Machinery Dynamics includes recent advancements in this quickly evolving area, while also analyzing real applications, analyzing integrated systems, and including further discussions on each mechanical component. The book treats mechanisms separately, with different methods depending on the level of accuracy required. The contents of this book is made to suit the needs of MsC and PhD students, researchers and engineers in the areas of design of high speed machinery, condition monitoring of machine operation, and vibration.
- Addresses theoretical backgrounds on topics, including vibration and elastodynamics
- Introduces rigid and elastic dynamics of various mechanisms, including linkages, cams, gears and planetary gear trains
- Features relevant application examples
Autorentext
Emeritus Professor, School of Mechanical Engineering, Tianjin University, PR China
Professor Ce Zhang has dedicated to research on machine dynamics for more than 30 years since 1980 after studying and working at Worcester Polytechnic Institute as a visiting professor. He has been the supervisor for 20 PhD and 15 Master students. About 30 of them work in academia or in industry, continuing their research on machine dynamics and other mechanical engineering areas.
Inhalt
Part I: Rigid-body Dynamics 1. Kineto-Static Analysis 2. Balancing of Planar Mechanisms and Engine Dynamics 3. Dynamics of Single DOF Machines 4. Dynamics of Machines with Multiple DOF
Part II: Theory of Mechanical Vibration 5. Vibration of Systems with Single DOF 6. Vibration of Systems with Multiple DOF 7. Finite Element Method for Vibration Problems 8. Nonlinear Vibration
Part III: Elasto-Dynamics 9. Vibration of Shafts and Shaft Systems 10. Dynamics of Cam Mechanisms 11. Elasto-Dynamics of Linkage 12. Elasto-Dynamics of Gear Trains 13. Dynamics of Planetary Gear Trains 14. Elasto-Dynamics of Mechanical Systems 15. Dynamics of Machinery with Joint Clearance
Appendices A. Crossover Shock B. Common Motions of Harmonic Combination C. Calculation of Deformation of Gear Tooth D. Matrices in Gear Dynamics E. Meshing Stiffness Calculation of Planetary Gear Train