Modeling Solid-State Precipitation
Published on 16. January 2013
Book
Hardback
500 pages
978-1-60650-062-0 (ISBN)
Description
Momentum Press's new Computational Materials Science and Engineering Series will focus on both classic and innovative modeling algorithms for computer-aided materials analysis as well as typical applications for each modeling technique. This book in the series will focus on computer modeling techniques for precipitation phenomena in materials undergoing phase transition from one state to another, with a focus on the sharp-interface limit model. Readers will find coverage on:
Statistical Theory of Phase Transformation Solid-State Nucleation
Multiparticle Precipitation Kinetics - using both numerical Kampmann-Wagner Model and the SFFK Model
A comparison of growth kinetics using different models
Statistical Theory of Phase Transformation Solid-State Nucleation
Multiparticle Precipitation Kinetics - using both numerical Kampmann-Wagner Model and the SFFK Model
A comparison of growth kinetics using different models
More details
Language
English
Place of publication
Highland Park
United States
Target group
Professional and scholarly
Dimensions
Height: 260 mm
Width: 183 mm
Thickness: 37 mm
Weight
1584 gr
ISBN-13
978-1-60650-062-0 (9781606500620)
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
Ernst Kozeschnik
Modeling Solid-State Precipitation
E-Book
12/2012
Momentum Press
€144.99
Available for download
Person
Ernst Kozeschnik is a Professor of Materials Technology at the Vienna University of Technology, having previously been an Assistant Professor of Materials Science at the Graz University of Technology and a visiting scientist at Oak Ridge National Laboratory. He is the author and co-author of over 120 journal articles and book chapters spanning diverse topics of phase transformations, computational microstructure evolution, and continuums modelling of precipitation in multi-component multiphase systems.