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Fundamentals of Friction and Wear on the Nanoscale: NanoScience and Technology

Editat de Enrico Gnecco, Ernst Meyer
en Limba Engleză Paperback – 23 aug 2016
This book provides an updated review on the development of scanning probe microscopy and related techniques, and the availability of computational techniques not even imaginable a few decades ago. The 36 chapters cover instrumental aspects, theoretical models and selected experimental results, thus offering a broad panoramic view on fundamental issues in nanotribology which are currently being investigated. Compared to the first edition, several topics have been added, including triboluminescence, graphene mechanics, friction and wear in liquid environments, capillary condensation, and multiscale friction modeling. Particular care has been taken to avoid overlaps and guarantee the independence of the chapters. In this way, our book aims to become a key reference on this subject for the next five to ten years to come.
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Specificații

ISBN-13: 9783319330785
ISBN-10: 3319330780
Pagini: 726
Ilustrații: XXII, 704 p. 360 illus., 37 illus. in color.
Dimensiuni: 155 x 235 x 37 mm
Greutate: 1 kg
Ediția:Softcover reprint of the original 2nd ed. 2015
Editura: Springer International Publishing
Colecția Springer
Seria NanoScience and Technology

Locul publicării:Cham, Switzerland

Cuprins

Experimental Techniques.- Atomic-Scale Friction.- Multiscale Friction.- Nanomanipulation and Surface Diffusion.- Carbon Materials.- Polymer Friction, Nanowear.- Dissipation Mechanisms at Finite Separations.- Applications.

Textul de pe ultima copertă

This book provides an updated review on the development of scanning probe microscopy and related techniques, and the availability of computational techniques not even imaginable a few decades ago. The 36 chapters cover instrumental aspects, theoretical models and selected experimental results, thus offering a broad panoramic view on fundamental issues in nanotribology which are currently being investigated. Compared to the first edition, several topics have been added, including triboluminescence, graphene mechanics, friction and wear in liquid environments, capillary condensation, and multiscale friction modeling. Particular care has been taken to avoid overlaps and guarantee the independence of the chapters. In this way, our book aims to become a key reference on this subject for the next five to ten years to come.

Caracteristici

Presents latest achievements in the field explained by leading scientists of nanotribology research Gives a broad and systematic overview of nanotribology Discusses the state of the art in relation to previous milestones in the field Includes supplementary material: sn.pub/extras

Notă biografică

Enrico Gnecco received his Ph.D. from the University of Genoa, and served as postdoctoral and senior researcher at the University of Basel and IMDEA Nanoscience in Madrid, and also as professor of mechanics of functional materials at Friedrich Schiller University in Jena before joining the Jagiellonian University as professor of nanomechanics. His research focuses on understanding the physical processes that govern surface phenomena such as friction, wear and adhesion down to the atomic scale. This is made possible by the combination of advanced microscopy techniques such as AFM, SEM and TEM with modelling work performed in collaboration with several groups. This line of research, which is fundamental in nature, has a wide range of applications from solid lubrication to tactile sensors. It can also help understand and mitigate environmental problems such as nucleation and release of nanoparticles from solid surfaces damaged by abrasive or plastic wear.
Ernst Meyer received his Ph.D. at the University of Basel in 1990. The topic of force microscopy on ionic crystals and layered materials was treated in his thesis. After a postdoctoral stay at the IBM Research Center Zurich, he started his present position at the University of Basel. His research is focussed on scanning probe microscopy investigations of physical processes at surfaces. Friction and energy loss mechanisms on the nanometer scale as well as photovoltaics related experiments are topics of interest. Recent highlights are the frictional properties of graphene nanoribbons and the observation of Majorana bound states on Fe wires deposited on a Pb superconductor.