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Nanoindentation
There has been considerable interest in the last two decades in the mechanical characterisation of thin film systems and small volumes of material using depth-sensing indentation tests. Usually, the principal goal of such testing is to obtain values for elastic modulus and hardness of the specimen material from experimental readings of indenter load and depth of penetration. But other properties such as residual stress, fracture toughness, and visco-elastic behavior may also be measured. The indentation technique can be used on both brittle and ductile materials where conventional testing may result in premature specimen fracture. The forces involved are usually in the millinewton range and measured with a resolution of a few nanonewtons while the depths of penetration are in the order of nanometres, hence the term "nanoindentation". This new edition of Nanoindentation includes: * A dedicated chapter on thin films * New material on dynamic analysis and creep * Accounts of recent research * Three new appendices on nonlinear least squares fitting, frequently asked questions, and specifications for a nanoindentation instrument. Nanoindentation Second Edition is intended for those who are entering the field for the first time and to act as a reference for those already conversant with the technique. About the Author: Anthony C. Fischer-Cripps, Ph. D. is the Project Leader for Surface Mechanics, Telecommunications & Industrial Physics at Commonwealth Scientific & Industrial Research Organization in Lindfield, Sydney, Australia.
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http://schema.org/description
- "There has been considerable interest in the last two decades in the mechanical characterisation of thin film systems and small volumes of material using depth-sensing indentation tests. Usually, the principal goal of such testing is to obtain values for elastic modulus and hardness of the specimen material from experimental readings of indenter load and depth of penetration. But other properties such as residual stress, fracture toughness, and visco-elastic behavior may also be measured. The indentation technique can be used on both brittle and ductile materials where conventional testing may result in premature specimen fracture. The forces involved are usually in the millinewton range and measured with a resolution of a few nanonewtons while the depths of penetration are in the order of nanometres, hence the term "nanoindentation". This new edition of Nanoindentation includes: * A dedicated chapter on thin films * New material on dynamic analysis and creep * Accounts of recent research * Three new appendices on nonlinear least squares fitting, frequently asked questions, and specifications for a nanoindentation instrument. Nanoindentation Second Edition is intended for those who are entering the field for the first time and to act as a reference for those already conversant with the technique. About the Author: Anthony C. Fischer-Cripps, Ph. D. is the Project Leader for Surface Mechanics, Telecommunications & Industrial Physics at Commonwealth Scientific & Industrial Research Organization in Lindfield, Sydney, Australia."@en
- "Nanoindentation, Third Edition gives a detailed account of the most up-to-date research in this important field of materials testing. As in previous editions, extensive theoretical treatments are provided and explained in a clear and consistent manner that will satisfy both experienced and novice scientists and engineers. Additionally, numerous examples of the applications of the technique are provided directly from manufacturers of nanoindentation instruments. A helpful series of appendices provides essential reference information that includes a list of frequently asked questions. The new edition has been restructured to provide results of the latest research and developments in the field of mechanical testing while retaining the essential background and introductory, but authoritative nature, of the previous editions. The new edition also expands on the instrumentation and applications chapters by including material sourced direct from the instrument manufacturers in this field. Aimed at graduate student level, this book is designed to fill a need associated with the use of nanoindentation as a quantitative test method for mechanical properties of small volumes of materials."
- "As the focus in materials science shifts towards designing materials at the sub-micron scale - the "nanotechnology" revolution - it becomes increasingly important to characterize the mechanical properties of thin films and small volumes of material. The development of of nanoscale probes and ultrasensitive transducers for force and depth has made such measurements possible, and there are several commercially available instruments for making them. Such "nanoindentation" measurement devices are used in a wide variety of research and manufacturing areas, ranging from the fabrication and testing of silicon wafers in the electronics industry to the testing of hard coatings for cutting tools. This book presents the underlying theory behind the extraction of elastic modulus and hardness from the load-displacement data, discusses the significance of surface forces and adhesion, delineates the various corrections involved, and describes the methods of operation of the available instruments.; Self-contained, the treatment is aimed at those entering the field, but by bringing together material scattered widely throughout the research literature it should also provide a useful reference for those working in the field."@en
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