Journal ArticleDOI
Ferrite nucleation and growth during continuous cooling
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In this article, the authors investigated the austenite decomposition in two hypoeutectoid plain carbon steels under continuous cooling conditions using a dilatometer on a Gleeble 1500 thermomechanical simulator.Abstract:
The austenite decomposition has been investigated in two hypoeutectoid plain carbon steels under continuous cooling conditions using a dilatometer on a Gleeble 1500 thermomechanical simulator. The experimental results were used to verify model calculations based on a fundamental approach for the dilute ternary system, Fe-C-Mn. The austenite-to-ferrite transformation start temperature can be predicted from a nucleation model for slow cooling rates and small austenite grain sizes, where ferrite nucleates at austenite grain corners. The nuclei are assumed to have an equilibrium composition and a pillbox shape in accordance with minimal interfacial energy. For higher cooling rates or larger austenite grain sizes, early growth has to be taken into account to describe the transformation start, and nucleation is also encouraged at the remaining sites of the austenite grain boundaries. In contrast to nucleation, growth of the ferrite is characterized by paraequilibrium;i.e., only carbon can redistribute, whereas the diffusion of Mn is too slow to allow full equilibrium in the ternary system. However, Mn segregation to the moving ferrite-austenite interface has to be considered. The latter, in turn, exerts a solute draglike effect on the boundary movement. Thus, growth kinetics are controlled by carbon diffusion in austenite modified by interfacial segregation of Mn. Employing a phenomenological segregation model, good agreement has been achieved with the measurements.read more
Citations
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Microstructural model for hot strip rolling of high-strength low-alloy steels
TL;DR: In this paper, the microstructural evolution during hot-strip rolling has been investigated in four commercial high-strength low-alloy (HSLA) steels and compared to that of a plain, low-carbon steel.
Journal ArticleDOI
Modeling austenite decomposition into ferrite at different cooling rate in low-carbon steel with cellular automaton method
TL;DR: In this paper, the growth of ferrite grain is controlled by both carbon diffusion and gamma-alpha interface dynamics, and the simulated results show that the final grain size and newly formed ferrite fraction vary with cooling rate.
Journal ArticleDOI
The kinetics of the austenite–ferrite phase transformation of Fe-Mn: differential thermal analysis during cooling
TL;DR: Differential thermal analysis (DTA) has been employed to study the austenite-ferrite phase transformation of Fe-1.89 at% Mn upon cooling as discussed by the authors, and the transformation has been shown to occur in two stages.
Journal ArticleDOI
A phase-field simulation of austenite to ferrite transformation kinetics in low carbon steels
TL;DR: In this paper, a phase field model was developed which can simulate the austenite to ferrite (γ→α) transformation in low carbon steels at large space and time scales and involving multiple ferrite grain growth.
Journal ArticleDOI
Competition between nucleation and early growth of ferrite from austenite-studies using cellular automaton simulations
TL;DR: In this article, a model for the nucleation of ferrite on austenite grain boundaries and the growth of these nuclei along the grain boundary and into the grain, is developed.
References
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Book
The mathematics of diffusion
TL;DR: Though it incorporates much new material, this new edition preserves the general character of the book in providing a collection of solutions of the equations of diffusion and describing how these solutions may be obtained.
Journal ArticleDOI
Kinetics of Phase Change. I General Theory
TL;DR: In this paper, the theory of phase change is developed with the experimentally supported assumptions that the new phase is nucleated by germ nuclei which already exist in the old phase, and whose number can be altered by previous treatment.
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A new kinetic model for anisothermal metallurgical transformations in steels including effect of austenite grain size
Jean-Baptiste Leblond,J. Devaux +1 more
TL;DR: In this paper, a new kinetic model for anisothermal metallurgical transformations, valid for diffusion controlled as well as martensitic transformations, is proposed, which is first described in the case of two phases and a unique transformation, then extended to n phases and several (possibly simultaneous and unsymmetrical) transformations.
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A revised expression for the diffusivity of carbon in binary FeC austenite
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The kinetics of ferrite nucleation at austenite grain boundaries in Fe-C alloys
TL;DR: In this article, the SchwartzJSaltykov size distribution analysis was used to estimate the number of ferrite particles per unit unreacted grain boundary area and the time-dependent nucleation kinetics of grain boundary allotriomorphs as a function of temperature and carbon concentration.