Synopses & Reviews
This essential book documents the latest research progress and key issues affecting SSM software development. With a particular focus on the CAD/CAM environment, it provides a rich source of reference and covers a wide range of topics.
Synopsis
Sculptured Surface Machining (SSM) plays a vital role in the process of bringing new products to the market place. A great variety of products, from automotive body-panels to mobile phones, rely on this technology for the machining of their dies and moulds. This book documents the latest research progress and key issues affecting SSM software development. With a particular focus on the CAD/CAM environment, this book provides a rich source of reference, and covers such topics as fundamental mathematical tools, SSM-process models, process planning models and key tool-path generator (TPG), in addition to discussing more advanced theory and technology such as the new C-space'- based TPG methods and cloud-of-points' data machining.
Sculptured Surface Machining - Is the first book to discuss all aspects of SSM, from SSM-process models to SSM- software design methodologies
- Presents a feature-based CAPP (computer-automated process planning) methodology for sculptured surface machining
- Includes practical applications for NC machining technologies.
This book is essential reading for manufacturing engineers producing products with sculptured surfaces, software engineers working with CAD/CAM software, and researchers in the fields of mechanical, production and industrial engineering, and computer science.
Table of Contents
Preface. Acknowledgments. Part One: Fundamentals of Sculptured Surface Machining. 1. Introduction to sculptured surface machining. 2. Mathematical background. 3. Sculptured surface machining processes. 4. Process planning for sculptured surface machining. 5. Fundamentals of tool-path generation and validation. Part Two: Tool-Path Generation Methods for Sculptured Surface Machining. 6. Introduction to tool-path generation methods. 7. Tool-path generation for roughing. 8. Tool-path generation for Finishing. 9. Tool-path generation for clean-up machining. 10. Cloud-of-points data machining for reverse engineering. 11. Five axis machining. Part Three: Controlling Accuracy and Quality in Sculptured Surface Machining. 12. Geometric cutting simulation and verification. 13. Cutting force modelling and physical cutting simulation. Part Four: Systems Integration for Sculptured Surface Machining. 14. A Unified CAM-system architecture. 15. Development of integrated SSM-software. 16. CAPP for sculptured surface machining. References. Index.