On Goss Orientation in Strip Cast Grain‐Oriented Silicon Steel

Abstract: In this study, the origin of Goss texture during intermediate annealing and Goss texture development during secondary annealing of strip cast grainoriented silicon steel are studied by electron backscattered diffraction (EBSD). The study indicates that Goss grains originate inside the shear bands of deformed {111}<112> and {111}<110> grains. Compared to {111}<110> grains, {111}<112> grains provide more number of nucleation sites for Goss grains. During subsequent recrystallization process, Goss grains exhibit … Show more

“…In the case of high stored energy, the {111} <110> and {111} <112> deformation grains are prone to the recrystallization along the path for rotation due to the interaction of {111} <uvw> grains. Concretely speaking, the recrystallization grains with the {111} <112> orientation will form nucleus and grow in the deformation matrix containing {111} <110> and {112} <110> orientations. Accompanied with an increase in warm rolling reduction, the metastable {110} <001> orientation will be gradually transformed into more stable γ‐orientation texture ({111} <110> and {111} <112> components) and α‐orientation texture({223}<110> component), further increasing the opportunities for a large fraction of CSL boundaries.…”

Effects of Coincident Site Lattice Grain Boundaries and Ordered Structures on Mechanical Properties of High Silicon Steel

“…In the case of high stored energy, the {111} <110> and {111} <112> deformation grains are prone to the recrystallization along the path for rotation due to the interaction of {111} <uvw> grains. Concretely speaking, the recrystallization grains with the {111} <112> orientation will form nucleus and grow in the deformation matrix containing {111} <110> and {112} <110> orientations. Accompanied with an increase in warm rolling reduction, the metastable {110} <001> orientation will be gradually transformed into more stable γ‐orientation texture ({111} <110> and {111} <112> components) and α‐orientation texture({223}<110> component), further increasing the opportunities for a large fraction of CSL boundaries.…”

Effects of Coincident Site Lattice Grain Boundaries and Ordered Structures on Mechanical Properties of High Silicon Steel

A quasi in-situ EBSD study of the nucleation and growth of Goss grains during primary and secondary recrystallization of a strip-cast Fe-6.5 wt% Si alloy

Texture transition of shear bands in initially Goss–oriented grains in Fe–3 wt%Si alloy