The kinetics of austenite formation in a new type of copper-bearing steel with initial microstructure composed of ferrite and bainite was investigated by using dilatometric analysis and measurement during continuous heating. The formation of austenite was observed to occur in two stages. The first stage is the dissolution of ferrite and most bainite, followed by the second stage of dissolution of bainite and formation of austenite. The first stage takes place through diffusion and the second stage through shear. The critical temperature of austenite formation during continuous heating increases with increasing heating rates, which therefore exerts a greater influence on the A_s1 temperature of the austenite formation. Kinetics calculation shows that the process is mainly controlled by diffusion when the heating rate is over 1℃/s.
参考文献
| [1] | W. Zhang;J. W. Elmer;T. DebRoy .Kinetics of ferrite to austenite transformation during welding of 1005 steel[J].Scripta materialia,2002(10):753-757. |
| [2] | Katsamas AI .A computational study of austenite formation kinetics in rapidly heated steels[J].Surface & Coatings Technology,2007(14):6414-6422. |
| [3] | F.L.G. Oliveira;M.S. Andrade;A.B. Cota .Kinetics of austenite formation during continuous heating in a low carbon steel[J].Materials Characterization,2007(3):256-261. |
| [4] | Reed RC.;Shen Z.;Robinson JM.;Root JH.;Akbay T. .Determination of reaustenitisation kinetics in a Fe-0.4C steel using dilatometry and neutron diffraction[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,1998(1/2):152-165. |
| [5] | C. Garcia de Andres;F.G. Caballero;C. Capdevila .Application of dilatometric analysis to the study of solid-solid phase transformations in steels[J].Materials Characterization,2002(1):101-111. |
| [6] | C. Garcia de Andres;F. G. Caballero;C. Capdevila .Dilatometric characterization of pearlite dissolution in 0.1C-0.5Mn low carbon low manganese steel[J].Scripta materialia,1998(12):1835-1842. |
| [7] | Akbay T;Reed R C;Atkinson C .Modelling Reaustenitisation From Ferrite/Cementite Mixtures in Fe-C Steels[J].Acta Metallurgica Et Materialia,1994,42(04):1469. |
| [8] | C. Garcia de Andres;F. G. Caballero;C. Capdevila;H. K. D. H. Bhadeshia .Modelling of kinetics and dilatometric behavior of non-isothermal pearlite-to-austenite transformation in an eutectoid steel[J].Scripta materialia,1998(6):791-796. |
| [9] | Reed R C;Akbay T;Garcia de Andres C .Modelling of Knetics of Austenite Formation in Steels With Different Initial Microstructures[J].ISIJ International,2001,41:1093. |
| [10] | J. Farjas;P. Roura .Modification of the Kolmogorov-Johnson-Mehl-Avrami rate equation for non-isothermal experiments and its analytical solution[J].Acta materialia,2006(20):5573-5579. |
| [11] | Liu F;Liu X N;Wang Q .Examination of Kissinger s Equation for Solid-State Transformation[J].Journal of Alloys and Compounds,2009,473(1/2):152. |
| [12] | Kissinger H E.Reaction Kinetics and Differential Thermal Analysis[J].Analytical Chemistry,1957(29):1702. |
| [13] | Avrami M .Kinetic of Phase Change Ⅱ:Transformation-Time Relations for Random Distribution of Nulei[J].Journal of Chemical Physics,1940,8:212. |
| [14] | Kapoor R;Kumar Lalit;Batra I S .A Dilatometric Study of the Continuous Heating Transformations in 18wt% Ni Maraging Steel of Grade 350[J].Materials Science and Engineering,2003,352A(1/2):318. |
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