Thermodynamic model for ternary silicate systems

Juliana Gutierrez; Antonio Romero-Serrano; Gabriel Plascencia; Federico Chavez; Roberto Vargas

doi:10.2355/isijinternational.40.664

Thermodynamic model for ternary silicate systems

Juliana Gutierrez, Antonio Romero-Serrano, Gabriel Plascencia, Federico Chavez, Roberto Vargas

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

12 Citas (Scopus)

Resumen

A thermodynamic model has been developed for the representation of ternary liquid silicate systems SiO₂-AO-BO, where A and B are metals such as Ca, Fe, Mn, etc. It is based on a structural model which assumes that each metallic oxide produces the depolymerization reaction O°+O^2- = 2O^- with a characteristic free energy change. The model can calculate the properties of ternary systems solely from data of the binary sub-systems. No ternary terms are required. The model is used to calculate the activities of the components in complex silicates such as SiO₂-FeO-CaO where the behavior of Fe²⁺ is very different from that of Ca²⁺ in the silicate structure. This model has been also used to calculate the activities in the systems SiO₂-MgO-FeO, SiO₂-MgO-CaO, SiO₂-MgO-MnO, SiO₂-Na-O-MgO and SiO₂-Na₂O-CaO. Good agreement is obtained between calculated and experimental results.

Idioma original	Inglés
Páginas (desde-hasta)	664-669
Número de páginas	6
Publicación	ISIJ International
Volumen	40
N.º	7
DOI	https://doi.org/10.2355/isijinternational.40.664
Estado	Publicada - 2000
Publicado de forma externa	Sí

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title = "Thermodynamic model for ternary silicate systems",

abstract = "A thermodynamic model has been developed for the representation of ternary liquid silicate systems SiO2-AO-BO, where A and B are metals such as Ca, Fe, Mn, etc. It is based on a structural model which assumes that each metallic oxide produces the depolymerization reaction O°+O2- = 2O- with a characteristic free energy change. The model can calculate the properties of ternary systems solely from data of the binary sub-systems. No ternary terms are required. The model is used to calculate the activities of the components in complex silicates such as SiO2-FeO-CaO where the behavior of Fe2+ is very different from that of Ca2+ in the silicate structure. This model has been also used to calculate the activities in the systems SiO2-MgO-FeO, SiO2-MgO-CaO, SiO2-MgO-MnO, SiO2-Na-O-MgO and SiO2-Na2O-CaO. Good agreement is obtained between calculated and experimental results.",

author = "Juliana Gutierrez and Antonio Romero-Serrano and Gabriel Plascencia and Federico Chavez and Roberto Vargas",

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doi = "10.2355/isijinternational.40.664",

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T1 - Thermodynamic model for ternary silicate systems

AU - Gutierrez, Juliana

AU - Romero-Serrano, Antonio

AU - Plascencia, Gabriel

AU - Chavez, Federico

AU - Vargas, Roberto

PY - 2000

Y1 - 2000

N2 - A thermodynamic model has been developed for the representation of ternary liquid silicate systems SiO2-AO-BO, where A and B are metals such as Ca, Fe, Mn, etc. It is based on a structural model which assumes that each metallic oxide produces the depolymerization reaction O°+O2- = 2O- with a characteristic free energy change. The model can calculate the properties of ternary systems solely from data of the binary sub-systems. No ternary terms are required. The model is used to calculate the activities of the components in complex silicates such as SiO2-FeO-CaO where the behavior of Fe2+ is very different from that of Ca2+ in the silicate structure. This model has been also used to calculate the activities in the systems SiO2-MgO-FeO, SiO2-MgO-CaO, SiO2-MgO-MnO, SiO2-Na-O-MgO and SiO2-Na2O-CaO. Good agreement is obtained between calculated and experimental results.

AB - A thermodynamic model has been developed for the representation of ternary liquid silicate systems SiO2-AO-BO, where A and B are metals such as Ca, Fe, Mn, etc. It is based on a structural model which assumes that each metallic oxide produces the depolymerization reaction O°+O2- = 2O- with a characteristic free energy change. The model can calculate the properties of ternary systems solely from data of the binary sub-systems. No ternary terms are required. The model is used to calculate the activities of the components in complex silicates such as SiO2-FeO-CaO where the behavior of Fe2+ is very different from that of Ca2+ in the silicate structure. This model has been also used to calculate the activities in the systems SiO2-MgO-FeO, SiO2-MgO-CaO, SiO2-MgO-MnO, SiO2-Na-O-MgO and SiO2-Na2O-CaO. Good agreement is obtained between calculated and experimental results.

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DO - 10.2355/isijinternational.40.664

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VL - 40

SP - 664

EP - 669

JO - ISIJ International

JF - ISIJ International

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Thermodynamic model for ternary silicate systems

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