Effects Of Hydrogen Peroxide On Intergranular Stress Corrosion Cracking Of Stainless Steel in High Temperature Water, (IV): Effects of Oxide Film on Electrochemical Corrosion Potential
Yoichi Wada,Atsushi Watanabe,Masahiko Tachibana,Kazushige Ishida,Naohito Uetake,Shunsuke Uchida,Kazuhiko Akamine,Mitsuru Sambongi,Shunichi Suzuki,Kenkichi Ishigure +9 more
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In this article, the effects of hydrogen peroxide on electrochemical corrosion potential (ECP) of type 304 stainless steel (SUS304) were measured using a high temperature, high pressure.Abstract:
In order to determine the effects of hydrogen peroxide on electrochemical corrosion potential (ECP) of type 304 stainless steel (SUS304), ECPs were measured using a high temperature, high pressure ...read more
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Characterization of oxide films grown on 316L stainless steel exposed to H2O2-containing supercritical water
TL;DR: In this article, the morphologies, microstructure and chemical compositions of oxide films grown on 316L stainless steel exposed to H2O2-containing supercritical water (SCW) were investigated using a scanning electron microscope equipped with an energy-dispersive X-ray spectrometer (EDX), an XPS analyzer and an XRD analyzer.
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Microstructural characteristics of the oxide scale formed on 304 stainless steel in oxygenated high temperature water
TL;DR: The microstructural characteristics of oxide scale formed on type 304 stainless steel in oxygenated high temperature water have been investigated in this paper, where the oxide scale consists of faceted spinel particles, irregularly shaped hematite particles and a compact layer of nano-sized spinels.
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Effects of hydrogen peroxide on corrosion of stainless steel, (V) : Characterization of oxide film with multilateral surface analyses
Takahiro Miyazawa,Takumi Terachi,Shunsuke Uchida,Tomonori Satoh,Takashi Tsukada,Yoshiyuki Satoh,Yoichi Wada,Hideyuki Hosokawa +7 more
TL;DR: In this paper, a multilateral surface analysis of stainless steel specimens exposed to H2O2 and O2 in high temperature water was carried out by multilateral surfaces, i.e., SEM (scanning electron microscope), LRS (laser Raman spectroscope), SIMS (secondary ion mass spectroscient) and STEM-EDX (scanned transmission electron microscope).
Journal ArticleDOI
Pickling of austenitic stainless steels (a review)
Lian-Fu Li,Jean-Pierre Celis +1 more
TL;DR: In this article, the effect of hot and cold rolling on the pickling of austenitic stainless steels is introduced, and the formation of an oxide scale and a chromium-depleted layer during annealing is discussed.
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High temperature oxidation behavior of AISI 304L stainless steel—Effect of surface working operations
TL;DR: In this article, the oxidation behavior of 304L stainless steel (SS) subjected to different surface finishing (machining and grinding) operations was followed in situ by contact electric resistance (CER) and electrochemical impedance spectroscopy (EIS) measurements using controlled distance electrochemistry (CDE) technique in high purity water (conductivity
References
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A coupled environment model for stress corrosion cracking in sensitized type 304 stainless steel in LWR environments
TL;DR: In this article, a physico-electrochemical model was developed to describe intergranular stress corrosion cracking (IGSCC) in sensitized Type 304 stainless steel (SS) in simulated light water reactor (LWR) environments.
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Analysis of Oxide Film Formed on Type 304 Stainless Steel in 288°C Water Containing Oxygen, Hydrogen, and Hydrogen Peroxide
TL;DR: The oxide film formed on type 304 stainless steel (SS, UNS S30400) in high-temperature, high-purity water containing oxygen (O2), hydrogen (H2), and hydrogen peroxide (H 2O2) was analyzed by.
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Characterization of the Oxide Film Formed on Type 316 Stainless Steel in 288°C Water in Cyclic Normal and Hydrogen Water Chemistries
TL;DR: Characteristics of the oxide film formed on type 316 (UNS S31600) stainless steel (SS) in 288°C water under cyclic normal water chemistry and hydrogen water chemistry (HWC) condition as mentioned in this paper.