Vibration Analysis and Active Control of Flexible-Shell-Structured Rotor Supported by Magnetic Bearings

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概要

• 論文の詳細を見る

• Modal control of magnetic bearings is applied to a shell-structured rotor to reduce the structural vibration. It is intended that the rotor be light and have a wide supporting region of magnetic flux ; hence it is made of a flexible shell structure. These structures are apt to produce shell vibrations, in addition to bending vibrations of the rotating shaft. To improve the damping property of the structure, a new control scheme for a magnetic bearing is introduced. Each magnet is controlled individually, leading to favorable structural damping, which contrasts with the traditional controller where a pair of magnets is controlled in a push-pull operation. The modal control technique is applied to the proposed magnetic bearings. The results obtained indicate a good damping property.

• 一般社団法人日本機械学会の論文
• 1994-09-15

著者

• Okada Yohji

  School Of Engineering Ibaraki University

• Okada Yohji

  School Of Engineering Ibaraki Univ.

• Tani Junji

  Inst. Of Fluid Science Tohoku Univ.

• Nagata Takayuki

  School Of Engineering Ibaraki Univ.

• Zhang Hebing

  Inst. of Fluid Science, Tohoku Univ.

• Zhang Hebing

  Inst. Of Fluid Science Tohoku Univ.

関連論文

• General Solution of Levitation Control of a Permanent Magnet (PM)-Type Rotating Motor
• Vibration Analysis and Active Control of Flexible-Shell-Structured Rotor Supported by Magnetic Bearings

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