Identyfikatory
Warianty tytułu
Kinetyka parowania miedzi ze stopów Fe-Cu w warunkach obniżonego ciśnienia
Języki publikacji
Abstrakty
This paper provides an analysis of the results of studies concerning the impact of pressure on the process of copper removal from liquid ferrous alloys by evaporation. The research was conducted in vacuum induction furnace. Iron alloys with 0.509 to 1.518 %wt. Cu content were used for the tests. Kinetics analysis of the examined process was performed for the obtained results and the Speed of the process partial stages was estimated.
W prezentowanej pracy przedstawiono wyniki badań nad możliwością usuwania miedzi z ciekłego żelaza na drodze odparowania. Badania realizowano w indukcyjnym piecu próżniowym. Wykorzystano stopy żelaza zawierające od 0.509 do 1.518% mas. Cu. Dla uzyskanych wyników przeprowadzono analizę kinetyczną badanego procesu i oszacowano szybkości jego etapów cząstkowych.
Wydawca
Czasopismo
Rocznik
Tom
Strony
165--172
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
- Department of Metallurgy, Silesian University of Technology, 40-019 Katowice, 8 Krasińskiego STR., Poland
Bibliografia
- [1] J. Łabaj, L. Blacha, Report from a research project of the Ministry of Science and Higher Education 3T08B 05926 entitled Kinetic model of the metal evaporation process under the reduced pressure conditions (unpublished).
- [2] R. Ward, Evaporative Losses During Vacuum Induction Melting of Steel, Journal of the Iron and Steel Inst 201, 920-923 (1963).
- [3] R. Higbie The Rate of Absorption of a Pure Gas into a still Liquid During Short periods of Exposure, Trans. AICHE 31, 365-368 (1935).
- [4] P. Danckwerts, Unsteady-state diffusion or heat-conduction with moving boundary, Trans. Faraday Soc. 46, 101-103 (1950).
- [5] B. Bakish, O. Winkler, Vacuum Metallurgy, Elsevier, Amsterdam (1972).
- [6] L. Blacha, R. Przyłucki, S. Golak, B. Oleksiak, Influence of an induction furnace's electric parameters on mass transfer velocity in the liquid phase, Archives of civil and mechanical engineering Archives of Civil and Mechanical Engineering 11, 1, 171-179 (2011).
- [7] R. Przyłucki, S. Golak, B. Oleksiak, L. Blacha, Influence o fan induction furnace's electric parameters on mass transfer velocity In the liquid phase, Metalurgija 51, 1, 67-70 (2012).
- [8] E. Ozberk, R. Guthrie, Application of Vacuum Refininq in Copper Production, Inst. Min. Metall. Trans. C 94, 146-157 (1985).
- [9] E. Ozberk, R. Guthrie, Kinetic Model for the Vacuum Refining of Inductively Stirred Copper Melts, Metall. Trans. B 17, 87-103 (1986).
- [10] Y. Ono, S. Matsumoto, Diffusion of Chromium, Manganese, and Nickel in Molten Iron, Trans of the Japan Institut of Metals 16, 415-422 (1975).
- [11] R. Ohno, T. Ishida, Solution rate of solid iron in liquid copper, ISIJ International Japan Inst. Met. 31, 10, 1164-1169 (1967).
- [12] L. Savov, D. Janke, Evaporation of Cu and Sn from Induction-stirred Iron-based Melts Treated at Reduced Pressure, ISIJ International 40, 2, 95-104 (2000).
- [13] A. I. Zaitsev, I, Evaporation of Copper from Iron, SIJ International 44, 4, 639-646 (2004).
- [14] L. Blacha, Bleientfernung aus Kupferlegierungen im Prozess der Vakuumraffination, Archives of Metallurgy and Materials 48, 1, 105-127 (2003).
- [15] J. Łabaj, J. Botor, R. Sosnowski, Kinetik der Zinkverdampfung aus Zn-Ag-Pb Legierungen bei Unterdruck, Archives of Metallurgy and Materials 47, 3 307-320. (2002).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSW3-0096-0018