On the Effectiveness of Hollow Balls in High-Speed Thrust Bearings

Abstract

The geometry, kinematics, dynamics, and fatigue life of a thrust-loaded, angular-contact, ball bearing are investigated considering the inertial effects of hollow balls at shaft speeds corresponding 1 to 3 million Nd_m. The data presented show the variation in these parameters and indicate that the effectiveness of hollow balls is governed by the combined condition of speed and axial load rather than speed alone.