Electrochemical and spectroscopic characterization of oxide films formed on Alloy 182 in simulated boiling water reactor environment: Effect of dissolved hydrogen

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Electrochemical and spectroscopic characterization of oxide films formed on Alloy 182 in simulated boiling water reactor environment: Effect of dissolved hydrogen. / Bosch, Rik-Wouter; Bai, Juxing; Ritter, Stefan; Schneider, Christof W.; Seifert, Hans-Peter; Virtanen, Sannakaisa.

In: Corrosion Science, Vol. 133, 01.02.2018, p. 204-216.

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Bosch, Rik-Wouter ; Bai, Juxing ; Ritter, Stefan ; Schneider, Christof W. ; Seifert, Hans-Peter ; Virtanen, Sannakaisa. / Electrochemical and spectroscopic characterization of oxide films formed on Alloy 182 in simulated boiling water reactor environment: Effect of dissolved hydrogen. In: Corrosion Science. 2018 ; Vol. 133. pp. 204-216.

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@article{f4e99ea29e844d8183bab36a112d9efb,
title = "Electrochemical and spectroscopic characterization of oxide films formed on Alloy 182 in simulated boiling water reactor environment: Effect of dissolved hydrogen",
abstract = "In boiling water reactor (BWR) environments, the content of dissolved hydrogen (DH) in the high-temperature water has an influence on the stress corrosion cracking (SCC) susceptibility of Ni-based alloys. In order to understand the possible role of different types of surface oxide films in the SCC initiation process, oxide films formed on Alloy 182 weld metal under simulated BWR conditions at 274 °C with varying contents of DH from 10 to 2200 ppb, were investigated by electrochemical and spectroscopic methods. The influence of the DH content on the nature of the oxide films is discussed in the context of SCC mechanisms.",
keywords = "Ni-based alloy, Stress corrosion cracking, Hydrogen, Electron microscopy, Spectroscopy, Electrochemical analysis",
author = "Rik-Wouter Bosch and Juxing Bai and Stefan Ritter and Schneider, {Christof W.} and Hans-Peter Seifert and Sannakaisa Virtanen",
note = "Score=10",
year = "2018",
month = "2",
day = "1",
doi = "10.1016/j.corsci.2018.01.024",
language = "English",
volume = "133",
pages = "204--216",
journal = "Corrosion Science",
issn = "0010-938X",
publisher = "Elsevier",

}

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TY - JOUR

T1 - Electrochemical and spectroscopic characterization of oxide films formed on Alloy 182 in simulated boiling water reactor environment: Effect of dissolved hydrogen

AU - Bosch, Rik-Wouter

AU - Bai, Juxing

AU - Ritter, Stefan

AU - Schneider, Christof W.

AU - Seifert, Hans-Peter

AU - Virtanen, Sannakaisa

N1 - Score=10

PY - 2018/2/1

Y1 - 2018/2/1

N2 - In boiling water reactor (BWR) environments, the content of dissolved hydrogen (DH) in the high-temperature water has an influence on the stress corrosion cracking (SCC) susceptibility of Ni-based alloys. In order to understand the possible role of different types of surface oxide films in the SCC initiation process, oxide films formed on Alloy 182 weld metal under simulated BWR conditions at 274 °C with varying contents of DH from 10 to 2200 ppb, were investigated by electrochemical and spectroscopic methods. The influence of the DH content on the nature of the oxide films is discussed in the context of SCC mechanisms.

AB - In boiling water reactor (BWR) environments, the content of dissolved hydrogen (DH) in the high-temperature water has an influence on the stress corrosion cracking (SCC) susceptibility of Ni-based alloys. In order to understand the possible role of different types of surface oxide films in the SCC initiation process, oxide films formed on Alloy 182 weld metal under simulated BWR conditions at 274 °C with varying contents of DH from 10 to 2200 ppb, were investigated by electrochemical and spectroscopic methods. The influence of the DH content on the nature of the oxide films is discussed in the context of SCC mechanisms.

KW - Ni-based alloy

KW - Stress corrosion cracking

KW - Hydrogen

KW - Electron microscopy

KW - Spectroscopy

KW - Electrochemical analysis

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/31706734

U2 - 10.1016/j.corsci.2018.01.024

DO - 10.1016/j.corsci.2018.01.024

M3 - Article

VL - 133

SP - 204

EP - 216

JO - Corrosion Science

JF - Corrosion Science

SN - 0010-938X

ER -

ID: 4752799