Chapter 1: Introduction
1.1.3. Research Background and Significance
1.2. Research at home and abroad, analysis
1.2.1. Research Status Aspheric ultra-precision machining technology
1.2.2. Status Aspheric Surface Processing Machine
1.2.3. Research Status of Piezoelectric Driven Micro-Feed Technology
1.2.5. Research Status of the Wear of a Single-Crystal Diamond Tool
1.3. Main research contents
Chapter 2: Research on Spherical and Aspheric Large-Scale Processing Technology
2.2.The Main Principle of Aspherical Machining Based on Swing Feed
2.3. Trajectory of The Tool Nose Circle Center
2.4. Consideration of the Nearest Parabola to the Sphere
2.5. Calculating the Difference Between the Parabola and the Nearest Sphere
2.6. Control Technology of Tool Servo Feeding Device Based on PZT
2.7.Chapter's Summary
Chapter 3: Research on Non-Orthogonal Machining
3.2. Calculation of the Feed of the Swing Arm of the Machine Tool
3.3. Roughness Model of the Spherical Surface
3.4. Tool's Relative Rotation and Variation in Angles of Cutting
3.5. Cutting Surfaces and Layers Affecting the Trajectory and Cutting-Points Position
3.6. Modeling the Process to Obtain Contact Information
3.6.3. Transformation Matrices
3.6.4. Point of Contact Coordinates and Related Geometry Angels
3.6.5. Calculation Steps and Cutting Zones
3.7. Chapter's Summary
Chapter 4: Research on Non-Homogenous Diamond Tool Wear
4.2. Considering the Properties of the Diamond and the Possibility of Wear Prediction
4.3. Wear Prediction Model
4.4. Recommendations
Conclusion
参考文献
声明
致谢
Resume
APPENDIX: Wolfram Language Program Text
哈尔滨工业大学;
