Special texture evolution behavior of strip-cast non-oriented electrical steel combined with in-situ experiment and CPFEM

The impact of shear deformation on texture evolution in strip-cast Fe-1.5%Si non-oriented electrical steel was studied combined with in-suit experiments and crystal plasticity finite element method (CPFEM). Throughout the deformation process, the texture evolution predominantly follows a traditional...

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Bibliographic Details
Published in:Journal of materials research and technology 2024-05, Vol.30, p.2738-2753
Main Authors: Wang, Jiale, Sun, Chao, Wang, Junjie, Fang, Feng, Zhang, Yuanxiang, Wang, Yang, Cao, Guangming, Zhang, Xiaoming, Yuan, Guo, Wang, Guodong
Format: Article
Language:English
Subjects:
Crystal plasticity finite element
In-situ experiments
Non-oriented electrical steel
Recrystallization texture
Shear deformation
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Summary:The impact of shear deformation on texture evolution in strip-cast Fe-1.5%Si non-oriented electrical steel was studied combined with in-suit experiments and crystal plasticity finite element method (CPFEM). Throughout the deformation process, the texture evolution predominantly follows a traditional route: transitioning from {211} and {411} to {111} orientation. In certain regions with specific stress conditions, orientation evolution shifts from {310} to {411} , {100} , and finally to {100} orientation. Crystal plasticity finite element (CPFE) simulation results show that the rotation of {310} through {411} to {100} orientation, {211} and {112} orientations transition to {111} and {110} orientations, respectively, which is consistent with the experimental observations. Recrystallization texture mainly includes favorable λ and near-λ ( ∥ND, normal direction) textures, with detrimental γ ( ∥ND) texture essentially diminishing. In-situ heating experiments revealed {411} as the primary recrystallization orientation, the mechanism involves both oriented nucleation and growth. In the edge region lacking stress constraints, the Schmid factor (SF) reaches up to 0.48, the (21-3)[111] slip system is preferentially activated, with shear bands appearing earlier in the same region. Indicating that when slip mechanism alone are inadequate for sustaining plastic deformation, the shear deformation becomes the favored mode of activation. {411} orientation can serve as a transitional orientation for transitioning to {100} orientation, and further as an advantageous transitional orientation during the nucleation and growth of recrystallization. Due to the texture improvement, superior magnetic properties were achieved, with the average magnetic induction (B50) and iron loss (P1.5/50) being 1.77 T and 4.25 W/kg, respectively.
ISSN:2238-7854
DOI:10.1016/j.jmrt.2024.04.029