Engineering Research
Materials Science
Engineering Series
Books by Keyword: Lapping
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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 76 papers are grouped as follows:
Chapter 1: Ultra-Precision Machining Process and Instrumentation,
Chapter 2: Surface Finishing Technology,
Chapter 3: Design, Fabrication and Analysis of Devices and Materials for the Applications of Machining Technologies.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 131 peer reviewed papers are grouped as follows:
Chapter 1: Theory and Technology of Cutting and Grinding;
Chapter 2: New Technologies of Tool;
Chapter 3: Precision and Ultra Precision Machining;
Chapter 4: Advanced Manufacturing Technology;
Chapter 5: Micro and Nano Technology;
Chapter 6: Mechanical Manufacturing Experiment and Detection Technology;
Chapter 7: Automation and Modern Manufacturing System
The 108 peer reviewed papers on “Mechatronic Systems and Materials” are grouped as follows:
I. Integrated Diagnostics;
II. Failure Analysis;
III. Tribology in Mechatronic Systems;
IV. Signal and Image Processing;
V. Measurement Techniques;
VI. Multifunctional and Smart Materials;
VII. Metallic Alloys;
VIII. Biomaterials;
IX. Functional Composites;
X. Nanomaterials; XI. Ceramics and Glasses;
XII. New Trends in Mechatronic and Materials Science Education.
This book brings together the latest developments in, and applications of, abrasive technology. The topics covered include: grinding and grinding wheels, truing and dressing techniques for grinding wheels, finishing, lapping, honing and polishing, abrasive-jet machining, advances in machining technologies, micro/nano-fabrication, as well as other novel technologies and advanced studies relevant to abrasive technology and precision manufacturing. This work will represent an invaluable reference source for professionals in the precision manufacturing field who wish to keep abreast of state-of-the-art developments in abrasive technology and who are interested in understanding further the fundamentals of this discipline.
The topics covered herein include: Single-point diamond turning; Ultra-precision grinding technology; High-speed and high-efficiency machining; Machine tools and systems; In-process measurement and monitoring; Metrology and evaluation; Finishing, lapping and polishing; Micro/nano machining and fabrication; Forming processes for optical and electrical components; CMP and silicon-wafer processing; Brittle-material machining; EDM, ultrasonic machining and laser machining; and Related precision machining methods. This work will provide a valuable and fruitful reference source for researchers in the field of ultra-precision machining who wish to understand, in greater depth, the underlying mechanisms and to create new and practical design technologies, systems and processes. It will also be particularly useful to practising engineers who are responsible for providing efficient, precise and effective machining.
Abrasive machining is one of the oldest technologies, and continues to have a far-reaching impact on a broad spectrum of industries. In particular, there is an ever-increasing demand by modern manufacturing for advanced abrasive techniques and other precision machining technologies. As well as abrasive-related technologies, electrical discharge machining (EDM), glass molding, machine tool systems, green manufacturing, laser-beam machining, tribology, advanced cutting methods, etc. are addressed here. The more than 167 presentations contributed by workers from all over the world will make this volume essential reading.
The grinding and abrasive processing of materials are machining techniques which use bonded or loose abrasives to remove material from workpieces. Due to the well-known advantages of grinding and abrasive processes, advances in abrasive and grinding technology are always of great import in enhancing both productivity and component quality. In order to highlight the recent progress made in this field, the editor invited 21 world-wide contributions with the aim of gathering together all of the achievements of leading researchers into a single publication.