Rolling Bearing Analysis: Advanced concepts of bearing technologyPresenting extreme operating conditions, and higher-speed applications, this book examine several topics of Bearing Technology. It includes mathematical relationships for internal load distribution under conditions of high speed, combined radial, axial, and moment loading, as well as the effects of raceway and roller profiling. For the last four decades, Tedric Harris' "Rolling Bearing Analysis" has been the "bible" for engineers involved in rolling bearing technology. Why do so many students and practising engineers rely on this book? The answer is simple: because of its complete coverage from low- to high-speed applications and full derivations of the underlying mathematics from a leader in the field. The fifth edition of this classic reference is divided conveniently into two volumes, each focused on a specialized area of bearing technology. This option allows you to select the coverage that is best suited to your needs. The second of two books, "Advanced Concepts of Bearing Technology" steps up the level to more dynamic and complex loading, more extreme operating conditions, and higher-speed applications. The authors examine several topics that are unique to the book, including mathematical relationships for internal load distribution under conditions of high speed, combined radial, axial, and moment loading, as well as the effects of raceway and roller profiling. They also delve into the mathematical development of rolling element-raceway lubricant film thickness and contact friction, the stress-life method for calculating bearing fatigue endurance, and the effects of shaft and supporting structure flexure on bearing loading and deflection. "Advanced Concepts of Bearing Technology" is the perfect aid for analysing complex performance and fatigue-life phenomena in advanced applications. |
Contents
Chapter | 6 |
Bearing Component Motions and Speeds | 41 |
References | 61 |
Copyright | |
9 other sections not shown
Common terms and phrases
analysis angular angular-contact ball bearing applied load ASME Trans axial axis ball and roller bearing applications bearing fatigue bearing operating calculated centrifugal force Chapter coefficient component contact angle contact area contamination cylindrical roller bearing dent determined diameter effect elastohydrodynamic endurance test Equation failure flange fluid friction force friction shear stress friction torque gyroscopic Harris Hertz high-speed inner raceway inner ring lamina line contact load distribution lubricant film thickness methods misalignment Nélias normal occurs outer raceway outer ring parameter pressure raceway contact radial load radius residual stress roller end roller end-flange roller-raceway contact rolling bearing rolling contact fatigue rolling element rolling element-raceway contacts rotation shaft shown in Figure silicon nitride sliding velocity spherical roller bearings steel surface friction shear tapered roller bearing temperature test rig thrust load Timken Company Tribol von Mises stress Weibull Weibull distribution