Abstract
The results of comparative thermodynamic analysis of AuIn–Sb section in ternary Au–In–Sb system are presented in this paper. Investigation was carried out experimentally, using Oelsen calorimetry at the temperature 873 K and analytically, applying different predicting methods––Toop and Muggianu in the temperature interval from 873 K to 1673 K. The values for integral molar Gibbs excess energies and antimony activities have been determined and compared at temperature of 873 K, which indicated to good agreement between experimental results and results obtained using Toop predicting model.
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Živković D, Živković Ž, Manasijević D. Comparative thermodynamic analysis of the Pb-Au0.7Sn0.3 section in the Pb-Au-Sn ternary system. Thermochimica Acta. 2005;435:113–7.
Hwang JS. Environment-friendly electronics: lead-free technology. Port Erin: Electrochemical Publications Ltd; 2001. p. 97.
Liu HS, Liu CL, Wang C, Jin ZP, Ishida K. Thermodynamic modeling of the Au-In-Sb ternary system. J Electron Mater. 2003;32:81–7.
Version 1.1 of the COST 531 Database for Lead-Free Solders (http://www.ap.univie.ac.at/users/www.cost531).
Kubiak R, Schubert K. On the alloy system Au-In-Sb. Z Metallkd. 1980;71:635–7.
Tsai CT, Williams RS. Solid phase equilibria in the Au-Ga-As, Au-Ga-Sb, Au-In-As and Au-In-Sb ternaries. J Mater Res. 1986;1:352–60.
Gomidželović L, Živković D, Mihajlović I. Predicting of thermodynamic properties of ternary Au-In-Sb system. Arch Hutnictwa. 2006;51(3):355–63.
Gomidželović L, Živković D, Talijan N, Manasijević D, Ćosović V, Grujić A. Phase equilibria investigation and characterization of the Au-In-Sb system. J Optoelectronics Adv Mater. 2008;10(2):455–60.
Oelsen W, Tebbe W, Oelsen O. Zur thermodynamischen Analyse VII – Das Trockneis-Kalorimeter. Arch Eisenhuttenwess. 1956;27:689–94.
Oelsen W, Schurmann E, Weigt HJ, Oelsen O. Zur thermodynamischen Analyse IV – Vermischungsentropie und Bildungsaffinitat der Blei-Kadmium-Schmelzen aus kalorimetrischen Messungen. Arch Eisenhuttenwess. 1956;27:487–511.
Oelsen W, Bieret F, Schwabe G. Zur thermodynamischen Analyse VI – Kalorimetrie und Thermodynamic der Wismut-Kadmium-Legierungen. Arch Eisenhuttenwess. 1956;27:607–20.
Živković D, Katayama I, Kostov A, Živković Ž. Comparative thermodynamic study of GaSb-Sn system. J Therm Anal Calorim. 2003;71:567–82.
Kostov A, Živković D, Živković Ž. Comparative thermodynamic analysis of Ga-GeSb0.855 section in the ternary system Ga-Ge-Sb. J Therm Anal Calorim. 2000;60:473–87.
Kostov A, Živković D, Živković Ž. Thermodynamic analysis and characterization of Ga-GeSb0.855 section in Ga-Ge-Sb ternary system. J Therm Anal Calorim. 2001;65:955–64.
Singh RN. Short-range order and concentration fluctuations in binary molten alloys. Can J Phys. 1987;65:309–25.
Toop GW. Predicting ternary activities using binary data. Trans Met Soc AIME. 1965;233:850–5.
Muggianu YM, Gambino M, Bross JP. Enthalpies of formation of liquid alloys. J Chimie Physique. 1975;72:83–8.
Amore S, Delsante S, Parodi N, Borzone G. Calorimetric investigation of the Cu-Sn-Bi lead-free solder system. J Therm Anal Calorim. 2008;92(1):227–32.
Živković D, Milosavljević A, Mitovski A, Marjanović B. Comparative thermodynamic study and characterization of ternary Ag-In-Sb alloys. J Therm Anal Calorim. 2007;89(1):137–42.
Ipser H. Basic research on lead-free soldering. J Min Metall Sec B: Metall. 2007;43B(2):109–12.
Jendrzejczyk-Handzlik D, Živković D, Gierlotka W, Manasijević D, Fitzner K, Minić D. Phase relations near ternary eutectic point in the Ag-In-Sb system. J Min Metall Sec B: Metall. 2007;43B(2):161–9.
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The authors are grateful to the Ministry of Science and Environmental Protection of the Republic of Serbia (Project No. 142043) for financial support.
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Gomidželović, L., Živković, D. Thermodynamic analysis of AuIn–Sb system using Oelsen calorimetry and predicting methods. J Therm Anal Calorim 98, 743–748 (2009). https://doi.org/10.1007/s10973-009-0212-3
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DOI: https://doi.org/10.1007/s10973-009-0212-3