Mathematical Analysis of the Solidification Behavior of Plain Steel Based on Solute- and Heat-Transfer Equations in the Liquid–Solid Zone

Fujimura, Toshio; Takeshita, Kunimasa; Suzuki, Ryosuke O.

doi:10.1007/s11663-017-1149-8


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Mathematical Analysis of the Solidification Behavior of Plain Steel Based on Solute- and Heat-Transfer Equations in the Liquid–Solid Zone

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Please use this identifier to cite or link to this item:http://hdl.handle.net/2115/76324

Title:	Mathematical Analysis of the Solidification Behavior of Plain Steel Based on Solute- and Heat-Transfer Equations in the Liquid–Solid Zone
Authors:	Fujimura, Toshio Browse this author
	Takeshita, Kunimasa Browse this author
	Suzuki, Ryosuke O. Browse this author →KAKEN DB
Issue Date:	Apr-2018
Publisher:	Springer
Journal Title:	Metallurgical and Materials Transactions B
Volume:	49
Issue:	2
Start Page:	644
End Page:	657
Publisher DOI:	10.1007/s11663-017-1149-8
Abstract:	An analytical approximate solution to non-linear solute- and heat-transfer equations in the unsteady-state mushy zone of Fe-C plain steel has been obtained, assuming a linear relationship between the solid fraction and the temperature of the mushy zone. The heat transfer equations for both the solid and liquid zone along with the boundary conditions have been linked with the equations to solve the whole equations. The model predictions (e.g., the solidification constants and the effective partition ratio) agree with the generally accepted values and with a separately performed numerical analysis. The solidus temperature predicted by the model is in the intermediate range of the reported formulas. The model and Neuman’s solution are consistent in the low carbon range. A conventional numerical heat analysis (i.e., an equivalent specific heat method using the solidus temperature predicted by the model) is consistent with the model predictions for Fe-C plain steels. The model presented herein simplifies the computations to solve the solute- and heat-transfer simultaneous equations while searching for a solidus temperature as a part of the solution. Thus, this model can reduce the complexity of analyses considering the heat- and solute-transfer phenomena in the mushy zone.
Rights:	This is a post-peer-review, pre-copyedit version of an article published in [Metallurgical and materials transactions B]. The final authenticated version is available online at: http://dx.doi.org/10.1007/s11663-017-1149-8.
Type:	article (author version)
URI:	http://hdl.handle.net/2115/76324
Appears in Collections:	工学院・工学研究院 (Graduate School of Engineering / Faculty of Engineering) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 藤村俊生

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