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Casting
ASM Handbook
Casting
Edited by
Srinath Viswanathan
Srinath Viswanathan
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Diran Apelian
Diran Apelian
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Raymond J. Donahue
Raymond J. Donahue
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Babu DasGupta
Babu DasGupta
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Michael Gywn
Michael Gywn
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John L. Jorstad
John L. Jorstad
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Raymond W. Monroe
Raymond W. Monroe
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Mahi Sahoo
Mahi Sahoo
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Thomas E. Prucha
Thomas E. Prucha
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Daniel Twarog
Daniel Twarog
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ASM International
Volume
15
DOI:
https://doi.org/10.31399/asm.hb.v15.9781627081870
ISBN electronic:
978-1-62708-187-0
Publication date:
2008
Book Chapter

Direct Modeling of Structure Formation

By
Ch.-A. Gandin
Ch.-A. Gandin
Ecole Nationale Superieure des Mines de Paris
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;
I. Steinbach
I. Steinbach
Ruhr-University Bochum
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Doi:
https://doi.org/10.31399/asm.hb.v15.a0005236
  • Published:
    2008
Page range:
435 - 444
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Abstract

Modeling of structure formation in casting of alloys involves several length scales, ranging from the atomic level to macroscopic scale. Intermediate length scales are used to define the microstructure of the growing phases and the grain structure. This article discusses the principles and applications of the phase field method and the cellular automaton method for modeling the direct evolution of structure at the intermediate length scales, where transport phenomena govern the spatial and temporal evolution of the structure that involves nucleation and growth.

Topics
Microsegregation, Grain structure, Microstructure, Casting, Microstructure modeling, Phase-field microstructure modeling, Process modeling and simulation, Grain growth, Nucleation
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Citation

Ch.-A. Gandin, I. Steinbach, Direct Modeling of Structure Formation, Casting, Vol 15, ASM Handbook, Edited By Srinath Viswanathan, Diran Apelian, Raymond J. Donahue, Babu DasGupta, Michael Gywn, John L. Jorstad, Raymond W. Monroe, Mahi Sahoo, Thomas E. Prucha, Daniel Twarog, ASM International, 2008, p 435–444, https://doi.org/10.31399/asm.hb.v15.a0005236

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