Thermodynamic analysis of the SiO2-NiO-FeO system

R. Alejandro Cruz; S. Antonio Romero; R. Marissa Vargas; L. Manuel Hallen

doi:10.1016/j.jnoncrysol.2005.03.008

Thermodynamic analysis of the SiO₂-NiO-FeO system

R. Alejandro Cruz, S. Antonio Romero, R. Marissa Vargas, L. Manuel Hallen

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The evaluation of the thermodynamic properties and phase diagrams of the FeO-SiO₂, NiO-SiO₂ and SiO₂-NiO-FeO systems is presented in which a structural model is used for the liquid phase. This thermodynamic model is based on the assumption that each metallic oxide produces the depolymerization reaction of silica network with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously for the binary systems. In this manner, data for these binary systems have been analyzed and represented with a small number of parameters. The binary structural model is extended to the ternary system assuming a random mixing of cations Fe ²⁺ and Ni²⁺, since the FeO-SiO₂ and NiO-SiO₂ binary systems exhibit similar thermodynamic behavior, that is comparable free energies of mixing.

Original language	English
Pages (from-to)	1359-1365
Number of pages	7
Journal	Journal of Non-Crystalline Solids
Volume	351
Issue number	16-17
DOIs	https://doi.org/10.1016/j.jnoncrysol.2005.03.008
State	Published - 1 Jun 2005
Externally published	Yes

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10.1016/j.jnoncrysol.2005.03.008

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title = "Thermodynamic analysis of the SiO2-NiO-FeO system",

abstract = "The evaluation of the thermodynamic properties and phase diagrams of the FeO-SiO2, NiO-SiO2 and SiO2-NiO-FeO systems is presented in which a structural model is used for the liquid phase. This thermodynamic model is based on the assumption that each metallic oxide produces the depolymerization reaction of silica network with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously for the binary systems. In this manner, data for these binary systems have been analyzed and represented with a small number of parameters. The binary structural model is extended to the ternary system assuming a random mixing of cations Fe 2+ and Ni2+, since the FeO-SiO2 and NiO-SiO2 binary systems exhibit similar thermodynamic behavior, that is comparable free energies of mixing.",

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T1 - Thermodynamic analysis of the SiO2-NiO-FeO system

AU - Cruz, R. Alejandro

AU - Romero, S. Antonio

AU - Vargas, R. Marissa

AU - Hallen, L. Manuel

PY - 2005/6/1

Y1 - 2005/6/1

N2 - The evaluation of the thermodynamic properties and phase diagrams of the FeO-SiO2, NiO-SiO2 and SiO2-NiO-FeO systems is presented in which a structural model is used for the liquid phase. This thermodynamic model is based on the assumption that each metallic oxide produces the depolymerization reaction of silica network with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously for the binary systems. In this manner, data for these binary systems have been analyzed and represented with a small number of parameters. The binary structural model is extended to the ternary system assuming a random mixing of cations Fe 2+ and Ni2+, since the FeO-SiO2 and NiO-SiO2 binary systems exhibit similar thermodynamic behavior, that is comparable free energies of mixing.

AB - The evaluation of the thermodynamic properties and phase diagrams of the FeO-SiO2, NiO-SiO2 and SiO2-NiO-FeO systems is presented in which a structural model is used for the liquid phase. This thermodynamic model is based on the assumption that each metallic oxide produces the depolymerization reaction of silica network with a characteristic free energy change. A least squares optimization program permits all available thermodynamic and phase diagram data to be optimized simultaneously for the binary systems. In this manner, data for these binary systems have been analyzed and represented with a small number of parameters. The binary structural model is extended to the ternary system assuming a random mixing of cations Fe 2+ and Ni2+, since the FeO-SiO2 and NiO-SiO2 binary systems exhibit similar thermodynamic behavior, that is comparable free energies of mixing.

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DO - 10.1016/j.jnoncrysol.2005.03.008

M3 - Artículo

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SP - 1359

EP - 1365

JO - Journal of Non-Crystalline Solids

JF - Journal of Non-Crystalline Solids

IS - 16-17

ER -

Thermodynamic analysis of the SiO₂-NiO-FeO system

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