Abstract
A calorimetric method is used to study the enthalpy of mixing in liquid copper alloys with 3d-metals. Results are compared with published information. The change in thermodynamic properties along the 3d-row is not uniform. The regularities obtained are associated with the type of phase diagrams. It is demonstrated that the change in thermodynamic characteristics is determined by features of the electron structure of the components.
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References
B. B. Gulyaev, Synthesis of Alloys [in Russian], Metallurgiya, Moscow (1984).
K. P. Lebedev, L. S. Raines, G. S. Shepetov, and L. D. Goryachev, Cast Bronzes [in Russian], Mashinostroenie, Leningrad (1973).
I. V. Nikolaenko, G. I. Batalin, and E. A. Beloborodova, “Calorimetric study of the enthalpy of formation of liquid alloys of germanium with rare earth metals,” Dokl. Akad. Nauk UkrSSR, Ser. B, No. 1, 50–54 (1980).
I. V. Nikolaenko, M. A. Turchanin, G. I. Batalin, and E. A. Beloborodova, “High-temperature calorimeter for studying formation of metal melts,” Ukr. Khim. Zh.,53, No. 8, 50–54 (1987).
V. A. Kireev, Methods for Practical Calculations in the Thermodynamics of Chemical Reactions [in Russian], Khimiya, Moscow (1975).
I. V. Nikolaenko and G. I. Batalin, “Use of orthogonal functions for presenting data in the thermodynamics of binary alloys,” Teoret. i Éksperiment. Khimiya, 23, No. 2, 198–203 (1987).
A. Watanabe and O. J. Kleppa, “Thermochemistry of alloys of transition metals: Part IV. Alloys of copper with scandium, yttrium, lanthanum, and lutecium,” Met. Trans.,15B, No. 2, 357–368 (1984).
V. S. Sudavtsova, G. I. Batalin, and L. I. Kalmykov, “Thermodynamic properties of liquid binary alloys of the systems Cu-(Sc, Y, La),” Izv. Vyssh. Uchebn. Zaved., Tsvet. Metallurgiya, No. 6, 98–101 (1985).
Yu. A. Esin, S. E. Demin, and V. V. Litovskii, “Enthalpy of formation of liquid alloys of scandium with manganese, cobalt, nickel, and copper,” Zh. Fiz. Khim.,59, No. 1, 223–224 (1985).
M. A. Turchanin and S. V. Porokhnya, “Enthalpy of formation of liquid alloys of copper with titanium and zirconium,” Rasplavy, No. 5, 29–32 (1995).
H. Yokokawa and O. J. Kleppa, “Thermochemistry of liquid alloys of transition metals. Part II. (Copper + titanium) at 1372 K,” J. Chem. Thermodyn.,13, No. 8, 703–715 (1981).
O. K. Kleppa and S. Watanabe, “Thermochemistry of alloys of transition metals. Part III. Copper-silver, -titanium, - zirconium, and -hafnium at 1373 K,” Met. Trans.,B13, No. 1, 391–401 (1982).
M. A. Turchanin and S. V. Porokhnya, “Enthalpy of solution of vanadium and chromium in liquid copper,” Rasplavy, No. 3, 23–25 (1995).
M. A. Turchanin, S. V. Porokhnya, and A. V. Kokhan, “Calorimetric study of the thermodynamic properties of copper-manganese alloys,” Rasplavy, No. 3, 17–19 (1994).
V. N. Eremenko, G. M. Lukashenko, and V. R. Sidorko, “Thermodynamic properties of solid solutions in the system copper-manganese,” Izv. Akad. Nauk UkrSSR, Met. i Gornoe Delo, No. 6, 151–155 (1964).
P. Y. Spenser and J. M. Pratt, “Thermodynamic study of liquid manganese-copper alloys,” Trans. Farad. Soc.,64, No. 6, 1970–1976 (1968).
W. Olsen and E. Schurmann, “Zur Kalorimetric and Thermodynamic der Eisen-Kupfer-Legierungen,” Arch. Eisenhuttenw.,32, No. 10, 719–727 (1961).
Abu Él'-Khasan, K. Abdel'-Aziz, A. A. Vertman, and A. M. Samarin, “Thermochemistry of melts based on iron and nickel,” Izv. Akad. Nauk SSSR, Metally, No. 3, 19–30 (1966).
F. Wooley and J. F. Elliot, “Heats of solution of aluminum, copper, and silicon in liquid iron,” Trans. Met. Soc. AIME,239, No. 12, 1872–1883 (1967).
G. I. Batalin and V. S. Sudavtsova, “Thermodynamic properties of liquid Fe-Cu alloys,” Izv. Akad. Nauk UkrSSR, Metally, No. 2, 45–49 (1980).
M. A. Turchanin and S. V. Porokhnya, “Thermodynamics of the formation of liquid alloys of copper and iron,” Rasplavy, No. 1, 9–13 (1995).
L. Timberg, J. M. Toguri, and T. Azakami, “A thermodynamic study of copper-iron and copper-cobalt alloys by mass spectrometry,” Met. Trans.,B12, No. 2, 275–279 (1981).
V. P. Mintsis, L. Sh. Tsemekhman, B. P. Burylev, et al., “Thermodynamic properties of alloys of the iron-copper system,” Izv. Vyssh. Uchebn. Zaved., Chem. Metallurgiya, No. 6, 1–4 (1984).
