致谢
LIST OF SYMBOLS
CHAPTER 1. INTRODUCTION
1.1. Background
1.2. State of the Art
1.3. Research objectives
CHAPTER 2. MOTION AND DYNAMIC MODELLING OF THE SLIPPER-SWASHPLATE INTERFACE
2.1. Motions of the Slipper and Swashplate
2.2. Slipper dynamic load conditions
2.3. Displacement chamber model
2.4. Slipper/swashplate Fluid Film Geometry modelling
CHAPTER 3. FLUID-SOLID STRUCTURE BEHAVIOUR AND EVALUATION OF THE EFFICIENCY LOSS ON THE SLIPPER/SWASHPLATE INTERFACE
3.1. Parameters of the solid parts and input conditions of fluid lubrication for computational technics
3.2. Slipper balance
3.4. Thermo-elastic and hydrodynamic modelling
CHAPTER 4. SOLID BODY DEFORMATION
4. 1. Solid Volume Heat transfer
4.2. Mechanism of the Elastic deformation
4.3. Slipper and Swashplate body deformation
4.4. Power loss between Slipper and Swashplate
CHAPTER 5. MEASUREMENTS AND COMPARISON
5.1. Test rig and sensor selection
5. 2. Measurement setup
5.3. Results and comparisons
CHAPTER 6. CONCLUSION
参考文献
声明
浙江师范大学;