Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening
Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening
To predict strength evolution of precipitation hardening alloys, a wide range of modelling approaches have been proposed. The most accurate published models are physics-based approaches which use both nanoscale processes with their related constants and parameters, as well as parameters calibrated to one or more macroscale measurements of yield strength of one or more samples. Recent developments in submodels including analytical expressions for volume fraction and size evolution including impingement and coarsening are reviewed. It is also shown that Kampmann-Wagner and JMAK models are generally not consistent with data on the progress of precipitations in the main precipitation hardening Al alloys systems, and improved model formulations are described.
precipitation, co-clusters, strength, ageing, 6xxx, 2xxx, 7xxx
0878494286
2365-2370
Trans Tech Publications Ltd
Starink, M.J.
fe61a323-4e0c-49c7-91f0-4450e1ec1e51
2007
Starink, M.J.
fe61a323-4e0c-49c7-91f0-4450e1ec1e51
Starink, M.J.
(2007)
Modelling of precipitation hardening in alloys: effective analytical submodels for impingement and coarsening.
Chandra, T., Tsuzaki, K., Militzer, M. and Ravindran, C.
(eds.)
In THERMEC 2006.
Trans Tech Publications Ltd.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
To predict strength evolution of precipitation hardening alloys, a wide range of modelling approaches have been proposed. The most accurate published models are physics-based approaches which use both nanoscale processes with their related constants and parameters, as well as parameters calibrated to one or more macroscale measurements of yield strength of one or more samples. Recent developments in submodels including analytical expressions for volume fraction and size evolution including impingement and coarsening are reviewed. It is also shown that Kampmann-Wagner and JMAK models are generally not consistent with data on the progress of precipitations in the main precipitation hardening Al alloys systems, and improved model formulations are described.
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More information
Published date: 2007
Additional Information:
Series ISSN 0255-5476
Venue - Dates:
THERMEC 2006, 5th International Conference on Processing and Manufacturing of Advanced materials, Vancouver, Canada, 2006-07-04 - 2006-07-08
Keywords:
precipitation, co-clusters, strength, ageing, 6xxx, 2xxx, 7xxx
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 42188
URI: http://eprints.soton.ac.uk/id/eprint/42188
ISBN: 0878494286
ISSN: 0255-5476
PURE UUID: fbd2a617-a4c4-445e-87da-1e9396824b17
Catalogue record
Date deposited: 21 Nov 2006
Last modified: 07 Dec 2023 18:00
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Contributors
Editor:
T. Chandra
Editor:
K. Tsuzaki
Editor:
M. Militzer
Editor:
C. Ravindran
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