Ultraprecision ball bearings are necessary for high-precision machines and/or high-speed machines since the vibration caused by ball bearings determines the precision of machines as a whole and may make high-speed machines fail to work. To produce ultraprecision ball bearings, it is necessary to clarify spherical surface generation mechanism in the grinding of balls. This paper is the first attempt to investigate the contact trace distribution on the ball surface, which is crucial to spherical surface generation. The kinematic analysis of the contact trace shows that the contact trace is a fixed circle on the ball surface and the contact points are not uniformly distributed on the ball surface. Experimental observation of the contact trace was also carried out. The observation is in good agreement with the analysis. Suggestions on how to distribute the contact trace over the whole ball surface and therefore to improve the precision of balls are given.
The shear force moment was included in the design model of air bearings for hard disk drives, and the effect of the shear force moment was investigated with some numerical results. It was found that the shear force moment tends to increase the load capacity and reduce the pitch angle of the air bearing. It is concluded that the shear force moment must be incorporated into the design model of air bearings of hard disk drives.
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