Effect of Cold Rolling Reduction Rate on Secondary Recrystallized Texture in 3%Si-Fe

Takeshi Imamura; Yukihiro Shingaki; Yasuyuki Hayakawa

doi:10.4028/www.scientific.net/MSF.702-703.746

Paper Titles

Effect of Mn on <100> Texture Evolution in Fe-Si-Mn Alloys
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Modeling the Magnetic Properties of Non-Oriented Electrical Steels Based on Microstructural Parameters
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Grrain Orientations and their Influence on Precipitation in Hot Compressed Columnar Grains in Electrical Steel
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Strong Goss Texture in Recrystallized Fe₈₁Ga₁₉ Sheet
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Effect of Cold Rolling Reduction Rate on Secondary Recrystallized Texture in 3%Si-Fe
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Effect of Uni-Axial Tensile Deformation on Microstructure and Magnetic Properties of 3.2% Si Grain Oriented Electrical Steel
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Orientation Evolutions During Hot Rolling of Electrical Steel Containing Initial Columnar Grains
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Texture Evolution during Asymmetrical Warm Rolling and Subsequent Annealing of Electrical Steel
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Through-Thickness Shear Strain in Silicon Steel under Asymmetric Rolling
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HomeMaterials Science ForumMaterials Science Forum Vols. 702-703Effect of Cold Rolling Reduction Rate on Secondary...

Effect of Cold Rolling Reduction Rate on Secondary Recrystallized Texture in 3%Si-Fe

Abstract:

The phenomenon of secondary recrystallization in 3%Si-Fe under relatively high cold rolling reduction rate condition has been investigated. The texture of the secondary recrystallized sample under 97.2% cold rolling reduction rate condition consists of {110} orientation, which is quite different from Goss ({110}) orientation obtained under lower cold rolling reduction rate conditions. As a result of Grain Boundary Character Distribution (GBCD) analysis on primary recrystallized texture, {110} orientation has the highest frequency of High Energy (HE) boundary with misorientation angle between 20° and 45°. This result demonstrates that the orientation, which has the highest frequency of HE boundary in primary recrystallized texture, is selected during secondary recrystallization. However, as a result of GBCD analysis based on Coincidence Site Lattice (CSL) boundary, Goss orientation has the highest frequency of S9 (CSL) boundary in the primary recrystallized texture throughout all cold rolling conditions.