Effect of Deformation in Controlled Rolling on Ferrite Nucleation

Nucleation of ferrite either at austenite grain boundaries or within them on deformation defects has been examined experimentally and analyzed on the basis of the theory of heterogeneous nucleation. Low-carbon low-alloy steels were deformed by controlled rolling schedules to a total reduction of 50...

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Bibliographic Details
Published in:Canadian metallurgical quarterly 2001, Vol.40 (2), p.221-234
Main Authors: Khlestov, V.M., Konopleva, E.V., McQueen, H.J.
Format: Article
Language:English
Subjects:
Applied sciences
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials science
Metals. Metallurgy
Other heat and thermomechanical treatments
Physics
Treatment of materials and its effects on microstructure and properties
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Summary:Nucleation of ferrite either at austenite grain boundaries or within them on deformation defects has been examined experimentally and analyzed on the basis of the theory of heterogeneous nucleation. Low-carbon low-alloy steels were deformed by controlled rolling schedules to a total reduction of 50 or 68% in finish rolling at 730-800 °C. Deformation accelerates the kinetics of the γ→∞ transformation and strongly activates ferrite nucleation at grain boundaries. Both experimental and theoretical estimations showed that the rate of intragranular nucleation is much less compared to nucleation at grain boundaries. Intragranular nuclei develop notably only in the final stages of transformation in deformed austenite and affect the formation of structure only in the small separated areas. On a examiné expérimentalement et analysé la nucléation de la ferrite, soit aux joints de grain de l'faustenite, ou à l'finterieur de ceux-ci, aux défauts de déformation, en se basant sur la théorie de la nucléation hétérogéne. On a déformé des aciers peu alliés à faible carbone, en suivant des plans de laminage contrôlé, jusqu'fa une réduction totale de 50 ou 68% pour le laminage final a 800-730 °C. La déformation accélère la cinétique de transformation de γ→α et active fortement la nucleation de la ferrite aux joints de grains. Tant les évaluations expérimentales que theoriques ont montré que le taux de nucléation intragranulaire était beaucoup moins élevé en comparaison avec la nucleation aux joints de grain. Les noyaux intragranulaires se développent particuliérement seulement lors des étapes finales de transformation de l'faustenite déformée et affectent la formation de la structure seulement dans de petites zones séparées.
ISSN:0008-4433
1879-1395
DOI:10.1179/000844301794388425