Effect of Diffusion Annealing on Defects Reduction of 6.5wt% High Silicon Steel Composite Plate after Hot Deformation

Shuai Ji; Jing Tao Han; Jing Liu; Xing Wen Yang

doi:10.4028/www.scientific.net/AMR.941-944.338

Paper Titles

Preparation and Characterization of Resin-Derived Carbon Foams Containing Hollow Microspheres
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A Study of Polyurethane Rubber Composite Modified Asphalt Mixture
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Fluorescence Properties of Electrospun Bio-Based Polyamide/Eu(TTA)₃phen Composite Fibers
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Preparation of Poly(m-toluidine)/Montmorillonite Composites and its Thermal Stability
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Effect of Diffusion Annealing on Defects Reduction of 6.5wt% High Silicon Steel Composite Plate after Hot Deformation
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Investigation of Heat Treatment’s Influence on the Preparation of High Silicon Steel Composite Sheet
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Iron Loss Measurement on 6.5wt%Si Composite Plate Prepared by Clad Casting and Conventional Rolling Processes
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Production of 6.5wt%Si Composite Thin Sheet by Cold Rolling Process
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Study on Heating Treatment of 45steel/60Si₂CrA Multi-Layer Composite Armor Plate
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Effect of Diffusion Annealing on Defects Reduction of 6.5wt% High Silicon Steel Composite Plate after Hot Deformation

Abstract:

6.5wt% high silicon electrical sheet is hard to be obtained through conventional different rolling processes due to its remarkable brittleness at room temperature and appearance of ordered phases in the alloy substrates, especially it has very excellent soft magnetic properties. In this study, 6.5wt%Si three-layer composite panels were prepared by advanced technology of laminar composite. The defects, bonding strength, and distribution of elements of the coating and core layers are analyzed by the photographs of metallographic phase and SEM. Experimental results show that the high silicon composite plate could carry out lager plastic deformation on the traditional hot mill after the inner layer which is10%Si ferrosilicon alloy was coated. The defects generated during hot deformation were reduced and uniform distribution of elements were achieved through proper diffusion annealing process. This article provides a short process method to produce 0.3-0.5mm 6.5wt%Si thin sheet.