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Hybrid machining : theory, methods, and case studies /
Annotation
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, United Kingdom :
Academic Press, an imprint of Elsevier,
2018.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Hybrid Machining; Copyright Page; Contents; List of Contributors; Short Biographies; Preface; 1 Introduction to Hybrid Machining Technology; 1.1 Overview of Machining Technology; 1.1.1 Introduction to Machining Processes; 1.1.2 Advances and New Challenges; 1.2 Concept, Definition, and Classification of Hybrid Machining Processes; 1.3 Major Elements of Hybrid Machining Technology; 1.3.1 Hybrid Machine Tools; 1.3.2 Hybrid Tooling; 1.3.3 Hybrid Machining Processes; 1.3.4 Metrology System; 1.3.5 Work Handling System; 1.3.6 Process Modeling Technique.
- 1.4 Benefits of Hybrid Machining Technology1.5 Challenges and Opportunities; 1.6 Concluding Remarks; 1.6.1 Development of Specific Multiaxis Hybrid Machine Tools; 1.6.2 Opportunities for Improving Process Monitoring Techniques; 1.6.3 Development of On-Machine Tool Fabrication and Metrology Techniques; 1.6.4 Establishment of Novel Processes; 1.6.5 Cost-Effectiveness Study; 1.6.6 Industrial Implementation; Acknowledgment; References; 2 Overview of Hybrid Machining Processes; 2.1 Introduction; 2.2 Design Principle and Methodology for Hybrid Machining Processes; 2.3 Assisted Hybrid Machining.
- 2.3.1 Vibration-Assisted Machining2.3.2 Laser-Assisted Machining; 2.3.3 Magnetic Field-Assisted Machining; 2.3.4 External Electric Field-Assisted Machining; 2.3.5 Fluid-Assisted Machining; 2.4 Combined Hybrid Machining; 2.4.1 Electrochemical Discharge Machining; 2.4.2 Electrochemical Grinding; 2.4.3 Electrodischarge Grinding and Abrasive-EDM Processes; 2.4.4 Laser-Chemical/Electrochemical Machining; 2.4.5 Laser-Waterjet Machining; 2.4.6 Mechano-Electrochemical Machining; 2.4.7 Abrasive-Waterjet Milling; 2.5 Combination of Controlled Processes; 2.5.1 Grind Hardening; 2.6 Summary; References.
- 3 Laser-Assisted Machining3.1 Introduction; 3.2 Laser-Assisted Machining Processes; 3.2.1 Laser-Assisted Turning; 3.2.2 Laser-Assisted Milling/Grinding; 3.2.3 Laser-Assisted Jet Electrochemical Micromachining; 3.2.4 Laser-Assisted Waterjet Machining; 3.2.5 Summary of Laser-Assisted Machining Processes; 3.3 Laser Sources for Laser-Assisted Machining; 3.4 Thermal Modeling; 3.5 Process Control and Optimization; 3.6 Characteristics of Laser-Assisted Machining of Hard-to-Machine Materials; 3.6.1 Metals; 3.6.1.1 Titanium Alloys; 3.6.1.2 Nickel-Based Super Alloys.
- 3.6.1.3 Ion-Based Difficult-to-Machine Materials3.6.1.4 Ceramics; 3.6.1.5 Composites; 3.7 Case Study-Laser-Assisted Grinding of Ceramics; 3.7.1 Laser Source for Laser-Assisted Grinding; 3.7.2 Thermal Conduction for Laser Hearing; 3.7.3 Laser-Assisted Grinding Trial; 3.7.4 Results and Discussions; 3.7.4.1 Groove Depth; 3.7.4.2 Grinding Force; 3.7.4.3 Surface Roughness and Microstructure of the Machined Surface; 3.7.4.4 Subsurface Damage; 3.7.5 Summary of the Laser-Assisted Process Development; 3.8 Concluding Remarks; Acknowledgement; References; 4 Vibration-Assisted Milling; 4.1 Introduction.