Vibration Analysis of Disk-spindle Due to Ball Bearing Excitation
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概要
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Large capacity magnetic disks require a head postioning accuracy in the order of a few micro-meters. This implies a technology to master the difficult problems of the disk-spindle assembly vibration. The following subjects are studied in this paper : (1) The gyroscopic effect on the natural frequency of the rotor-bearing system is experimentally made clear by exciting a rotating spindle. (2) The whirling force acting on the spindle system is dominantly caused by slight deformations on the ball bearing races. (3) It is shown numerically as well as experimentally, considering whirling direction, that the resonance causing a head positioning error results from a coincidence of rotor natural frequency and the ball bearing excitation frequency.
- 一般社団法人日本機械学会の論文
著者
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MATSUSHITA Osami
Mechanical Engineering Research Laboratory of Hitachi Ltd.
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Matsushita Osami
Mechanical Engineering Research Laboratory Hitachi Ltd.
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SONODA Taro
Mechanical Engineering Research Laboratory of Hitachi Ltd.
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OHTA Hiraku
Mechanical Engineering Research Laboratory of Hitachi Ltd.
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NARUSE Jun
Odawara Works of Hitachi Ltd.
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INOUE Yohichi
Mechanical Engineering Research Laboratory of Hitachi Ltd.
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KOROMEGAWA Isao
Hitachi Techno Engineering Co., Ltd.
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Koromegawa Isao
Hitachi Techno Engineering Co. Ltd.
関連論文
- Solution Method for Eigenvalue Problem of Rotor-Bearing Systems : Part 1. Undamped Systems with Isotropic Supports
- Vibration Analysis of Disk-spindle Due to Ball Bearing Excitation
- Analysis of Rotor Vibration Excited by Seismic Wave
- Vibration Analysis of Rotor-bearing System by Quasi-modal Transformation : Analyses of Complex Eigenvalue and Response History
- Rotational Ratio Response Analysis of Flexible Rotor Vibrating System
- Electromagnetic Damper Stabilization for Contained-Liquid-Induced Rotor Vibration
- Q-Factor Analysis of Unbalance Vibration in Rotor-Bearing Systems