Novel friction stabilization technology for surface damage conditions using machine learning

The surface damage is a serious cause of failure in tribosystems. In the present paper, we propose a new damage avoidance method that combines a contact position control system (e.g., morphing surface) and artificial-intelligence-based control (e.g., genetic algorithm: GA) to achieve stable friction...

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Published inTribology international Vol. 180; p. 108280
Main Authors Murashima, Motoyuki, Yamada, Takazumi, Umehara, Noritsugu, Tokoroyama, Takayuki, Lee, Woo-Young
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2023
Subjects
Active friction control
Artificial intelligence
Genetic algorithm
Machine learning
Morphing surface
Active friction control
Genetic algorithm
Artificial intelligence
Machine learning
Morphing surface
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Abstract The surface damage is a serious cause of failure in tribosystems. In the present paper, we propose a new damage avoidance method that combines a contact position control system (e.g., morphing surface) and artificial-intelligence-based control (e.g., genetic algorithm: GA) to achieve stable friction and long life of sliding surfaces. In the case of the single-damage condition, the GA sequentially avoided contact with the damaged position, and finally complete damage avoidance was achieved. In the multiple-damage condition, we confirmed that learning by GA effectively stabilized friction, although the learning time was longer. In summary, the contact-position control method should provide new capabilities on real machine surfaces where unexpected damage occurs. •A new active friction control technology was developed to avoid contact with surface damage.•The avoidance was realized using contact-position control surface (e.g., morphing surface).•Damaged position on the mating surface was detected using artificial intelligence.
AbstractList The surface damage is a serious cause of failure in tribosystems. In the present paper, we propose a new damage avoidance method that combines a contact position control system (e.g., morphing surface) and artificial-intelligence-based control (e.g., genetic algorithm: GA) to achieve stable friction and long life of sliding surfaces. In the case of the single-damage condition, the GA sequentially avoided contact with the damaged position, and finally complete damage avoidance was achieved. In the multiple-damage condition, we confirmed that learning by GA effectively stabilized friction, although the learning time was longer. In summary, the contact-position control method should provide new capabilities on real machine surfaces where unexpected damage occurs. •A new active friction control technology was developed to avoid contact with surface damage.•The avoidance was realized using contact-position control surface (e.g., morphing surface).•Damaged position on the mating surface was detected using artificial intelligence.
ArticleNumber 108280
Author Umehara, Noritsugu
Yamada, Takazumi
Lee, Woo-Young
Tokoroyama, Takayuki
Murashima, Motoyuki
Author_xml – sequence: 1
  givenname: Motoyuki
  surname: Murashima
  fullname: Murashima, Motoyuki
  email: motoyuki.murashima.b3@tohoku.ac.jp
  organization: Department of Mechanical Systems Engineering, Tohoku University, 6-6-01 Aoba, Aramaki, Aoba-ku, Sendai 980-8579, Japan
– sequence: 2
  givenname: Takazumi
  surname: Yamada
  fullname: Yamada, Takazumi
  organization: Department of Micro-Nano Mechanical Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya city, Aichi 464-8603, Japan
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  givenname: Noritsugu
  surname: Umehara
  fullname: Umehara, Noritsugu
  organization: Department of Micro-Nano Mechanical Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya city, Aichi 464-8603, Japan
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  givenname: Takayuki
  surname: Tokoroyama
  fullname: Tokoroyama, Takayuki
  organization: Department of Micro-Nano Mechanical Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya city, Aichi 464-8603, Japan
– sequence: 5
  givenname: Woo-Young
  surname: Lee
  fullname: Lee, Woo-Young
  organization: Intelligent Optical Module Research Center, Korea Photonics Technology Institute, Cheomdan venture-ro 108-gil 9, Buk-gu, Gwangju 61007, Republic of Korea
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Genetic algorithm
Artificial intelligence
Machine learning
Morphing surface
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Snippet The surface damage is a serious cause of failure in tribosystems. In the present paper, we propose a new damage avoidance method that combines a contact...
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StartPage 108280
SubjectTerms Active friction control
Artificial intelligence
Genetic algorithm
Machine learning
Morphing surface
Title Novel friction stabilization technology for surface damage conditions using machine learning
URI https://dx.doi.org/10.1016/j.triboint.2023.108280
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