Advanced Machining and Finishing Handbooks in Advanced Manufacturing Series
Coordonnateurs : Gupta Kapil, Pramanik Alokesh
Advanced Machining and Finishing explains the background theory, working principles, technical specifications, and latest developments in a wide range of advanced machining and finishing techniques. The book includes valuable technical information, tables of data, and diagrams to assist machinists. Drawing on the work of experts in both academia and industry, coverage addresses theoretical developments as well as practical improvements from R&D. With over 25 important processes, from electro-chemical machining to nano-machining and magnetic field assisted finishing, this is the most complete guide to this subject available.
This unique guide will allow readers to compare the characteristics of different processes, understand how they work, and provide parameters for their effective implementation. This is part of a 4 volume set entitled Handbooks in Advanced Manufacturing, with the other 3 addressing Advanced Welding and Deforming, Additive Manufacturing and Surface Treatment, and Sustainable Manufacturing Processes.
Advanced Machining 1. Advances in conventional machining processes for machinability enhancement of difficult-to-machine materials 2. Advances in machining of particulate-reinforced metal matrix composites 3. Gun drilling of difficult-to-machine materials 4. Advancements in conventional machining: a case of vibration and heat-assisted machining of aerospace alloys 5. Recent developments in spark erosion-based machining processes 6. Developments in abrasive water jet machining process - from 1980 to 2020 7. Advances in conventional and nonconventional high-speed machining 8. Hybrid machining and finishing processes 9. Relevance of micromachining in microfluidics and biomedical devices 10. Advancements in electrochemical machining 11. Machining of polymeric composite materials by water jet with abrasive: defectology and influence of cutting parameters 12. Laser-based machining - an advanced manufacturing technique for precision cutting 13. An insight on ultrasonic machining technology
Advanced Finishing 14. Advances in burnishing technology 15. Advanced thermal energy method for finishing precision parts 16. Micro-nano surface texturing, characterization, and their impact on biointerfaces 17. Fundamental understanding and latest developments in magnetic field-assisted finishing processes 18. Laser surface texturing as a finishing process for aerospace alloys
Alokesh Pramanik is currently a Senior Lecturer in the Department of Mechanical Engineering at Curtin University, Perth, Australia. Prior to that, he held research fellow and research engineering positions at Deakin University and Swinburne University of Technology, respectively. He has edited two books and written sixteen book chapters and dozens of peer-reviewed articles on machining, materials, and tribology. His research interests include machining processes, wear and friction, composite materials, biomaterials, and thin films.
- Provides the theory, operational parameters, and latest developments in over 25 different machining and finishing processes
- Addresses both traditional and non-traditional machining methods
- Introduces basic concepts in an introductory chapter, helping readers from a range of backgrounds to engage with the subject matter
Date de parution : 04-2021
Ouvrage de 696 p.
15.2x22.8 cm
Thème d’Advanced Machining and Finishing :
Mots-clés :
µ-EDM variants; µ-EDM; Abrasive water jet machining; Abrasive; Aerospace alloys; Applications; AWJM; Ball burnishing; Biointerface; CAD-CAM software; Carbon fiber-reinforced polymer; Ceramic; CNC machining; Cold plastically deformation; Control strategies; Cutting simulation; Cutting; Deep rolling; Difficult-to-machine materials; Drilling forces; ECM; EDM; Electrolyte; Engineering materials; Fabrication; Finish processing; Finishing; Finite element analysis (FEA)Machining; Gun drilling; HAZ; Heat flux; Heat-assisted machining; High-speed machining; Hole straightness; Honing; Hybrid machining; Immunoassay; Implant; Kerf; Lab-on-a-chip device; Laser; Machinability; Magnetic abrasive finishing; Magnetorheological finishing; Magnetorheological fluid; Manufacture; Manufacturing; Material removal rate; MEMS; Microfluidic device; Miniature; Nanofinishing; Particle fracture; Particulate-reinforced metal matrix composites (PRMMCs)Surface integrity; Photolithography; Plastic; Polishing; Precision; Process parameters; Productivity; Regular reliefs; Resistors; Roughness; Sheet metal; Shock waves; Stainless steel; Stent; Superalloys; Surface engineering; Surface finish; Surface modification; Surface quality; Surface roughness; Surface texturing; Surface wetting; Surface; Texturing; Thermal deburring; Titanium alloys; Tool condition monitoring; Tool wear; Transducer; Tribology; Ultrasonic machining; Ultrasonic; Vibration-assisted machining; Wear compensation; Wear