Bending levitation control of flexible steel plate: Consideration of effect of magnetic properties on electromagnetically levitated steel plate vibration

Recently, demand for thin steel plates has increased. In the manufacturing of thin steel plates, surface quality deterioration due to contact between the rollers and steel plate involved is problematic. We are investigating magnetic levitation conveyance to propose a noncontact conveyance system usi...

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Published inInternational journal of applied electromagnetics and mechanics Vol. 71; no. S1; pp. S295 - S303
Main Authors Ogawa, Kazuki, Miyazaki, Riku, Funada, Kohmei, Uchida, Yamato, Uchino, Daigo, Ikeda, Keigo, Endo, Ayato, Kato, Taro, Narita, Takayoshi, Kato, Hideaki
Format Journal Article
LanguageEnglish
Published Amsterdam IOS Press BV 01.01.2023
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Abstract Recently, demand for thin steel plates has increased. In the manufacturing of thin steel plates, surface quality deterioration due to contact between the rollers and steel plate involved is problematic. We are investigating magnetic levitation conveyance to propose a noncontact conveyance system using electromagnets. However, the magnetic levitation of thin steel plates is unstable because of the deflection in the range where the electromagnetic force is not affected. Therefore, to improve the levitation stability, we are investigating a bending magnetic levitation system in which a thin steel plate is bent during magnetic levitation but not deformed plastically. In this study, a dynamic analysis using the finite difference method is performed to understand the behavior of a thin steel plate during magnetic levitation. In the dynamic analysis, vibration is evaluated based on the displacement standard deviation. The dynamic simulation visualizes the dynamic behavior of a levitated flexible steel plate.
AbstractList Recently, demand for thin steel plates has increased. In the manufacturing of thin steel plates, surface quality deterioration due to contact between the rollers and steel plate involved is problematic. We are investigating magnetic levitation conveyance to propose a noncontact conveyance system using electromagnets. However, the magnetic levitation of thin steel plates is unstable because of the deflection in the range where the electromagnetic force is not affected. Therefore, to improve the levitation stability, we are investigating a bending magnetic levitation system in which a thin steel plate is bent during magnetic levitation but not deformed plastically. In this study, a dynamic analysis using the finite difference method is performed to understand the behavior of a thin steel plate during magnetic levitation. In the dynamic analysis, vibration is evaluated based on the displacement standard deviation. The dynamic simulation visualizes the dynamic behavior of a levitated flexible steel plate.
Author Ikeda, Keigo
Kato, Taro
Narita, Takayoshi
Miyazaki, Riku
Funada, Kohmei
Endo, Ayato
Kato, Hideaki
Uchida, Yamato
Ogawa, Kazuki
Uchino, Daigo
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Cites_doi 10.3390/act7030043
10.1016/j.conengprac.2022.105076
10.1016/j.conengprac.2016.10.009
10.14243/jsaem.25.82
10.1016/j.ifacol.2022.10.534
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Tada (10.3233/JAE-220167_ref5) 2019; 3
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Ogawa (10.3233/JAE-220167_ref4) 2018; 7
Krämer (10.3233/JAE-220167_ref1) 2022; 122
Stettinger (10.3233/JAE-220167_ref2) 2017; 58
Ogawa (10.3233/JAE-220167_ref6) 2020; 4
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  article-title: A study on levitation mechanism of bending magnetic levitation system: fundamental consideration on dynamic analysis of vibration characteristics
  publication-title: IFAC-PapersOnLine
  doi: 10.1016/j.ifacol.2022.10.534
  contributor:
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StartPage S295
SubjectTerms Bending
Electromagnetic forces
Finite difference method
Magnetic levitation
Magnetic properties
Steel plates
Surface properties
Vibration analysis
Title Bending levitation control of flexible steel plate: Consideration of effect of magnetic properties on electromagnetically levitated steel plate vibration
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