Details
Title
Analysis of the Composition and Morphology of Products of the Anodic Dissolution of Cu2SJournal title
Archives of Metallurgy and MaterialsYearbook
2000Issue
No 3Authors
Divisions of PAS
Nauki TechniczneCoverage
287-302Publisher
Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of SciencesBibliography
[1] E. M archese, patent niemiecki 22.429 (1882).
[2] F. Habashi, N. Torres - Acuna, The Anodic Dissolution of Copper (I) Sulfide and the Direct Recovery of Copper and Elementar Sulfur from White Metal. Trans. AIME. 242, 780- 787 (J 968).
[3] P. Brennet, S. Jafferali, J. Vansevere n, J. Verecken, R. Winard, Study of the Mechanism of Anodic Dissolution of Cu2S. Met. Trans. 5, 127 -134 (1974).
[4] D. J. Mc Kay, The Direct Electro refining of Copper Matte. Journal of Metallurgy 3, 44-48 ( 1993).
[5] M. H. Mao, E. Peters, Direct Electrorefining of Cuprous Sulphide - Based Particulate Anodes. Can. Met. Q 22, 437-446 (1983).
[6] F. K. Crundwell, The Influence of the Electronic Structure of the Solids on the Anodic Dissolution and Leaching of Semiconducting Sulphide Minerals. Hydrometallurgy 21 (1988).
[7] E. Hillrich s, R. Bertram, Anodic Dissolution of Copper Sulphides in Sulphuric Acid Solution I. The Anodic Dissolution of Cu2_xS. Hydrometallurgy 11 181 (1983).
[8] E. Hillrich s, R. Bertram, Anodic Dissolution of Copper Sulphides in Sulphuric Acid Solution II. The Anodic Dissolution of CuS. Hydrometallurgy 11, 195-207 (1983).
[9] E. G hali, B. Dandapani, A. Lewenstam, Electrodissolution of Synthetic Covelli te in Hydrochloric Acid. J. Applied Electrochem 12 (1982)..
[10] J M. Hojo, E. Peters, Direct Electrorefining of Chalcocite. Proceedings of the 5th Australian Electrochemical Conference, 345- 364 August l 980.
[11] D. J. Mac Kinno n, Fluidised Bed Anodic Dissolution of Chalcocite. Hydrometallurgy. 1, 241-257 (1976).
[12] F. Hab ash i, Principles of extractive metallurgy. 1. General principles. Gordon and Breach Science Publishers Inc. 151, l 969.
[13] L. Burzyńska, P. Żabiński, Anodic Dissolution of copper(}) sulfide. Physicochemical Problems of Mineral Processing, XXXV Symposium, 11-28 (1998).
[14] L. Burzyńska, P. Żabiński, A. Ko w a I, Application of AFM microscopy for surface topography analysis of copper(!) sulfide during anodic dissolution. Physicochemical Problems of Mineral Processing 42, 215 - 226 ( 1998).
[15] D. Sar id, Scanning Force Microscopy with Applications to Electric, Magnetic and Atomic Forces. Oxford University Press, New York 1994.
[16] D. A. Bonnell, Scanning Tunneling Microscopy and Spectroscopy: Theory, Techniques and Applications. VCH Publishers, Inc., New York 1993.
[17] J. A.De Rose, T. Thund at, L. A. Nagahara, S. M. Lindsay, Gold grown expitaxially on mica: conditions for large area flat faces. Surface Science 256, 102 (1991).