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J-GLOBAL ID:202401002487607752   Update date: Nov. 15, 2024

Ueda Mitsutoshi

ウエダ ミツトシ | Ueda Mitsutoshi
Affiliation and department:
Hokkaido University Faculty of Engineering

About Hokkaido University Faculty of Engineering


Job title: Associate Professor
Other affiliations (1):
  • Institute of Science Tokyo  School of Materials and Chemical Technology   Associate Professor
Research field  (2): Material fabrication and microstructure control ,  Structural and functional materials
Research keywords  (2): High Temperature Oxidation of Metallic Materials ,  Physical Chemistry at High Temperatures
Research theme for competitive and other funds  (8):
  • 2023 - 2026 高温その場観察による耐熱金属材料の水蒸気酸化挙動に及ぼす水素の影響の明確化
  • 2019 - 2023 Novel utilization method of strengthening phases for improving steam oxidation behavior of heat-resistant steels
  • 2014 - 2018 Design principle of optimal surface texture for improving steam oxidation behavior of heat-resisting materials
  • 2010 - 2012 Development of Si-free Sealing Technique for Solid Oxide Fuel Cells withLong-term Durability at High-temperatures
  • 2007 - 2009 Control of kinetic microstructure change in the gas separation membrane of metal complex oxide and extension of lifetime
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Papers (50):
  • Kaito Ogawahara, Mitsutoshi Ueda. The Effect of Tungsten Addition on Steam Oxidation Behavior of the Fe-20Cr-35Ni (at%) Alloy at 1073 K. MATERIALS TRANSACTIONS. 2024. 65. 9. 1131-1140
  • Abdul Latif, Mitsutoshi Ueda, Masao Takeyama. Oxidation Behavior of a Novel Nickel-Based Alloy in Air and Steam at 1273 K for the Oxygen-Hydrogen Combustion Chamber. High Temperature Corrosion of Materials. 2024
  • Mitsutoshi Ueda. Effect of Alloying Elements on Steam Oxidation Behavior of Heat Resistant Steels. Materia Japan. 2024. 63. 3. 154-158
  • Rie Endo, Kimia Mitsui, Shota Hashiyama, Leo Miyazaki, Takashi Watanabe, Mitsutoshi Ueda, Miyuki Hayashi, Hiroshi Tanei, Masahiro Susa. Potential Utilization of Iron Oxidation Reaction Heat for the Generation of SiO2-FeO System Melts. International Journal of Thermophysics. 2024. 45. 3. 1-19
  • 上田光敏, 寺井健太, 横田俊介, 竹谷俊亮, 安原颯人, 今井庸介. The Effect of Rhodium Addition on Degradation Behavior of Ir-10 mass%Rh Alloy during Oxidation at Elevated Temperatures. 日本金属学会誌. 2023. 87. 10. 279-287
more...
MISC (20):
  • 上田光敏. 特集 よくわかる熱処理技術-熱処理の基礎と応用,そして最近のトピックス 金属の高温酸化から見た熱処理技術. 金属. 2023. 93. 6. 489-494
  • 上田 光敏, 大林 純平, 矢尾 達海, 竹山 雅夫. Fe-20Cr-35Ni-2.5Nb (at.%)鋼の高温水蒸気酸化挙動に及ぼすWおよびTiの影響. 日本学術振興会 耐熱金属材料第123委員会研究報告. 2021. 62. 2. 185-190
  • M. Ueda. Solid-State Reaction of Inorganic Materials. Journal of the Technical Association of Refractories, Japan (TAIKABUTSU OVERSEAS). 2019. 39. 4. 207-209
  • 上田 光敏, 大林 純平, 竹山 雅夫. 1073 KにおけるFe-Cr-Ni-Nb合金の水蒸気酸化挙動に及ぼすW添加の影響. 日本学術振興会 耐熱金属材料第123委員会研究報告. 2018. 59. 2. 331-336
