Hydrolysis reaction in Co (II)-H2O system have been investigated thermodynamically and experimentally, at temperaturesbetween 25°and 200°C. The results are summerized as follows:(1) The chemical potentials of relating substances at 25°to 250°C were derived by several thermodynamic ways.(2) The hydrolysis equilibrium was discussed thermodynamically, and it was predicted that CoOH+would not be predominantunder the conditions considered.(3) The pH dependences of solubility of Co (OH) 2were measured at temperatures between 25°and 200°C. pH values were measured directly at equilibrating temperatures below 100°C, but were measuredat 25°C for quenched solutions in the experiments above 100°C.(4) Correspondence of pH values between 25°and t°C based on eq.(23) in this paper was confirmed by experiment.(5) Red Co (OH) 2were precipitated in the experiments at above 90°C and thermodynamic behavior agreed well with the theoretical predicitions (Fig. 10).(6) A bluish active Co (OH) 2was precipitated at 25°C as a metaslable form, and for this active hydroxide Ksp=7.8·10-15, μ°298=-107.7 kcal/mol were derived