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Computer Model of Phase Transformation From Hot-Deformed Austenite in Niobium Microalloyed Steels

Based on thermodynamics and kinetics, a new mathematical model was developed to calculate the CCT diagrams and the transformation kinetics in low carbon niobium steels, in which the effect of deformation on the degree of supercooling was taken into account. The undercooling caused by deformation is...

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Published in:	Journal of iron and steel research, international international, 2007-03, Vol.14 (2), p.66-69
Main Authors:	XU, Yun-bo, YU, Yong-mei, LIU, Xiang-hua, WANG, Guo-dong
Format:	Article
Language:	English
Subjects:	computer model continuous cooling transformation low carbon niobium steel supercooling degree thermodynamics 热形变奥氏体相转变计算机模型铌微合金钢
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cited_by	cdi_FETCH-LOGICAL-c401t-263889b49352b905f7755d8c21fc4fad37f34489e6af3c5ecec7c4a1f3ea6f4e3
cites	cdi_FETCH-LOGICAL-c401t-263889b49352b905f7755d8c21fc4fad37f34489e6af3c5ecec7c4a1f3ea6f4e3
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container_title	Journal of iron and steel research, international
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creator	XU, Yun-bo YU, Yong-mei LIU, Xiang-hua WANG, Guo-dong
description	Based on thermodynamics and kinetics, a new mathematical model was developed to calculate the CCT diagrams and the transformation kinetics in low carbon niobium steels, in which the effect of deformation on the degree of supercooling was taken into account. The undercooling caused by deformation is the major reason for the increase of the starting transition temperature during continuous cooling. The critical cooling rate of bainite formation is within 2--5 ℃s for the studied niobium steels and deformation is suitable for the occurrence of pearlite. The ferrite volume fraction increases with the increase of the austenite boundary area, and decreases with the increase of the cooling rate. The calculated CCT diagrams and the volume fraction of each phase are in good agreement with the measurements.
doi_str_mv	10.1016/S1006-706X(07)60030-2
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The undercooling caused by deformation is the major reason for the increase of the starting transition temperature during continuous cooling. The critical cooling rate of bainite formation is within 2--5 ℃s for the studied niobium steels and deformation is suitable for the occurrence of pearlite. The ferrite volume fraction increases with the increase of the austenite boundary area, and decreases with the increase of the cooling rate. The calculated CCT diagrams and the volume fraction of each phase are in good agreement with the measurements.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/S1006-706X(07)60030-2</doi><tpages>4</tpages></addata></record>
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language	eng
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source	ScienceDirect Journals
subjects	computer model continuous cooling transformation low carbon niobium steel supercooling degree thermodynamics 热形变奥氏体相转变计算机模型铌微合金钢
title	Computer Model of Phase Transformation From Hot-Deformed Austenite in Niobium Microalloyed Steels
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