Handbook of Machining with Grinding Wheels (2^nd Ed.)

Grinding is a crucial technology that employs specific abrasive processes for the fabrication of advanced products and surfaces. Handbook of Machining with Grinding Wheels, Second Edition highlights important industry developments that can lead to improved part quality, higher productivity, and lower costs. Divided into two parts, the book begins with an explanation of grinding behavior and ends with a focus on new and emerging industrial applications.

While the first edition focused on the basics of abrasive machining technology and presented a unified approach to machining with grinding wheels, the second editionties in the continued need for traditional processes in conjunction with the latest applications. This bookhighlights new research topics that include: nanotechnology, alternative energy, and additive manufacturing, compares related approaches, and provides numerous references throughout the book.

New in the Second Edition:

• Contains the latest information on abrasives, bonds, and dressing
• Updates classic stability lobes for grinding
• Introduces a new method for tracking dynamic instability in centerless grinding
• Provides a section in the chapter on ultrasonic-assisted grinding, which contains recent work on modelling of the process
• Adds material on fluid cooling
• Presents experimental results for in-process feedback to the grinding process
• Includes new examples on grinding machine technology (particularly for dressing)

A single source reference covering every aspect of the grinding process, Handbook of Machining with Grinding Wheels functions as a definitive guide to grinding technology for both practicing engineers and students studying graduate-level courses (such as abrasive machining; grinding R&D; metal removal processes; machining of brittle materials; and principles of cutting).

THE BASIC PROCESS OF GRINDING. Introduction. Grinding Parameters. Material Removal Mechanisms. Grinding Wheels. The Nature of the Abrasive. Specification of the Bond. Dressing. Grinding Dynamics. Grinding Wheel Wear. Coolants, the Coolant System, and Cooling. Monitoring of Grinding Processes. Economics of Grinding. APPLICATION OF GRINDING PROCESSES. Grinding of Ductile Materials. Grinding of Ceramics. Grinding Machine Technology. Surface Grinding. External Cylindrical Grinding. Internal Grinding. Centerless Grinding. Ultrasonic-Assisted Grinding. Glossary. Appendix: Notation and Use of SI Units.

Brian Rowe is considered the father of centerless grinding in addition to other notable research on grinding that includes thermal aspects, dynamic aspects, and fluid-film bearings. He established a laboratory and school dedicated to manufacturing processes at Liverpool John Moores University and is an Emeritus Professor.

Ichiro Inasaki