Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
Published on 15. November 2017
Book
Paperback/Softback
158 pages
978-3-0357-1285-8 (ISBN)
Description
The general intention of this volume is to give the readers a wide overview of physical problems connected with the processes controlled by atomic migration and of the methods of their modelling. The collection is addressed to researchers and graduate students working in the field of diffusion and diffusion-controlled processes in condensed matter.
The general intention of this volume is to give the readers a wide overview of physical problems connected with the processes controlled by atomic migration and of the methods of their modelling. The collection is addressed to researchers and graduate students working in the field of diffusion and diffusion-controlled processes in condensed matter.
More details
Series
Language
English
Place of publication
Zurich
Switzerland
Target group
Professional and scholarly
Illustrations
Illustrations, unspecified
Dimensions
Height: 240 mm
Width: 170 mm
Thickness: 8 mm
Weight
410 gr
ISBN-13
978-3-0357-1285-8 (9783035712858)
DOI
10.4028/b-eb5nHW
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Rafal Abdank-Kozubski
Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
Software
11/2017
Trans Tech Publications Ltd
€158.33
Shipment within 10-20 days
Rafal Abdank-Kozubski
Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
Multiscale Modelling of Diffusion-Controlled Phenomena in Condensed Matter
E-Book
09/2017
Trans Tech Publications Ltd
€164.78
Available for download
Person
Ed. Prof. Rafal Kozubski
Content
<ul><li>Preface</li><li>
<i>Ab Initio</i> Based Modelling of Diffusion and Phase Stability of Alloys</li><li>Mass Transport in Nanoalloys Studied by Atomistic Models</li><li>Modeling of Size Effects in Diffusion Driven Processes at Nanoscale - Large Atomic and Mesoscale Methods</li><li>Validation of an Embedded-Atom Copper Classical Potential via Bulk and Nanostructure Simulations</li><li>Molecular Dynamics Prediction of the Influence of Composition on Thermotransport in Ni-Al Melts</li><li>From the Atomistic to the Mesoscopic Scale Modeling of Phase Transition in Solids</li><li>Diffusion in Condensed Matter by Finite Element Method</li></ul>
<i>Ab Initio</i> Based Modelling of Diffusion and Phase Stability of Alloys</li><li>Mass Transport in Nanoalloys Studied by Atomistic Models</li><li>Modeling of Size Effects in Diffusion Driven Processes at Nanoscale - Large Atomic and Mesoscale Methods</li><li>Validation of an Embedded-Atom Copper Classical Potential via Bulk and Nanostructure Simulations</li><li>Molecular Dynamics Prediction of the Influence of Composition on Thermotransport in Ni-Al Melts</li><li>From the Atomistic to the Mesoscopic Scale Modeling of Phase Transition in Solids</li><li>Diffusion in Condensed Matter by Finite Element Method</li></ul>