Thermodynamic modeling of the BaO-SiO2 and SrO-SiO2 binary melts

A. Romero-Serrano; A. Cruz-Ramirez; B. Zeifert; M. Hallen-Lopez; A. Hernandez-Ramirez

doi:10.1134/S1087659610020045

Thermodynamic modeling of the BaO-SiO₂ and SrO-SiO₂ binary melts

A. Romero-Serrano, A. Cruz-Ramirez, B. Zeifert, M. Hallen-Lopez, A. Hernandez-Ramirez

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20 Scopus citations

Abstract

The evaluation of the thermodynamic properties and the phase diagrams for the binary BaO-SiO₂ and SrO-SiO₂ systems is carried out using a structural model for silicate melts and glasses. This thermodynamic model is based on the assumption that an addition of metal oxides to silica results in the depolymerization of the silicon-oxygen network, with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously. In this manner, data for the above binary systems have been analysed and represented with a small number of parameters. The resulting equations represent the thermodynamic and phase diagram data for the alkaline-earth oxide-silica systems within error limits for most of the experimental data. In particular, the measured limiting liquidus slope, at X SiO₂ = 1, is well reproduced.

Original language	English
Pages (from-to)	171-178
Number of pages	8
Journal	Glass Physics and Chemistry
Volume	36
Issue number	2
DOIs	https://doi.org/10.1134/S1087659610020045
State	Published - Apr 2010
Externally published	Yes

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title = "Thermodynamic modeling of the BaO-SiO2 and SrO-SiO2 binary melts",

abstract = "The evaluation of the thermodynamic properties and the phase diagrams for the binary BaO-SiO2 and SrO-SiO2 systems is carried out using a structural model for silicate melts and glasses. This thermodynamic model is based on the assumption that an addition of metal oxides to silica results in the depolymerization of the silicon-oxygen network, with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously. In this manner, data for the above binary systems have been analysed and represented with a small number of parameters. The resulting equations represent the thermodynamic and phase diagram data for the alkaline-earth oxide-silica systems within error limits for most of the experimental data. In particular, the measured limiting liquidus slope, at X SiO2 = 1, is well reproduced.",

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T1 - Thermodynamic modeling of the BaO-SiO2 and SrO-SiO2 binary melts

AU - Romero-Serrano, A.

AU - Cruz-Ramirez, A.

AU - Zeifert, B.

AU - Hallen-Lopez, M.

AU - Hernandez-Ramirez, A.

PY - 2010/4

Y1 - 2010/4

N2 - The evaluation of the thermodynamic properties and the phase diagrams for the binary BaO-SiO2 and SrO-SiO2 systems is carried out using a structural model for silicate melts and glasses. This thermodynamic model is based on the assumption that an addition of metal oxides to silica results in the depolymerization of the silicon-oxygen network, with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously. In this manner, data for the above binary systems have been analysed and represented with a small number of parameters. The resulting equations represent the thermodynamic and phase diagram data for the alkaline-earth oxide-silica systems within error limits for most of the experimental data. In particular, the measured limiting liquidus slope, at X SiO2 = 1, is well reproduced.

AB - The evaluation of the thermodynamic properties and the phase diagrams for the binary BaO-SiO2 and SrO-SiO2 systems is carried out using a structural model for silicate melts and glasses. This thermodynamic model is based on the assumption that an addition of metal oxides to silica results in the depolymerization of the silicon-oxygen network, with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously. In this manner, data for the above binary systems have been analysed and represented with a small number of parameters. The resulting equations represent the thermodynamic and phase diagram data for the alkaline-earth oxide-silica systems within error limits for most of the experimental data. In particular, the measured limiting liquidus slope, at X SiO2 = 1, is well reproduced.

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Thermodynamic modeling of the BaO-SiO₂ and SrO-SiO₂ binary melts

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