Kawabata Ota Mie

Affiliation and department：

Research field (1)： Material fabrication and microstructure control

Research keywords (1)： powder metallurgy, mechanical milling, heterostructure control, high strength and high ductility

Research theme for competitive and other funds (8)：

2024 - 2027 A Paradigm Shift in the Design of Structural Metallic Materials Based on the Theory of Heterogeneity
2022 - 2025 不均一かつ周期的な結晶組織によってもたらされる特異的力学特性の発現機構
2018 - 2023 Clarification of innovative deformation mechanism in harmonic structure materials and creation of design principle for structure materials for next generation
2019 - 2022 Harmonic Microstructure Control and Mechanical Properties of of High Entropy Alloy
2017 - 2020 Establishment of mechanical property design guideline for harmonic structured materials using multivariate analysis

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Papers (57)：

藤原弘, 川畑美絵, 飴山惠. MM/SPS法によるハイエントロピー合金の調和組織制御. ぷらすとす. 2022. 5. 5. 295-299
小川文男, 片岡亮太, 川畑美絵, 伊藤隆基, 飴山惠. 調和組織制御による高強度高延性マグネシウム合金AZ31Bの創製. 日本金属学会誌. 2022. 86. 8. 131-139
Yang Song, Zhe Zhang, Hantuo Ma, Masashi Nakatani, Mie Ota Kawabata, Kei Ameyama. Ratcheting-fatigue behavior of harmonic-structure-designed sus316l stainless steel. Metals. 2021. 11. 3. 1-12
Benjamin Guennec, Takayuki Ishiguri, Mie Ota Kawabata, Shoichi Kikuchi, Akira Ueno, Kei Ameyama. Investigation on the Durability of Ti-6Al-4V Alloy Designed in a Harmonic Structure via Powder Metallurgy: Fatigue Behavior and Specimen Size Parameter Issue. Metals. 2020. 10. 5. 636-636
Kohei Osaki, Shoichi Kikuchi, Yoshikazu Nakai, Mie Ota Kawabata, Kei Ameyama. The effects of thermo-mechanical processing on fatigue crack propagation in commercially pure titanium with a harmonic structure. Materials Science and Engineering A. 2020. 773

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MISC (1)：

中井善一, 塩澤大輝, 中澤一成, 川畑美絵, 菊池将一, 長谷卓海, 藤田佳祐, 飴山惠. In-Situ Evaluation of Damage in Tension for Austenitic Stainless Steel with a Bimodal Harmonic Structure by Diffraction Contrast Tomography and μCT Imaging Using Ultrabright Synchrotron Radiation. X線材料強度に関するシンポジウム講演論文集. 2023. 57th

Lectures and oral presentations (54)：

無電解ニッケルめっき法による調和組織制御
(日本金属学会春季講演大会 2017)
調和組織制御された純鉄の変形に及ぼすひずみ速度の影響
(日本金属学会秋季講演大会 2016)
Microstructure formation of high pressure torsion processed (alpha + gamma) two phase stainless steel
(International Conference on PROCESSING & MANUFACTURING OF ADVANCED MATERIALS Processing, Fabrication, Properties, Applications (THERMEC2016) 2016)
遊星型ボールミリングならびに高圧ガスジェットミリングにおける粉末加工エネルギーの推定とその比較
(平成28年度塑性加工春季講演会 2016)
純Alバルク材の加工熱処理による調和組織制御
(第158回日本金属学会春季大会 2016)

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Education (2)：

- 2000 Ritsumeikan University Graduate School of Science and Engineering Material-Energy Science and Engineering Major
- 1998 Ritsumeikan University College of Science and Engineering Department of Mechanical Engineering

Professional career (1)：

Doctor of Engineering (Ritsumeikan University)

Work history (6)：

2022/04 - 現在 Ritsumeikan University Research Organization of Science and Technology
2021/04 - 2022/03 Ritsumeikan University Ritsumeikan-Global Innovation Research Organization
2020/04 - 2021/03 立命館大学総合科学技術研究機構
2015/04 - 2020/03 Ritsumeikan University College of Science and Engineering
2012/10/01 - 2015/03/31 立命館大学グローバルイノベーション機構(R-GIRO)

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Association Membership(s) (5)：

Japan Society of Powder and Powder Metallurgy , The Iron and Steel Institute of Japan , The Japan Society for Technology of Plasticity , "The Society of Materials Science, Japan" , The Japan Institute of Metals and Materials

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