Abstract
Chemical component exchange and transport phenomena accompanying the multistage phase transformations of several silicate and aluminosilicate-phosphate glasses and borates as model systems are considered. It is demonstrated that the component transport limitations modify the role of chemical affinity influence and determine the sequence of new compound formation.
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References
L. Stoch, J. Thermal Anal., 38 (1992) 131.
L. Stoch, J. Thermal Anal., 4 (1997) 121.
G. H. Frischat, Ionic diffusion in oxide glasses, Trans Tech Publications, Ohio 1976.
L. Stoch and I. Wacławska, Thermochim. Acta, 215 (1993) 255.
A. B. Thompson and E. H. Perkins, in Thermodynamics of Minerals and Melts, R. C. Newton, A. Navrotsky and B. J. Wood, Ed., Springer Verlag, Berlin 1981, pp. 35–62.
J. W. Christian, The Theory of Transformation in Metals and Alloys, Pergamon Press, Oxford 1965.
L. Stoch and I. Wacławska, High Temp. Materials and Processes, 13 (1994) 181.
L. Stoch, in Flash Reaction Processes, NATO ser. Kluver Acad. Press. Dordrecht, 1995, pp. 1–63.
I. Wacławska, J. Alloys and Compounds, 244 (1996) 52.
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The work was supported by grant P040703406 from the National Committee of Scientific Research of Poland.
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Stoch, L. Chemical component exchange and transport phenomena accompanying phase transformations in minerals and materials. Journal of Thermal Analysis 49, 1433–1440 (1997). https://doi.org/10.1007/BF01983702
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DOI: https://doi.org/10.1007/BF01983702