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Nanotribology and Nanomechanics : An Introduction
The recent emergence and proliferation of proximal probes, e.g. SPM and AFM, and computational techniques for simulating tip-surface interactions has enabled the systematic investigation of interfacial problems on ever smaller scales, as well as created means for modifying and manipulating nanostruc...
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| Autres auteurs : | |
|---|---|
| Format : | Livre |
| Langue : | anglais |
| Titre complet : | Nanotribology and Nanomechanics : An Introduction / edited by Bharat Bhushan. |
| Publié : |
Berlin, Heidelberg :
Springer Berlin Heidelberg
, [20..] Cham : Springer Nature |
| Accès en ligne : |
Accès Nantes Université
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| Condition d'utilisation et de reproduction : | Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017 |
| Contenu : | Scanning Probe Microscopy. Scanning Probe Microscopy Principle of Operation, Instrumentation, and Probes. Probes in Scanning Microscopies. Noncontact Atomic Force Microscopy and Its Related Topics. Low Temperature Scanning Probe Microscopy. Dynamic Force Microscopy. Molecular Recognition Force Microscopy. Measurement Techniques and Applications. Nanotribology and Nanomechanics. Micro/Nanotribology and Materials Characterization Studies Using Scanning Probe Microscopy. Surface Forces and Nanorheology of Molecularly Thin Films. Friction and Wear on the Atomic Scale. Nanoscale Mechanical Properties Measuring Techniques and Applications. Nanomechanical Properties of Solid Surfaces and Thin Films. Computational Modeling of Nanometer-Scale Tribology. Mechanics of Biological Nanotechnology. Mechanical Properties of Nanostructures. Scale Effect in Mechanical Properties and Tribology. Moleculary-Think Films for Lubrication. Nanotribology of Ultrathin and Hard Amorphous Carbon Films. Self-Assembled Monolayers for Controlling Adhesion, Friction and Wear. Nanoscale Boundary Lubrication Studies. Applications. Micro/Nanotribology and Micro/Nanomechanics of Magnetic Storage Devices. Micro/Nanotribology of MEMS/NEMS Materials and Devices. Mechanical Properties of Micromachined Structures. |
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Nanotribology and Nanomechanics Autre format: Nanotribology and nanomechanics |
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| 327 | 1 | |a Scanning Probe Microscopy |a Scanning Probe Microscopy Principle of Operation, Instrumentation, and Probes |a Probes in Scanning Microscopies |a Noncontact Atomic Force Microscopy and Its Related Topics |a Low Temperature Scanning Probe Microscopy |a Dynamic Force Microscopy |a Molecular Recognition Force Microscopy |a Measurement Techniques and Applications |a Nanotribology and Nanomechanics |a Micro/Nanotribology and Materials Characterization Studies Using Scanning Probe Microscopy |a Surface Forces and Nanorheology of Molecularly Thin Films |a Friction and Wear on the Atomic Scale |a Nanoscale Mechanical Properties Measuring Techniques and Applications |a Nanomechanical Properties of Solid Surfaces and Thin Films |a Computational Modeling of Nanometer-Scale Tribology |a Mechanics of Biological Nanotechnology |a Mechanical Properties of Nanostructures |a Scale Effect in Mechanical Properties and Tribology |a Moleculary-Think Films for Lubrication |a Nanotribology of Ultrathin and Hard Amorphous Carbon Films |a Self-Assembled Monolayers for Controlling Adhesion, Friction and Wear |a Nanoscale Boundary Lubrication Studies |a Applications |a Micro/Nanotribology and Micro/Nanomechanics of Magnetic Storage Devices |a Micro/Nanotribology of MEMS/NEMS Materials and Devices |a Mechanical Properties of Micromachined Structures. | |
| 330 | |a The recent emergence and proliferation of proximal probes, e.g. SPM and AFM, and computational techniques for simulating tip-surface interactions has enabled the systematic investigation of interfacial problems on ever smaller scales, as well as created means for modifying and manipulating nanostructures. In short, they have led to the appearance of the new, interdisciplinary fields of micro/nanotribology and micro/nanomechanics. This volume serves as a timely, practical introduction to the principles of nanotribology and nanomechanics and applications to magnetic storage systems and MEMS/NEMS. Assuming some familiarity with macrotribology/mechanics, the book comprises chapters by internationally recognized experts, who integrate knowledge of the field from the mechanics and materials-science perspectives. They cover key measurement techniques, their applications, and theoretical modelling of interfaces, each beginning their contributions with macro- and progressing to microconcepts. After reviewing the fundamental experimental and theoretical aspects in the first part, Nanotribology and Nanomechanics then treats applications. Three groups of readers are likely to find this text valuable: graduate students, research workers, and practicing engineers. It can serve as the basis for a comprehensive, one- or two-semester course in scanning probe microscopy; applied scanning probe techniques; or nanotribology/nanomechanics/nanotechnology, in departments such as mechanical engineering, materials science, and applied physics. With a Foreword by Physics Nobel Laureate Gerd Binnig Dr. Bharat Bhushan is an Ohio Eminent Scholar and The Howard D. Winbigler Professor in the Department of Mechanical Engineering, Graduate Research Faculty Advisor in the Department of Materials Science and Engineering, and the Director of the Nanotribology Laboratory for Information Storage & MEMS/NEMS (NLIM) at the Ohio State University, Columbus, Ohio. He is an internationally recognized expert of tribology and mechanics on the macro- to nanoscales, and is one of the most prolific authors. He is considered by some a pioneer of the tribology and mechanics of magnetic storage devices and a leading researcher in the fields of nanotribology and nanomechanics using scanning probe microscopy and applications to micro/nanotechnology. He is the recipient of various international fellowships including the Alexander von Humboldt Research Prize for Senior Scientists, Max Planck Foundation Research Award for Outstanding Foreign Scientists, and the Fulbright Senior Scholar Award. | ||
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