Abstract
A cellular automaton algorithm for curvature-driven coarsening is applied to a cold-rolled interstitial-free steel’s microstructure - obtained through electron backscatter diffraction (EBSD). Recrystallization nucleation occurs naturally during the simulation, due to the highly heterogeneous and hence competitive growth among pre-existing (sub) grains. The spatial inhomogeneity of the subgrain growth that takes place derives from the large local variations of subgrain sizes and misorientations that comprise the prior deformed state. The results show that capillary-driven selective growth takes place to the extent that the prior elongated and deformed grains are replaced by equiaxed grains with no interior small-angle boundaries. Additionally, during the simulation certain texture components intensify and others vanish, which indicates that preferential growth occurs in a fashion that relates to the crystal orientations’ topology. The study of the early stages of recrystallization (i.e. nucleation) shows that the pre-existing subgrains that eventually recrystallize, exhibit certain topological characteristics at the prior deformed state. Successful nucleation occurs mostly for pre-existing matrix subgrains abutting shear bands or narrow deformation bands and particularly at regions where the latter intersect.
Highlights
The results show that capillary-driven selective growth takes place to the extent that the prior elongated and deformed grains are replaced by equiaxed grains with no interior small-angle boundaries
Recrystallization has been extensively studied in low carbon (LC) and interstitial-free (IF) steels [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18]
The following remarks can be deduced from the recrystallization simulations:
Summary
Recrystallization has been extensively studied in low carbon (LC) and interstitial-free (IF) steels [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18]. The origin of recrystallization nuclei in such metals has been well-explained by the subgrain formation and growth mechanism [29,30,31,32,33,34,35,36], the early stages of recrystallization comprise a still unresolved matter [6]. This is because there are many interacting boundaries and microstructural features (e.g. shear bands and grain boundaries) and numerous concurring mechanisms related to the onset of recrystallization [5,31]. We used a close coupling to the inherited micro structure and thereby investigated the topological characteristics that facilitate recrystallization initiation and growth
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