１４７３Ｋ，Ａｒ‐１７．６％Ｈ２‐１２．２％Ｈ２Ｏ雰囲気におけるＦｅ‐１　ｍａｓｓ％Ｓｉ合金の高温酸化で生成する内部酸化物の定量化

黄 維彬, 上田 光敏, 河村 憲一, 丸山 俊夫

doi:10.2355/tetsutohagane.97.473

Surface defects formed on Si-containing steels in hot-rolling process depend largely on the character of the scale composed of FeO and Fe₂SiO₄ (FeO+Fe₂SiO₄ oxide scale) during de-scaling. The formation of FeO+Fe₂SiO₄ oxide scale is influence by internal oxide precipitates. In order to elucidate quantitatively the internal oxidation, it is required to analyze the distributions of number, radius and volume of internal oxide precipitates in internal oxidation zone (IOZ).<br>Internal oxidation of Fe–1 mass%Si alloy was examined at 1473K in Ar–17.6%H₂–12.2%H₂O where an outer scale of FeO does not form. The growth rate of IOZ was obeyed the parabolic rate law, indicating that the rate-determining step was the diffusion of oxygen through alloy. SiO₂ precipitated from the internal oxidation front to 0.23±0.02 of normalized thickness of IOZ, and Fe₂SiO₄ precipitated from the position to the gas/alloy interface, depending on the chemical potential distribution of oxygen. Fe₂SiO₄ is formed by the reaction between SiO₂, Fe and dissolved oxygen in IOZ. The number of precipitates in unit volume is reciprocally proportional to depth in IOZ, suggesting that the grain growth of oxide obviously affected the distribution. The radius of the precipitates was proportional to the cubic root of depth so that the volume of the precipitate was proportional to depth. These results elucidated that the volume fraction of precipitates in IOZ was constant.

１４７３Ｋ，Ａｒ‐１７．６％Ｈ２‐１２．２％Ｈ２Ｏ雰囲気におけるＦｅ‐１　ｍａｓｓ％Ｓｉ合金の高温酸化で生成する内部酸化物の定量化

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１４７３Ｋ，Ａｒ‐１７．６％Ｈ２‐１２．２％Ｈ２Ｏ雰囲気におけるＦｅ‐１ ｍａｓｓ％Ｓｉ合金の高温酸化で生成する内部酸化物の定量化

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１４７３Ｋ，Ａｒ‐１７．６％Ｈ２‐１２．２％Ｈ２Ｏ雰囲気におけるＦｅ‐１　ｍａｓｓ％Ｓｉ合金の高温酸化で生成する内部酸化物の定量化

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