  • 上田光敏. 無機材料の固体間反応. 耐火物. 2017. 69. 9. 399-401
more...
Patents (1):
  • 金属酸化物薄膜還元検知センサ
Lectures and oral presentations  (5):
  • 酸素水素燃焼タービン発電システムに資する新規Ni基耐熱合金の耐水蒸気酸化特性
    (2024年北海道夏期セミナー 主題「脱炭素・循環型社会の構築に向けた耐熱材料の高温腐食防食」 2024)
  • Steam Oxidation Behavior of Chromia-Forming Alloys: Effects of Microstructure and Alloying Elements
    (International Symposium on High-Temperature Oxidation and Corrosion 2022 (ISHOC-2022) 2022)
  • The Effect of Microstructure on Steam Oxidation Behavior of the Fe-20Cr-35Ni-2.5Nb (at.%) Steel at 1073 K
    (10th International Symposium on High-Temperature Corrosion and Protection of Materials (HTCPM’10) 2021)
  • High Temperature Steam Oxidation of Novel Austenitic Steels for Advanced USC Power Plants
    (The International Conference on Engineering Innovation 2016 2016)
  • Steam Oxidation Resistance of the Modified Fe-20Cr-35Ni-2.5Nb (at.%) Steel at 1073 K
    (The 1st International Conference on Advanced High-Temperature Materials Technology for Sustainable and Reliable Power Engineering (123HiMAT-2015) 2015)
Education (3):
  • 1999 - 2004 Tokyo Institute of Technology Graduate School of Science and Engineering
  • 1996 - 1999 Tokyo Institute of Technology School of Engineering
  • 1995 - 1996 Tokyo Institute of Technology
Professional career (1):
  • Dr. (Eng.) (Tokyo Institute of Technology)
Work history (6):
  • 2024/10 - 現在 Institute of Science Tokyo
  • 2024/04 - 現在 Hokkaido University Faculty of Engineering Associate Professor
  • 2016/04 - 2024/09 Tokyo Institute of Technology School of Materials and Chemical Technology Associate Professor
  • 2013/07 - 2016/03 Tokyo Institute of Technology Graduate School of Science and Engineering Associate Professor
  • 2007/04 - 2013/06 Tokyo Institute of Technology Graduate School of Science and Engineering Assistant Professor
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Committee career (5):
  • 2023/04 - 現在 ステンレス協会 ISO/TC156/nWG13委員会 副主査
  • 2023/04 - 2025/03 (独)日本学術振興会 産学協力委員会 R054 カーボンニュートラル実現のための耐熱材料委員会 委員
  • 2020/04 - 2023/03 ステンレス協会 ISO/TC156/nWG13 委員
  • 2014/04 - 2023/03 (独)日本学術振興会 耐熱金属材料第123委員会 耐環境特性分科会 委員
  • 2014/03 - 2016/03 (公社)腐食防食学会 会誌「材料と環境」編集委員会 委員
Awards (5):
  • 2023/03 - (一社)日本鉄鋼協会 学術記念賞(西山記念賞) 鉄鋼材料の高温酸化に関する研究
  • 2014/05 - (公社)腐食防食学会 進歩賞 構成イオンの流れの発散による酸化皮膜中のボイド生成の定量的予測に関する研究
  • 2010/03 - (社)電気化学会 固体化学の新しい指針を探る研究会 田川記念固体化学奨励賞 金属酸化物中の動力学的組織変化の定量的予測と金属の高温酸化への応用
  • 2008/09 - 東京工業大学 東工大工系若手奨励賞
  • 2005/02 - 手島工業教育資金団 手島記念研究賞 博士論文賞
Association Membership(s) (6):
The Electrochemical Society of Japan ,  The Iron and Steel Institute of Japan ,  The Japan Institute of Metals and Materials ,  (公社)腐食防食学会 ,  The Technical Association of Refractories, Japan ,  The Solid State Ionics Society of Japan
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