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Materials Science and Technology Volume 27, 2011 - Issue 10
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Original Article

Calculation for grain growth rate of carbon steels by solute drag model considering segregation effect of each substitutional element

Y YogoToyota Central R&D Labs Inc., 41-1, Yokomichi, Nagakute, Nagakute-cho, Aichi-gun, Aichi-ken480–1192, JapanCorrespondence[email protected]
,
K TanakaToyota Central R&D Labs Inc., 41-1, Yokomichi, Nagakute, Nagakute-cho, Aichi-gun, Aichi-ken480–1192, Japan
,
H IkehataToyota Central R&D Labs Inc., 41-1, Yokomichi, Nagakute, Nagakute-cho, Aichi-gun, Aichi-ken480–1192, Japan
,
N IwataToyota Central R&D Labs Inc., 41-1, Yokomichi, Nagakute, Nagakute-cho, Aichi-gun, Aichi-ken480–1192, Japan
,
K NakanishiToyota Central R&D Labs Inc., 41-1, Yokomichi, Nagakute, Nagakute-cho, Aichi-gun, Aichi-ken480–1192, Japan
&
T IshikawaDepartment of Materials Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya464–8603, Japan
Pages 1593-1698 | Received 08 Sep 2010, Accepted 20 Oct 2010, Published online: 12 Nov 2013
 
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Abstract

Based on the solute drag model, a practical model incorporating the segregation effect is proposed to calculate grain growth rates in carbon steels. The segregation effect is modelled using two factors: the difference in atomic diameter between a solvent and a substitutional element, and the solubility of a substitutional element. By including the segregation energy, the proposed model enables the simulated retardation of grain growth by the addition of microalloying elements. The calculated grain growth rate by the proposed model shows reasonable correspondence between grain growth rates for experimental and calculated results. The temperature dependence of the grain growth rate is also well simulated.

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