Nakano Ken

ナカノケン | Nakano Ken

Affiliation and department：
Job title： Professor
Homepage URL (1)： https://n-lab.ynu.ac.jp/

Research field (3)： Machine elements and tribology , Machine materials and mechanics , Mechanics and mechatronics

Research keywords (8)： solid friction , dissipative processes , relaxation processes , instabilities , irregularities , macroscopic modeling , microscopic modeling , hierarchical structure

Research theme for competitive and other funds (11)：

2024 - 2027 Elucidation of Specificity of Water in Concentrated Polymer Brushes and its Application Toward Anti-Snow/Ice/Frost Functions
2022 - 2025 Control of automaticity and cell differentiation via mechanical communication between cultivated cardiac tissues
2021 - 2024 Construction of friction laws that rationally describe stiction accompanied by slow creep
2011 - 2014 Visualization of high-speed transient dynamics of contact interface and control of start-and-stop modes of sliding surfaces
2011 - 2013 Self-reparing tribosystems using high-speed film formation by electropolymerization

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Papers (128)：

S. Hatanaka, Y. Ogawa, H. Okubo, K. Hanzawa, R. Kajiki, K. Yamaguchi, K. Nakano. Correlation between friction and wear of rubber: An experimental approach based on the disconnections of Stribeck curves. Wear. 2024
T. Maruyama, D. Kosugi, S. Iwase, M. Maeda, K. Nakano, S. Momozono. Application of the electrical impedance method to steel/steel EHD point contacts. Frontiers in Mechanical Engineering. 2024
C. Tadokoro, H. Kobayashi, M. Sueda, T. Nagamine, S. C. Vlădescu, T. Reddyhoff, K. Nakano. Controlling windscreen wiper vibration through yaw angle adjustments: A study of dynamic contact behavior using fluorescence observation. Frontiers in Mechanical Engineering. 2024
T. Watanabe, S. Hatanaka, K. Nakano, V. L. Popov. Sliding friction in contact with one- and two-dimensional viscoelastic foundations and viscoelastic half-space. Facta Universitatis, Series: Mechanical Engineering. 2024. 22. 3. 529-545
H. Okubo, T. Ishikawa, H. Hashiba, T. Inamochi, K. Nakano. In-situ vibrational spectroscopic observation for thermally activated structural changes of 100% cellulose nanofiber molding with ultralow friction. Frontiers in Mechanical Engineering. 2024. 10. 1422412

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Books (1)：

Contact Mechanics and Friction, Japanese Edition
Maruzen Publishing 2023 ISBN:9784621307717

Education (2)：

1992 - 1997 The University of Tokyo Graduate School Department of Aeronautics and Astronautics
1988 - 1992 The University of Tokyo Department of Aeronautics and Astronautics

Professional career (1)：

PhD (The University of Tokyo)

Work history (7)：

2015/12 - 現在 Yokohama National University Professor
2023/07 - 2023/08 TU Berlin Visiting Researcher
2019/07 - 2019/08 TU Berlin Visiting Researcher
2017/08 - 2017/09 TU Berlin Visiting Researcher
2000/04 - 2015/11 Yokohama National University Associate Professor

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Committee career (7)：

2024/02 - 現在 Tribology Letters Editor
2019 - 現在 Frontiers in Mechanical Engineering Associate Editor
2016/04 - 現在日本トライボロジー学会:トライボダイナミクス研究会主査
2011/01 - 現在 Tribology Online Associate Editor
2017/06 - 2019/05 日本トライボロジー学会理事

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Awards (9)：

2023/09 - Japanese Society of Tribologists ITC Fukuoka 2023 Excellent Paper Award
2023/09 - Frontiers in Mechanical Engineering 2023 Outstanding Associate Editor Award
2021/05 - Japanese Society of Tribologists JAST Best Paper Award
2017/03 - Yokohama National University Best Researcher Award
2015/04 - Japan Society of Mechanical Engineers JSME Medal for Outstanding Paper

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Association Membership(s) (3)：

Japan Society of Mechanical Engineers , Japanese Society of Tribologists , Society of Tribologists and Lubrication Engineers

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