Hybrid Machining Theory, Methods, and Case Studies
Auteurs : Luo Xichun, Qin Yi
Hybrid Machining: Theory, Methods, and Case Studies covers the scientific fundamentals, techniques, applications and real-world descriptions of emerging hybrid machining technology. This field is advancing rapidly in industrial and academic contexts, creating a great need for the fundamental and technical guidance that this book provides. The book includes discussions of basic concepts, process design principles, standard hybrid machining processes, multi-scale modeling approaches, design, on-machine metrology and work handling systems.
Readers interested in manufacturing systems, product design or machining technology will find this one-stop guide to hybrid machining the ideal reference.
2. Overview of hybrid machining processes
3. Assisted hybrid machining processes
4. Combined hybrid machining processes
5. Multi-scale modelling hybrid machining
6. Hybrid machine tool design
7. On-machine metrology for hybrid machining
8. Material handling for hybrid machining
9. Future of hybrid machining technology
Postgraduates, engineers, and materials scientists interested in advanced machining processes
Yi Qin is a Professor, Chair of Manufacturing Technology and Systems, and Director of the Centre for Precision-Manufacturing at The University of Strathclyde, UK.
Professor Qin’s research interests include materials forming, precision/micro-manufacturing and manufacturing system technology. His main contributions to knowledge to-date include numerical modelling and analysis methods for materials and manufacturing, new material synthesis and manufacturing processes, machine, tool and product designs as well as new manufacturing system concepts. As one of the leading experts in the field, Professor Qin has led a series of research and development projects, including several large-scale R&D projects in micro-manufacturing involving many industrial companies. To date, he has published over 250 technical papers in the journals and international conferences, given keynote speeches/plenary addresses at more than 30 international conferences and workshops worldwide, a member of the scientific committee for more than 50 international conferences,
- Includes tables of recommended processing parameters for key engineering materials/products for each hybrid machining process
- Provides case studies covering real industrial applications
- Explains how to use multiscale modeling for hybrid machining
Date de parution : 06-2018
Ouvrage de 326 p.
15x22.8 cm
Thèmes de Hybrid Machining :
Mots-clés :
Abrasive water jet milling; Adaptive gripper; Advanced machining processes; Assisted hybrid machining; Automated material handling; Calibration; Combined hybrid machining; Concurrent multiscale modeling; Conventional milling; Design methodology; Design principle; Dynamic design; Electrochemical machining (ECM); Electrochemical spark machining; Finite element analysis; Finite element method (FEM); Hard-to-machine materials; Hierarchical method; Hybrid ECM; Hybrid machine; Hybrid machining; Hybrid machining technology; Hybrid milling; Hybrid tooling; Interferometry; Laser-assisted machining; Laser-assisted machining (LAM); Machinability; Material removal rate; Micromachining; Molecular dynamics (MD); Multiscale modeling; Nonconducting materials; On-machine metrology; Reconfigurable design; SCARA robot; Sequential multiscale modeling; Surface integrity; Surface metrology; Tool wear; Total design; Vibration cutting; Vibration system design; Vibration-assisted machining; Vibration-assisted milling; Vision system; Zero wear