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  3. Introduction to Surface Engineering
  • Cited by 15
Publisher:
Cambridge University Press
Online publication date:
January 2017
Print publication year:
2017
Online ISBN:
9781139031509
DOI:
https://doi.org/10.1017/9781139031509
Subjects:
Engineering, Engineering Design, Kinematics, and Robotics, Solid Mechanics and Materials
Information

Book description

This highly illustrated reference work covers the three principal types of surface technologies that best protect engineering devices and products: diffusion technologies, deposition technologies, and other less commonly acknowledged surface engineering (SE) techniques. Various applications are noted throughout the text and additionally whole chapters are devoted to specific SE applications across the automotive, gas turbine engine (GTE), metal machining, and biomedical implant sectors. Along with the benefits of SE, this volume also critically examines SE's limitations. Materials degradation pathways - those which can and those which cannot be mitigated by SE - are rigorously explained. Written from a scientific, materials engineering perspective, this concise text is supported by high-quality images and photo-micrographs which show how surfaces can be engineered to overcome the limits of conventionally produced materials, even in complex or hostile operating environments. This book is a useful resource for undergraduate and postgraduate students as well as professional engineers.

Reviews

'I enjoyed reading this very straightforward book. Its great strength is as a complete resource that will be invaluable for those studying and teaching courses on surface engineering at the advanced undergraduate and graduate level in universities, as well as materials scientists and mechanical engineers in government research establishments and industrial research environments.'

Kevin M. Knowles - University of Cambridge

'Within the vast diverse literature of surface engineering this single authored work brings together all the many facets of the subject to provide a deep understanding of how the discipline can be implemented to enhance the performance of materials subjected to the most demanding conditions of stress, fatigue, wear, friction and corrosion.'

George Krauss - University Emeritus Professor, Colorado School of Mines

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