M. A. Turchanin and I. V. Nikolaenko, “Heats of formation of liquid Co-Cu alloys and calculation of the enthalpies of mixing in the system Co-Cu-Sm,” Rasplavy, No. 5, 80–82 (1989).
R. N. Dokken and J. F. Elliot, “Calorimetry at 1200°C: the copper-nickel, copper-silver, copper-cobalt systems,” Trans. Met. Soc. AIME,233, No. 7, 1351–1358 (1965).
L. Elford, F. Miller, and O. Kubaschewski, “The thermodynamic properties of copper-nickel alloys,” Ber. Bunsenges. Phys. Chem.,73, No. 6, 601–605 (1969).
B. Predel and R. Mohs, “Thermodynamic Untersuchung Flussiger Nickel-Kupfer Legierungen,” Arch. Eisenhutt.,42, No. 8, 575–579 (1971).
Y. Yasutaka, T. Yasuyuki, and K. Mutsio, “Calorimetry study of the heat of mixing of nickel and cobalt alloys,” J. Iron and Steel Inst. Jpn.,63, No. 6, 953–961 (1977).
S. Sato and O. J. Kleppa, “Enthalpies of formation of borides of iron, cobalt, and nickel by solution calorimetry in liquid copper,” Met. Trans.,B13, Nos. 1–4, 251–257 (1982).
O. A. Esin, I. T. Sryvalin, and Yu. P. Nikitin, “Thermodynamic properties of melts of the system Ni-Cu- S,” Izv. Vyssh. Uchebn. Zaved., Tsvet. Met., No. 4, 66–72 (1958).
A. D. Kulkarni and R. E. Johnson, “Thermodynamic studies of liquid copper alloys by EMT-method. Part II. The Cu-Ni-O and Cu-Ni systems,” Met. Trans.,4, No. 7, 1723–1727 (1973).
Yu. T. Mel'nikov and V. E. Novoselov, “Thermodynamic properties of alloys of copper with nickel,” Zh. Fiz. Khim.,50, No. 9, 2371–2373 (1976).
C. W. Schultz, G. R. Zellars, and S. L. Payne, “Activities of copper and nickel in liquid copper-nickel alloys,” Rept. Invest. Bur. Mines U.S. Dep. Interior, No. 6410 (1964).
N. Maruyama and S. Banya, “Measurement of activities in liquid Fe-Ni, Fe-Co, and Ni-Co alloys by a transportation method,” J. Jpn. Inst. Met.,42, No. 6, 942–999 (1978).
J. Tomiska and A. Neckel, “Knudsen cell mass spectrometry determination of the thermodynamic properties of liquid copper-nickel alloys,” Int. J. Mass-Spectr. and Ion Phys. Conf. (Vienna, Aug. 30-Sept. 3, 1982), Part C, Vienna (1982).
L. Sh. Tsemekhman, V. P. Mintsis, and B. P. Burylev, “Physicochemical interaction in the system Fe-Cu-Ni,” Izv. Vyssh. Uchebn. Zaved., Chernaya Met., No. 3, 1–4 (1985).
L. Sh. Tsemekhman and V. P. Mintsis, “Thermodynamic properties of metals of the system copper-nickel,” in: Thermodynamic Properties and Analysis of Transition Metal Systems [in Russian], Kuban. Univ., Krasnodar (1989).
V. V. Berezutskii and G. M. Lukashenko, “Thermodynamic properties of liquid alloys of nickel with copper,” Ukr. Khim. Zh.,53, No. 10, 1029–1032 (1987).
M. A. Turchanin, S. V. Porokhnya, and A. V. Kokhan, “Thermodynamic properties of liquid copper-nickel alloys,” Rasplavy, No. 4, 8–12 (1984).
A. Schneider and H. Schmid, “EMK Unterschungen flussiger Kupfer-Zink-Legierungen,” Z. Elektrochem.,B48, 627–632 (1942).
D. B. Downie, “Thermodynamic and structure properties of liquid zinc/copper alloys,” Acta Met., No. 12, 875–882 (1964).
E. H. Baker, “Vapor pressure and thermodynamic behavior of liquid zinc-copper alloys at 1150°C,” Trans. of the Inst. of Min and Met., Section C79, C1-C5 March (1970).
U. Gerling and B. Predel, “Zur Kenntnis thermodynamischer Eisenschaften flussiger Kupfer-Zink-Legierungen,” Z. Metallkunde,71, No. 3, 158–164 (1980).
O. M. Barabash and Yu. N. Koval', Crystal Structure of Metals and Alloys [in Russian], Naukova Dumka, Kiev (1986).
K. Day and D. Selbin, Theoretical Inorganic Chemistry [Russian translation], Khimiya, Moscow (1971).
V. S. Fomenko, Emission Properties of Materials [in Russian], Naukova Dumka, Kiev (1981).
U. Harrison, Electron Structure and Properties of Solids, Vol. 2 [Russian translation], Mir, Moscow (1983).
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Donbass State Engineering Academy, Kramatorsk. Translated from Poroshkovaya Metallurgiya, Nos. 7–8, pp. 64–75, July–August, 1996.
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Turchanin, M.A., Porokhnya, S.V. Heat of formation of liquid copper alloys with 3d-transition metals. Powder Metall Met Ceram 35, 378–388 (1996). https://doi.org/10.1007/BF01329228
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DOI: https://doi.org/10.1007/BF01329228