Original Papers- SUGAWARA Yu -
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[2020]
1.Pit initiation on sensitized Type 304 stainless steel under applied stress: Correlation of stress, Cr-depletion, and inclusion dissolution.[Corrosion Science,167,(2020),108506]Shimpei Tokuda, Izumi Muto, Yu Sugawara, Nobuyoshi Hara
10.1016/j.corsci.2020.108506
2.Roles of Interstitial Nitrogen, Carbon, and Boron in Steel Corrosion: Generation of Oxyanions and Stabilization of Electronic Structure.[Journal of The Electrochemical Society,167(8),(2020),081503]Mariko Kadowaki, Arkapol Saengdeejing, Izumi Muto, Ying Chen, Gerald S. Frankel, Takashi Doi, Kaori Kawano, Yu Sugawara, Nobuyoshi Hara
10.1149/1945-7111/ab8926
[2019]
3.Artificial MnS Inclusions in Stainless Steel: Fabrication by Spark Plasma Sintering and Corrosion Evaluation by Microelectrochemical Measurements.[ISIJ International,Advance Publication,(2019)]Masashi NISHIMOTO, Izumi MUTO, Yu SUGAWARA and Nobuyoshi HARA
10.2355/isijinternational.ISIJINT-2019-408
4.Anodic Polarization Characteristics and Electrochemical Properties of Fe3C in Chloride Solutions.[Journal of The Electrochemical Society,166(12),(2019),C345-C351]Mariko Kadowaki, Izumi Muto, Kinari Takahashi, Takashi Doi, Hiroyuki Masuda, Hideki Katayama, Kaori Kawano, Yu Sugawara and Nobuyoshi Hara
10.1149/2.1311912jes
5.NH4+ Generation: The Role of NO3- in the Crevice Corrosion Repassivation of Type 316L Stainless Steel.[Journal of The Electrochemical Society,166(10),(2019),C250-C260]Takahito Aoyama, Yu Sugawara, Izumi Muto, and Nobuyoshi Hara
10.1149/2.0501910jes
6.Morphological Characteristics of Trenching around MnS Inclusions in Type 316 Stainless Steel: The Role of Molybdenum in Pitting Corrosion Resistance.[Journal of The Electrochemical Society,166(11),(2019),C3081-C3089]Masashi Nishimoto, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara
10.1149/2.0131911jes
7.Effectiveness of an intercritical heat-treatment on localized corrosion resistance at the microstructural boundaries of medium-carbon steels.[Corrosion Science,154(1),(2019),159-177]Mariko Kadowaki, Izumi Muto, Hideki Katayama, Hiroyuki Masuda, Yu Sugawara, Nobuyoshi Hara
10.1016/j.corsci.2019.04.019
8.Elucidating Electrochemical Properties at the Boundary between MnS and Steel Matrix: Towards the Improvement of Pitting Corrosion Resistance of Stainless Steels.[Tetsu-to-Hagane,105(2),(2019),207-214]Izumi Muto, Aya Chiba, Masayuki Tohjoh, Yu Sugawara and Nobuyoshi Hara
10.2355/tetsutohagane.TETSU-2018-068
9.Mechanism for the Morphological Change from Trenching to Pitting around Intermetallic Particles in AA1050 Aluminum.[Journal of The Electrochemical Society,166(2),(2019),C19-C32]Hiroshi Kakinuma, Izumi Muto, Yoshiyuki Oya, Yoshihiko Kyo, Yu Sugawara, and Nobuyoshi Hara
10.1149/2.0331902jes
[2018]
10.Observations on Pit Initiation Behavior of Carbon Steel Using Microelectrochemical System with Confocal Laser Scanning Microscopy.[Zairyo-to-Kankyo,67(12),(2018),497-501]Mariko Kadowaki, Izumi Muto, Yu Sugawara and Nobuyoshi Hara
10.3323/jcorr.67.497
11.Detection of Hydrogen Distribution in Pure Iron Using WO3 Thin Film.[ISIJ International,58(10),(2018),1860-1867]Yu SUGAWARA, Yuto SAKAIZAWA, Akihiro SHIBATA, Izumi MUTO and Nobuyoshi HARA
10.2355/isijinternational.ISIJINT-2018-236
12.Relationships between Pitting Corrosion Potentials and MnS Dissolution of 5–18 Mass% Cr Steels.[Journal of The Electrochemical Society,165(11),(2018),C732-C742]Shinpei Asano, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara
10.1149/2.0271811jes
13.Improving Pitting Corrosion Resistance at Inclusions and Ductility of a Martensitic Medium-Carbon Steel: Effectiveness of Short-Time Tempering.[Journal of The Electrochemical Society,165(11),(2018),C711-C721]Mariko Kadowaki, Izumi Muto, Yu Sugawara, Takashi Doi, Kaori Kawano, and Nobuyoshi Hara
10.1149/2.0071811jes
14.Formation of Pt-skin Layer on Ordered and Disordered Pt-Co Alloys and Corrosion Resistance in Sulfuric Acid.[Electrocatalysis,9,(2018),539-549]Yu Sugawara, Michiko Konno, Izumi Muto, and Nobuyoshi Hara
10.1007/s12678-017-0448-9
15.A Methodology for Fabrication of Highly Pitting Corrosion-Resistant Type 304 Stainless Steel by Plasma Carburizing and Post-Pickling Treatment.[Journal of The Electrochemical Society,165(9),(2018),C441-C449]Yu Sugawara, Waka Inoue, Izumi Muto, and Nobuyoshi Hara
10.1149/2.0081809jes
[2017]
16.Micro-electrochemical investigation on the role of Mg in sacrificial corrosion protection of 55mass%Al-Zn-Mg coated steel.[CORROSION SCIENCE,129,(2017),126-135]Shimpei Tokuda, Izumi Muto, Yu Sugawara, Michiyasu Takahashi, Masamitsu Matsumoto, Nobuyoshi Hara
10.1016/j.corsci.2017.07.020
http://gateway.isiknowledge.com/gateway/Gateway.cgi?&GWVersion=2&SrcAuth=TohokuUniv&SrcApp=TohokuUniv&DestLinkType=FullRecord&KeyUT=WOS:000416190800011&DestApp=WOS
17.Effect of Applied Stress on Pitting Corrosion Behavior of Type 304 Stainless Steel in Chloride Environment.[ECS Transactions,80(10),(2017),1407-1413]Shimpei Tokuda, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara
10.1149/08010.1407ecst
18.Micro-electrochemical In Situ Observation of Pit Initiation at Precipitates in AA5182 Al-Mg Alloy in 0.1 M NaCl.[ECS Transactions,80(10),(2017),553-564]Yuto Sakaizawa, Izumi Muto, Yu Sugawara, Yoshiyuki Oya, Yoshihiko Kyo, and Nobuyoshi Hara
10.1149/08010.0553ecst
19. Effect of Nitrate Ions on Repassivation Behavior of Crevice Corrosion on Type 316L Stainless Steel.[ECS Transactions,80(10),(2017),519-526]Takahito Aoyama, Izumi Muto, Yu Sugawara, and Nobuyoshi Hara
10.1149/08010.0519ecst
20.Role of Ni addition in Corrosion Behavior of Model Interface between Rust Layer and Steel Matrix on Weathering Steel.[ECS Transactions,80(10),(2017),499-507]Yu Sugawara, Waka Inoue, Ayaka Yomogida, Izumi Muto, Shiro Tsuri, and Nobuyoshi Hara
10.1149/08010.0499ecst
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