Rchr
J-GLOBAL ID:201001025480284269   Update date: Sep. 03, 2024

Yamabe Junichiro

ヤマベ ジュンイチロウ | Yamabe Junichiro
Affiliation and department:
Fukuoka University Faculty of Engineering, Department of Mechanical Engineering

About Fukuoka University Faculty of Engineering, Department of Mechanical Engineering


Job title: Professor
Research field  (2): Manufacturing and production engineering ,  Machine materials and mechanics
Research keywords  (1): Hydrogen embrittlement, Metal fatigue, Surface coating, Additive manufacturing, Machining
Research theme for competitive and other funds  (4):
  • 2019 - 2022 Construction of a guiding principle for developing high-strength steels with excellent resistance to hydrogen embrittlement
  • 2016 - 2019 Quantitative evaluation of hydrogen embrittlement under elevated temperature based on a newly-proposed local parameter
  • 2016 - 2019 Determination mechanism of crack-growth resistance of bcc/fcc metals in very high-pressure hydrogen gas environment
  • 2012 - 2015 Development of a high-strength surface coating with an excellent resistance to hydrogen embrittlement
Papers (199):
  • Junichiro Yamabe, Ren Yoshimoto, Kentaro Wada, Takafumi Yano, Kojiro Fujiyama, Takashi Iijima, Hirotoshi Enoki. Determination of hydrogen compatibility for Cu-Al-Ni-Fe-Mn cast alloys prepared by varying Al and Ni contents. Journal of Alloys and Compounds. 2024. 977. 174766. 1-13
  • Junichiro Yamabe, Soma Kato, Kazuyuki Morishita, Kentaro Wada. Comparison of hydrogen diffusion properties and hydrogen-induced ductility loss of additively and conventionally manufactured 17-4PH stainless steel. 2024. 162. 108437. 1-16
  • Junichiro Yamabe, Kento Hashiguchi, Kentaro Wada. Effects of hydrogen on fatigue life properties of cold-rolled metastable austenitic stainless steels with artificial defects. Proceedings of the ASME 2024 Pressure Vessels & Piping Conference, PVP2024-122356. 2024. 1-6
  • Lise Jemblie, Anette, Brocks Hagen, Catalina H, Musinoi Hagen, Bård Nyhus, Antonio Alvaro, Dong Wang, Erik Aas Koren, Roy Johnsen, et al. Safe pipelines for hydrogen transport. International Journal of Hydrogen Energy, in press. 2024
  • Erik Koren, Junichiro Yamabe, Xu Lu, Catalina M.H. Hagen, Dong Wang, Roy Johnsen. Hydrogen diffusivity in X65 pipeline steel: Desorption and permeation studies. International Journal of Hydrogen Energy. 2024. 61. 1157-1169
more...
MISC (31):
  • YAMABE Junichiro, WADA Kentaro. 硬さ試験による金属材料中に侵入した水素の濃度分布推定. Research Central Research Institute NEWS & REPORT. 2021. 26. 1. 42-45
  • Kevinsanny, Saburo Okazaki, Osamu Takakuwa, Yuhei Ogawa, Koichi Okita, Yusuke Funakoshi, Junichiro Yamabe, Saburo Matsuoka, Hisao Matsunaga. Effect of defects and hydrogen on the fatigue limit of Ni-based superalloy 718. Procedia Structural Integrity. 2019. 19. 312-319
