Books by Keyword: Grinding

Description: This collection of 142 papers was carefully selected from the more than 300 papers submitted. All of the papers were subjected to peer-review by at least two expert referees.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This volume consists of a selection of papers, made from among more than 300 submitted by universities and industrial laboratories. All of the papers were subjected to peer-review by at least two expert referees. Selection for this volume depended upon the quality of the paper and its relevance to the thematic topic.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Abrasive technologies are central to modern manufacturing as applied to a wide variety of products covering many disciplines: from nanoscale components to large-scale equipment, and from biomedical devices to aerospace structures.

Description: Volume is indexed by Thomson Reuters BCI (WoS).
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.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Abrasive technology concerns manufacturing processes that involve the use of abrasives in various forms. It has a long history; originating right from the first discovery of minerals. With increasingly stringent requirements for the production of high-precision and high surface-quality components, in applications such as silicon wafers for the semiconductor industry and optical lenses for the precision instrument industry, abrasive technology is becoming an increasingly important factor in precision manufacturing. An understanding of the mechanisms of abrasive technology ensures the soundness and integrity of current component manufacture, as well as leading to the development of new and effective techniques.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
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.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This collection comprises 144 papers which were carefully selected from the over 300 papers submitted for the purposes of this special volume. All of the papers were subjected to peer-review by at least two expert referees.

Description: This work comprises a selection chosen from among more than 300 authoritative submitted papers. All of the papers were submitted for peer-review by at least two expert referees.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 117 papers selected for this volume were chosen for their particularly good quality and their relevance to the topic in question.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Enhancement of the surface finish and integrity of engineered components is increasingly important, particularly for the working 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 in achieving a fundamental understanding of surface finishing technologies in order to predict, control and optimise practical surface finishing processes.
The aim of this special volume is to offer the opportunity of bringing together academic researchers and industry workers in order to exchange information on the latest developments in, and applications of, advanced precision surface finishing and deburring technologies; as well as generally promoting personal contact and interdisciplinary research collaborations.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Precision engineering and micro/nano technologies have been developing rapidly in recent years, and are set to become the dominant players in a new industrial revolution of the 21st century. They will not only provide new possibilities for exponential development of the global economy, but also cause a revolution in human understanding.