Engineering Research
Materials Science
Engineering Series
Books by Keyword: Abrasive Machining
Books
This volume of journal "Materials Science Forum" was collected by results of 19th International Symposium on Advances in Abrasive Technology (ISAAT 2016, Stockholm, Sweden, October 2-5, 2016) and intended to disseminate the recent advances in both conventional and nonconventional technologies of materials removal and covers many aspects of modern scientific and engineering practice in area of materials machining. Topics include: grinding and polishing, abrasive fine-finishing, micro- and nanomachining, ultrasonic and laser machining, surface integrity and materials characterization, as well as other advanced cutting technologies and etc. This book will be useful for academics and practicing engineers in advancement of the efficient materials removal technologies for modern mechanical engineering.
The 114 papers are grouped as follows:
Chapter 1: Grinding
Chapter 2: Abrasive Jet Machining
Chapter 3: Advanced Cutting Technology
Chapter 4: Processing of Brittle Materials
Chapter 5: Chemical Mechanical Polishing, Processing of Semiconductor Wafer
Chapter 6: Electrical Discharge Machining, Ultrasonic and Beam Machining
Chapter 7: Finishing, Lapping and Polishing
Chapter 8: Surface and Subsurface Integrity and Materials Characterization
Chapter 9: In-Process Measurement and Monitoring, Metrology
Chapter 10: Machine Tools and Systems, Tooling Processing
The 132 papers are grouped as follows:
Chapter 1: Materials Research and its Applications;
Chapter 2: Material Processing Technologies;
Chapter 3: Applied Research in Materials Science;
Chapter 4: Applied Mechanics and Mechanical Technologies;
Chapter 5: Measurements and Monitoring
The 138 papers are grouped as follows:
Chapter 1: Abrasive Machining,
Chapter 2: Surface Quality,
Chapter 3: Brittle Material Machining,
Chapter 4: Grinding Wheel,
Chapter 5: High Efficiency Machining,
Chapter 6: Cutting Technology,
Chapter 7: Tribology in Manufacturing, Chapter 8: Micro/Nano Machining, Chapter 9: Finishing/Lapping/Polishing,
Chapter 10: System Development,
Chapter 11: Monitoring & Analysis,
Chapter 12: Metrology & Evaluation,
Chapter 13: Chemo-Mechanical Polishing,
Chapter 14: Non-Traditional Machining
The modelling of Machining Operations has become very widespread today, with many researchers developing models with which to predict metal-cutting performance. The aim here is to provide an answer to the challenges presented by the machining industry, which is presently facing very tight economical and environmental constraints. The collection of over 100 peer-reviewed papers covers twelve research topics, including: “Analytical and Numerical Modelling”; “Cutting Fundamentals: Input Parameters”; “Cutting Fundamentals: Experimental Validation”; “Surface Integrity”; “Surface Topography”; “Tool Wear and Tool Life”; “Dynamics and Stability”; “High-Speed Machining and 5-Axes Machining”; “Abrasive Machining”; “Ultra-Precision and Micromachining”; “Computer-Aided Manufacturing (CAM)”; “Experimental: Non-Conventional Machining”. This work will thus constitute an invaluable handbook on the subject.
Enhancing the surface finish and integrity of engineered components is increasingly important; particularly for the parts used in electronic and optical devices and systems. Significant progress has been made, in recent years, in developing new and advanced surface-finishing technologies as well as acquiring a fundamental understanding of the surface finishing technologies in order to predict, control and optimise surface-finishing processes.
The aim of this special volume was to bring together the latest know-how of academic researchers and industrial engineers and present the latest developments and applications in advanced precision surface finishing and de-burring technologies.