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Materials Science and Technology Volume 33, 2017 - Issue 5
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Original Articles

Numerical simulation of the macrostructure evolution of a heavy steel ingot

J. KangSchool of Materials Science and Engineering, Key Laboratory for Advanced Materials Processing Technology, Ministry of Education, Tsinghua University, Beijing100084, ChinaCorrespondence[email protected]
,
C. ZhangSchool of Materials Science and Engineering, Key Laboratory for Advanced Materials Processing Technology, Ministry of Education, Tsinghua University, Beijing100084, China
,
T. WangSchool of Materials Science and Engineering, Key Laboratory for Advanced Materials Processing Technology, Ministry of Education, Tsinghua University, Beijing100084, China
,
S. WangSchool of Materials Science and Engineering, Key Laboratory for Advanced Materials Processing Technology, Ministry of Education, Tsinghua University, Beijing100084, China
,
H. ShenSchool of Materials Science and Engineering, Key Laboratory for Advanced Materials Processing Technology, Ministry of Education, Tsinghua University, Beijing100084, China
&
B. Liu
Pages 574-582 | Received 07 Jul 2016, Accepted 06 Sep 2016, Published online: 26 Sep 2016
 
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Abstract

The macroscopic grain structure of a 234 t steel ingot was simulated by using cellular automaton and finite element method provided by ProCAST. The growing speed coefficient of Kurz–Giovanola–Trivedi model was modified to reflect the growing process of grains. Chilled fine grains, columnar grains and coarse equiaxed grains were obtained from surface to core of the ingot, which were roughly in agreement with the measured ones. The influences of the nucleation and growth parameters were investigated. It was found that the relationship between nucleation and growth determines the macrostructure profile. An index, the ratio of growing speed over the nucleated sites at certain undercooling was proposed to estimate the macrostructure tendency.

Acknowledgement

The research is funded by the National Basic Research Program with No. 2011CB012901.

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