Proceedings of the 3rd Annual International Conference on Advanced Material Engineering (AME 2017)

The Phase Field Method to Simulate the Evolution of Two Phase

Authors
Bo-Si Li, Yan-Hui Hou, Bao-Shu Qian, Liang Min, Yang Liu
Corresponding Author
Bo-Si Li
Available Online April 2017.
DOI
10.2991/ame-17.2017.11How to use a DOI?
Keywords
Second phase particles, Two phase growth, Phase field model.
Abstract

A phase field model which contains two phase grain growth in binary alloys was used to study the effect of the same or different initial grain fraction and the different diffusion coefficients on the two-phase grain structure evolution. The results show that the low volume fraction of grain, coarsening power is only controlled by the Ostwald coarsening and through distance interval of grain. The coarsening of the second phase particles in the dominant phase is affected by the number of grain boundaries, grain boundaries will be pinned by the grain, which is affected by the area fraction of the grain. When the diffusion coefficient is large, the diffusion rate is fast, and the grain boundary mobility rate is large.

Copyright
© 2017, the Authors. Published by Atlantis Press.
Open Access
This is an open access article distributed under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).

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Volume Title
Proceedings of the 3rd Annual International Conference on Advanced Material Engineering (AME 2017)
Series
Advances in Engineering Research
Publication Date
April 2017
ISBN
978-94-6252-336-4
ISSN
2352-5401
DOI
10.2991/ame-17.2017.11How to use a DOI?
Copyright
© 2017, the Authors. Published by Atlantis Press.
Open Access
This is an open access article distributed under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).

Cite this article

TY  - CONF
AU  - Bo-Si Li
AU  - Yan-Hui Hou
AU  - Bao-Shu Qian
AU  - Liang Min
AU  - Yang Liu
PY  - 2017/04
DA  - 2017/04
TI  - The Phase Field Method to Simulate the Evolution of Two Phase
BT  - Proceedings of the 3rd Annual International Conference on Advanced Material Engineering (AME 2017)
PB  - Atlantis Press
SP  - 62
EP  - 66
SN  - 2352-5401
UR  - https://doi.org/10.2991/ame-17.2017.11
DO  - 10.2991/ame-17.2017.11
ID  - Li2017/04
ER  -