Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (V) : Characterization of Oxide Film on Stainless Steel by Multilateral Surface Analyses
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概要
- 論文の詳細を見る
The difference in electrochemical corrosion potential of stainless steel exposed to high temperature pure water containing hydrogen peroxide (H2O2) and oxygen (O2) is caused by differences in chemical form of oxide films. In order to identify differences in oxide film structures on stainless steel after exposure to H2O2 and O2 environments, characteristics of the oxide films have been examined by multilateral surface analyses, e.g., X-ray diffraction (XRD), Rutherford back scattering spectroscopy (RBS), secondary ion mass spectroscopy (SIMS) and X-ray photoelectron spectroscopy (XPS). Preliminary characterization results of oxide films confirmed that the oxide film formed under the H2O2 environment consists mainly of hematite (α-Fe2O3), while that under the O2 environment consists of magnetite (Fe3O4). Furthermore oxidation at the very surface of the film is much more enhanced under the H2O2 environment than that under the O2 environment. It was speculated that metal hydroxide plays an important role in oxidation of stainless steel in the presence of H2O2. The difference in electric resistance of oxide film causes the difference in anodic polarization properties. It is recommended that several anodic polarization curves for specimens with differently oxidized films should be prepared to calculate ECP based on the Evans diagram.
- 社団法人 日本原子力学会の論文
- 2002-11-25
著者
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UCHIDA Shunsuke
The Institute of Applied Energy
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Uchida S
Japan Atomic Energy Agency
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Uchida S
Tohoku Univ. Sendai
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Wada Y
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Wada Yoichi
Power And Industrial Systems R& D Division Hitachi Ltd.
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Wada Yoichi
Energy And Environmental Systems Lab. Hitachi Ltd.
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Wada Yoichi
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Satoh Y
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Wada Yoichi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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UCHIDA Shunsuke
Department of Bioengineering, Faculty of Engineering, Kagoshima University
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Satoh Yoshiyuki
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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TACHIBANA Masahiko
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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SATOH Tomonori
Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku Univers
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SATOH Tomonori
Nuclear Science and Engineering Directorate, Japan Atomic Energy Agency
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MURAYAMA Yohei
Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku Univers
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NAGATA Shinji
Materials Design Division, Institute for Materials Research, Tohoku University
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SATOH Toshio
Division of Materials Control, Institute of Multidisciplinary Research for Advanced Materials, Tohok
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Uchida Shunsuke
Department Of Bioengineering Faculty Of Engineering Kagoshima University
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Uchida Shunsuke
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Uchida Shunsuke
Power And Industrial Systems R&d Division Hitachi Ltd.
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Uchida Shunsuke
Energy Research Laboratory Hitachi Ltd.
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Murayama Yohei
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Satoh Tomonori
Nuclear Science And Engineering Directorate Japan Atomic Energy Agency
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Tachibana Masahiko
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Nagata Shinji
Materials Design Division Institute For Materials Research Tohoku University
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Wada Yoichi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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