  • Hiroshi Nishiguchi, Yuta Matsuda, Takayuki Fukuda, Kenji Higashida, Junichiro Yamabe, Hisao Matsunaga. Hydrogen-entry properties of torsional prestrained carbon steels. Zairyo/Journal of the Society of Materials Science, Japan. 2018. 67. 7. 723-729
  • 高桑脩, 松岡三郎, 岡崎三郎, 吉川倫夫, 山辺純一郎. 水素ガス環境下における低炭素鋼SM490Bの疲労き裂進展の温度依存性. 材料とプロセス(CD-ROM). 2018. 31. 1. ROMBUNNO.219
  • Kevinsanny, OKITA Kouichi, OKAZAKI Saburo, TAKAKUWA Osamu, YAMABE Junichiro, MATSUNAGA Hisao, MATSUOKA Saburo, TAKEGOSHI Masao, SUNAGAWA Hideo, KOBAYASHI Teiu. Effect of small defects on fatigue limit properties of Ni-based superalloy 718. The Proceedings of Conference of Kyushu Branch. 2018. 2018. 0. C32
more...
Patents (10):
  • 耐水素部材及び耐水素部材の使用方法
  • 転がり支持装置や動力伝達装置用構成部品の使用限界応力推定方法、及び該構成部品の疲れ寿命予測方法
  • 水素機器用の基材及びその製造方法
  • 転がり疲労き裂進展試験方法及び転がり疲労寿命予測方法
  • 耐水素脆性金属素材および耐水素脆性金属素材の表面処理方法
more...
Books (7):
  • 機械材料学 第2版
    朝倉書店 2018
  • 入門 鉄鋼分析技術III
    日本鉄鋼協会,東京 2017
  • Hydrogen energy engineering: a Japanese perspective
    Springer, Japan 2016
  • 燃料電池自動車の開発と材料・部品
    シーエムシー出版, 東京 2016
  • 燃料電池技術
    日刊工業新聞社, 東京 2012
more...
Lectures and oral presentations  (264):
  • 電気めっき 法により種々の皮膜を付与した オーステナイト系 ステンレス鋼の水素透過特性
    (CAMP-ISIJ 2022)
  • 水素チャージしたSUS301冷間加工材の疲労寿命特性
    (CAMP-ISIJ 2022)
  • 水素マイクロプリント法による皮膜界面の局所水素分析
    (CAMP-ISIJ 2022)
  • 17-4 PH鋼の疲労き裂進展下限界と疲労き裂進展特性に及ぼす水素の影響
    (CAMP-ISIJ 2022)
  • [Invited talk] On the hydrogen compatibility of low alloy steels - How can we select, use and improve? -
    (TMS 2022 Annual Meeting & Exhibition 2022)
more...
Education (3):
  • 2003 - 2005 Kyushu University Faculty of Engineering Department of Mechanical Science and Engineering
  • 1996 - 1998 Tokyo Institute of Technology Interdisciplinary Graduate School of Science and Engineering Department of Materials Science and Engineering
  • 1992 - 1996 Tokyo University of Science Faculty of Science Department of Applied Physics
Professional career (1):
  • 博士(工学) (九州大学)
Work history (3):
  • 2017/01/11 - 2018/03/31 産業技術総合研究所 水素材料強度ラボラトリ
  • 2006/12/01 - 2018/03/31 九州大学 水素エネルギー国際研究センター
  • 1998/04/01 - 2006/11/30 三菱自動車工業株式会社
Committee career (21):
  • 2019/01 - 2021/02 NEDO事業 HFCV基準検討委員会委員
  • 2018/10 - 2021/02 NEDO事業 鋼材ステアリング委員会委員
  • 2019/01 - 2019/03 国立研究開発法人物質・材料研究機構 構造材料データシート懇談会委員
  • 2018/04 - 2019/03 日本自動車研究所 GTR13 Phase2対応基準検討委員会委員
  • 2017/01 - 2018/10 国際電気自動車シンポジウム 組織委員会委員および実行委員会委員
Show all
Awards (4):
  • 2024/04 - Springer Outstanding Reviewer of Journal of Materials Engineering and Performance
  • 2018/06 - Elsevier Outstanding Reviewer Award for International Journal of Hydrogen Energy
  • 2011/05 - 日本材料学会 平成22年度学術奨励賞
  • 2010/05 - 日本ゴム協会 第3回CERI若手奨励賞
Association Membership(s) (8):
Society of Automotive Engineers ,  The Society of Materials Science, Japan ,  The Japan Society of Mechanical Engineers ,  The Society of Rubber Science and Techonology, Japan ,  The Iron and Steel Institute of Japan ,  American Chemical Society ,  Canadian Standards Association ,  American Society of Mechanical Engineers
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