Effects of Hydrogen Peroxide on Intergranular Stress Corrosion Cracking of Stainless Steel in High Temperature Water, (III)Crack Growth Rates in Corrosive Environment Determined by Hydrogen Peroxide
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概要
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The stress corrosion cracking (SCC) of structural materials used in boiling water reactors has been studied at relatively low hydrogen peroxide (H2O2) concentrations, around 10 ppb, which was assumed to be representative of the corrosion environment formed in hydrogen water chemistry (HWC). The 1/4T compact tension specimen was used for measurement of crack growth rates (CGRs) of sensitized type 304 stainless steel in high temperature and high purity water. Crack length was monitored by a reversing direct current potential drop method. Since H2O2 is easily decomposed thermally, a polytetrafluoroethylene-lined autoclave was used to minimize its decomposition on the autoclave surface. The CGR in the H2O2 environment differed from that in the O2 environment even though the electrochemical corrosion potential (ECP) for both conditions was the same. The data implied that the ECP could not be used as a common environmental deterministic parameter for SCC behavior at higher potentials for different oxidant conditions. The corrosion current density was found to play an important role as an environmental index for SCC, which was given as just the current density at the ECP at a specific oxidant concentration. The CGRs were found to be written as CGR=(3.8±0.6)×10−3icor+(1.5±1.6)×10−8 mm/s using the calculated corrosion current density icor below 10−4 A·cm−2.
- 社団法人 日本原子力学会の論文
- 2000-10-25
著者
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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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ISHIGURE Kenkichi
Department of Quantum Engineering and Systems Science, The University of Tokyo
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Ishigure K
Saitama Inst. Of Technol. Saitama
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Ishigure Kenkichi
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Ishigure K
Department Of Quantum Engineering And Systems Science The University Of Tokyo
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Wada Yoichi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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TACHIBANA Masahiko
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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WATANABE Atsushi
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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UETAKE Naohito
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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UCHIDA Shunsuke
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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Iinuma Kouichi
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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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
Energy Research Laboratory Hitachi Ltd.
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Uchida Shunsuke
Power & Industrial Systems R&d Division Hitachi Ltd.
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Uetake N
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Uetake Naohito
Power & Industrial Systems R&d Division Hitachi Ltd.
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Ishigure Kenkichi
Department Of Quantum Engineering And System Science Faculty Of Engineering University Of Tokyo
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Tachibana Masahiko
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Ishida Kazushige
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Ishida Kazushige
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Wada Yoichi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Watanabe A
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Watanabe Atsushi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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