An ultra-low carbon steel is studied and the temperatures at which the austenite to ferrite transformations begin and are complete are determined. The methods of measurements of the temperatures are discussed. The effects of the cooling rate, initial austenite grain size, prestrain, residual strains, static recrystallization, and the mode of deformation on phase transformation temperatures are determined and discussed.

Issue Section:
Technical Papers
Topics:
Carbon steel, Phase transitions, Temperature, Deformation, Grain size, Recrystallization, Cooling, Ferrites (Magnetic materials)
1.
Akselsen
O. M.
, and
Simonsen
T.
,
1987
, “
Techniques for Examining Transformation Behavior in Weld Metal and HAZ—A State of the Art Review
,”
Welding In The World
, Vol.
25
, No.
1/2
, pp.
26
34
.
2.
Beynon
J. H.
, and
Sellars
C. M.
,
1992
, “
Modelling Microstructure and its Effects during Multipass Hot Rolling
,”
ISIJ International
, Vol.
32
(
2
), pp.
359
367
.
3.
Bodin
A.
, and
Marchal
P. D.
,
1994
, “
The Use of Thermal Analysis Techniques for the Validation of Phase Transformation Models
,”
Steel Research
, Vol.
65
, (
3
) pp.
103
109
.
4.
Combres Y., Perrin M. T., and Levaillant C, 1988, “Deformation Behaviour and Structural Evolution of Steels during Warm Working,” THERMEC-88, I. Tamura, ed., pp. 138–145.
5.
Cotterill P., and Mould P. R., 1976B, Recrystallization and Grain Growth in Metal, Surrey University Press, pp. 43–50.
6.
Essadiqi E., and Jonas J. J., 1988A, “Relation Between the γ-to-α Transformation and the Plastic Behaviour of Two-Phase Mixtures in a Plain Carbon and Two HSLA steels,” THERMEC-88, I. Tamura, ed., pp. 404–411.
7.
Essadiqi
E.
, and
Jonas
J. J.
,
1988
B, “
Effect of Deformation on the Austenite-to-Ferrite Transformation in a Plain Carbon and Two Microalloyed Steels
,”
Metall. Trans. A
, Vol.
19A
, pp.
417
426
.
8.
Goodman
S. R.
, and
Hu
H.
,
1970
, “
Effect of Hot-rolling Texture on the Plastic Strain Ratio of Low-Carbon Steels
,”
Metall. Trans. A
, Vol.
1A
, pp.
1629
1640
.
9.
Hanzaki
A. Z.
,
Pandi
R.
,
Hodgson
P. D.
, and
Yue
S.
,
1993
, “
Continuous Cooling Deformation Testing of Steels
,”
Metall. Trans. A.
, Vol.
24A
, pp.
2657
2665
.
10.
Hawbolt
E. B.
,
Chau
B.
, and
Brimacombe
J. K.
,
1983
, “
Kinetics of Austenite-Pearlite Transformation in Eutectoid Carbon Steel
,”
Metall. Trans. A.
, Vol.
14A
, pp.
1803
1815
.
11.
Hawbolt
E. B.
,
Chau
B.
, and
Brimacombe
J. K.
,
1985
, “
Kinetics of Austenite-Ferrite and Austenite-Pearlite Transformation in a 1025 Carbon Steel
,”
Metall. Trans. A.
, Vol.
16A
, pp.
565
577
.
12.
Hwu
Y. J.
,
Pang
P. K. H.
, and
Lenard
J. G.
,
1994
, “
An Application of Artificial Neural Networks to the Prediction of Flow Stress of Steels at Elevated Temperatures
,”
Transactions of North American Manufacturing Research Institute/Society of Mechanical Engineering
, Vol.
XXII
, pp.
34
40
.
13.
Hwu Y. J., 1995, PhD dissertation, University of Waterloo, Waterloo, Ontario,Canada.
14.
Hwu
Y. J.
,
Too
J. J. M.
, and
Lenard
J. G.
,
1996
, “
The Prediction of the Flow Stress of an Extra-Low Carbon Steel in the Two-Phase Region Using Continuous Cooling Curves
,”
ASME JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY
, Vol.
118
, pp.
463
470
.
15.
Laasraoui
A.
, and
Jonas
J. J.
,
1992
, “
Prediction of Temperature Distribution, Flow Stress and Microstructure during the Multipass Hot Rolling of Steel Plate and Strip
,”
ISIJ International
, Vol.
31
(
1
), pp.
95
105
.
16.
Liebault Ch., Gautier E., and Simon A., 1988, “Mechanical Behaviour of a Fe-0.2%C Steel during its Phase Transformation,” THERMEC-88, I. Tamura, ed., pp. 146–153.
17.
Metals Handbook, 1948, ASTM, Metals Park.
18.
Ouchi C., Sampei T., and Kozasu I., 1981, “The Effect of Hot Rolling Conditions and Chemical Compositions on the Onset Temperature of γ → α Transformation after Hot Rolling,” Tetsu-to-Hagane, pp. 143–152 (in Japanese).
19.
Pawelski O., and Kaspar R., 1988, “Physical Simulation of the Thermomechanical Processes in Hot Rolling,” THERMEC-88, I. Tamura, ed., pp. 438–447.
20.
Sakuma T., 1988, “The α — γ Transformation and Carbide Precipitation in Fe-V-C Alloys,” THERMEC-88, I. Tamura, ed., pp. 299–306.
21.
Samuel F. H., Yue S., and Jonas J. J., 1990, “Recrystallization Characteristics of a Ti-Containing Interstitial-Free Steel during Hot Rolling,” Metallurgy of Vacuum-Degassed Steel Products, R. Pradhan, ed., Minerals, Metals and Materials Society, pp. 395–413.
22.
Sun B., Zheng X., Zhu R., and Sun F., 1988, “Effect of Hot Deformation on CCT Curve,” THERMEC-88, I. Tamura, ed., pp. 412–419.
23.
Tajima
M.
,
Maki
T.
, and
Katayama
K.
,
1985
, “
Study on Heat Transfer Phenomena in Quenching of Steel—Effect of Latent Heat of Phase Transformation
,”
JSME International
, Vol.
28
(
242
), pp.
1710
1717
.
24.
Tajima
M.
,
Maki
T.
, and
Katayama
K.
,
1988
, “
Study on Heat Transfer Phenomena in Quenching of Steel
,”
JSME International
, Vol.
31
(
1
), pp.
98
104
.
25.
Tomida
T.
, and
Tanaka
T.
,
1993
, “
Development of {100} Texture in Silicon Steel Sheets by Isothermal Austenite → Ferrite Transformations and Its Mechanism
,”
Tetsu-to-Hagane
, Vol.
79
, pp.
46
51
(in Japanese).
26.
Too J. J. M., 1993, “A Kinetic Formulation for Phase Transformation and Cooling Path Prediction in Hot Rolling,” Modelling of Metal Rolling Processes, The Institute of Materials, pp. 343–349.
27.
Too J. J. M., Liu W. J., and Nelson B., 1993, “Application of Kinetic Models for Phase Transformation, Precipitation and Cooling Path Prediction for Hot Strip Rolling,” Modelling of Metal Rolling Processes, The Institute of Materials, pp. 224–238.
28.
Wray
P. J.
,
1981
, “
Plastic Flow and Failure of Plain Carbon Steels in Ferrite + Austenite Region
,”
Met. Technology
, Vol.
8
(
12
), pp.
460
471
.
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