Thermodynamic Model For Ternary Silicate Systems
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概要
- 論文の詳細を見る
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, <I>etc.</I> It is based on a structural model which assumes that each metallic oxide produces the depolymerization reaction O°+O2-=O-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.
- 社団法人 日本鉄鋼協会の論文
- 2000-07-15
著者
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Romero-serrano Antonio
Metallurgy And Materials Department Instituto Politecnico Nacional-esiqie
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CHAVEZ Federico
Metallurgy and Materials Department, Instituto Politecnico Nacional-ESIQIE
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GUTIERREZ Juliana
Metallurgy and Materials Department, Instituto Politecnico Nacional-ESIQIE
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PLASCENCIA Gabriel
Metallurgy and Materials Department, Instituto Politecnico Nacional-ESIQIE
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VARGAS Roberto
Metallurgy and Materials Department, Instituto Politecnico Nacional-ESIQIE
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Vargas Roberto
Metallurgy And Materials Department Instituto Politecnico Nacional-esiqie
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Chavez Federico
Metallurgy And Materials Department Instituto Politecnico Nacional-esiqie
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Gutierrez Juliana
Metallurgy And Materials Department Instituto Politecnico Nacional-esiqie
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Plascencia Gabriel
Metallurgy And Materials Department Instituto Politecnico Nacional-esiqie
関連論文
- Thermodynamic Analysis of Binary and Ternary Silicate Systems by a Structural Model
- Dephosphorization and Desulfurization Pretreatment of Molten Iron with CaO-SiO_2-CaF_2-FeO-N_2O Slags
- Thermodynamic Model For Ternary Silicate Systems