Diffusion-controlled peritectic reaction process in carbon steel analyzed by quantitative phase-field simulation

The peritectic reaction process in carbon steel, L + δ → γ, has been analyzed by a quantitative phase-field simulation. The calculated moving velocities of the γ–L and γ–δ planar interfaces in the isothermal peritectic transformation precisely agree with the corresponding experimental data, which st...

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Veröffentlicht in:	Acta materialia 2010-10, Vol.58 (18), p.6134-6141
Hauptverfasser:	Ohno, Munekazu, Matsuura, Kiyotaka
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Carbon Carbon steels Computer simulation Diffusion Exact sciences and technology Mathematical analysis Mathematical models Metals. Metallurgy Peritectic reactions Peritectic solidification Phase-field models Simulation Steels Transformations
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creator	Ohno, Munekazu Matsuura, Kiyotaka
description	The peritectic reaction process in carbon steel, L + δ → γ, has been analyzed by a quantitative phase-field simulation. The calculated moving velocities of the γ–L and γ–δ planar interfaces in the isothermal peritectic transformation precisely agree with the corresponding experimental data, which strongly supports the accuracy of the present simulation. The diffusion-controlled peritectic reaction rate and the growth velocity of the γ phase along the δ–L interface obtained by the present simulation were fairly consistent with the experimentally measured values. This indicates that recent experimental findings can be explained by a diffusion-controlled mechanism. This is in marked contrast to the claims made on the basis of the experimental data and an analytical model that the peritectic reaction is not controlled by the diffusion of carbon.
doi_str_mv	10.1016/j.actamat.2010.07.031
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The calculated moving velocities of the γ–L and γ–δ planar interfaces in the isothermal peritectic transformation precisely agree with the corresponding experimental data, which strongly supports the accuracy of the present simulation. The diffusion-controlled peritectic reaction rate and the growth velocity of the γ phase along the δ–L interface obtained by the present simulation were fairly consistent with the experimentally measured values. This indicates that recent experimental findings can be explained by a diffusion-controlled mechanism. 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The calculated moving velocities of the γ–L and γ–δ planar interfaces in the isothermal peritectic transformation precisely agree with the corresponding experimental data, which strongly supports the accuracy of the present simulation. The diffusion-controlled peritectic reaction rate and the growth velocity of the γ phase along the δ–L interface obtained by the present simulation were fairly consistent with the experimentally measured values. This indicates that recent experimental findings can be explained by a diffusion-controlled mechanism. This is in marked contrast to the claims made on the basis of the experimental data and an analytical model that the peritectic reaction is not controlled by the diffusion of carbon.</description><subject>Applied sciences</subject><subject>Carbon</subject><subject>Carbon steels</subject><subject>Computer simulation</subject><subject>Diffusion</subject><subject>Exact sciences and technology</subject><subject>Mathematical analysis</subject><subject>Mathematical models</subject><subject>Metals. 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subjects	Applied sciences Carbon Carbon steels Computer simulation Diffusion Exact sciences and technology Mathematical analysis Mathematical models Metals. Metallurgy Peritectic reactions Peritectic solidification Phase-field models Simulation Steels Transformations
title	Diffusion-controlled peritectic reaction process in carbon steel analyzed by quantitative phase-field simulation
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