Reversible cold rolling of thin high-silicon steel strip

High silicon steel with Si content of 6.5wt.% is perspective to be applied in magnetic devices at high frequencies. It is very hard to produce Fe-6.5wt%Si alloy thin sheet by conventional hot-cold rolling method because of its embrittlement at room temperature resulted from the formation of intermetallic phases like B2 and D03. In this paper, embrittlement mechanism, rolling processes, and magnetic properties for the cold rolled Fe-6.5wt.% Si alloy sheets are discussed. Our study indicates that thermal mechanical treatments can improve the ductility of the Fe-6.5wt.%Si alloy. The Fe-6.5wt.%Si alloy sheets of 0.05 mm thickness can be successfully obtained after hot-cold rolling and heat treatments. Lamination pieces can be punched directly from the sheets. Tensile strength as high as 1048MPa and elongation over 3% were measured at room temperature.

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Experimental study on the prohibition of edge cracking of high-silicon steel strips during cold rolling

Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture ◽

10.1177/0954405411414794 ◽

2011 ◽

Vol 225 (10) ◽

pp. 1983-1988 ◽

Cited By ~ 4

Author(s):

S-M Byon ◽

Y Lee

Keyword(s):

Experimental Study ◽

Cold Rolling ◽

Silicon Steel ◽

Steel Strips ◽

High Silicon Steel ◽

High Silicon ◽

Edge Cracking

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Effect of Finishing Temperature on Texture Evolution and Magnetic Properties in Heavy Cold Rolled High Silicon Steel Thin Sheets

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.306-307.381 ◽

2011 ◽

Vol 306-307 ◽

pp. 381-384

Author(s):

Jin Long Liu ◽

Yu Hui Sha ◽

Fang Zhang ◽

Yong Chuang Yao ◽

Ji Chao Li ◽

...

Keyword(s):

Magnetic Properties ◽

Cold Rolling ◽

Recrystallization Texture ◽

Texture Evolution ◽

Thin Sheet ◽

Rolling Texture ◽

Silicon Steel ◽

Final Annealing ◽

High Silicon Steel ◽

High Silicon

0.2mm-thick high silicon steel thin sheet under 94% cold rolling reductions has been successfully produced by conventional rolling method. Texture evolution during hot rolling, cold rolling and final annealing as well as magnetic properties has been investigated with emphasis on the effect of finishing temperature. It is found that a favorable strong {001}<210> recrystallization texture and evidently improved magnetic properties can be obtained at the finishing temperature of 900°C, which is in contrast with relatively strong detrimental {111}<112> and weak {001}<210> recrystallization texture at the finishing temperature of 700°C. Effects of finishing temperature can be explained in terms of the cold rolling texture due to different texture morphology in hot bands.

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Numerical Analysis of Edge Cracking in High-Silicon Steel during Cold Rolling with 3D Fracture Locus

Applied Sciences ◽

10.3390/app11188408 ◽

2021 ◽

Vol 11 (18) ◽

pp. 8408

Author(s):

Yong-Hoon Roh ◽

Sang Min Byon ◽

Youngseog Lee

Keyword(s):

Cold Rolling ◽

Work Roll ◽

Silicon Steel ◽

Fracture Locus ◽

Roll Bending ◽

High Silicon Steel ◽

Notch Length ◽

Fracture Tests ◽

High Silicon ◽

Edge Cracking

In this study, a 3D fracture locus of high-silicon steel strip was constructed through a series of fracture tests with specimens of various shapes and corresponding finite element (FE) simulations of the fracture tests. A series of FE analyses coupled with the developed fracture locus was conducted, and the effect of the secondary roll-bending ratio (defined as L2/R2, where L2 and R2, respectively, denote the secondary work roll barrel length and the radius of the convex curvature of the work roll surface profile emulating positive roll bending) and the initial notch length on edge cracking in the strip during cold rolling was investigated. The results reveal that the 2D fracture locus that does not include the Lode angle parameter (varying between −0.81 and 0.72 during cold rolling) overestimates the edge cracking in the range of 13.1–22.2%. The effect of the initial notch length on the length of crack grown in the transverse direction of the strip during cold rolling is greatest when the ratio L2/R2 is 0.12.

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Development on Preparation of Silicon Steel Strip by Near-Net Shape Technology

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.320.336 ◽

2013 ◽

Vol 320 ◽

pp. 336-344 ◽

Cited By ~ 2

Author(s):

Feng Quan Zhang ◽

Zhong Han Luo ◽

Chun Zeng

Keyword(s):

Steel Strip ◽

Rapid Quenching ◽

Silicon Steel ◽

Casting Technology ◽

High Silicon Steel ◽

Quenching Process ◽

Near Net Shape ◽

Thin Silicon ◽

High Silicon

In the paper, development and research on near-net shape technology is mainly introduced, including ultra-rapid quenching process for 6.5%Si high silicon steel strip and casting technology for thin silicon steel strip. The effects on fabrication property of the above products are analyzed and main processes are investigated. Preparation of silicon steel strip by near-net shape technology is prospected, too.

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Atomic scale observations of bainite transformation in a high carbon high silicon steel

Acta Materialia ◽

10.1016/j.actamat.2006.08.033 ◽

2007 ◽

Vol 55 (1) ◽

pp. 381-390 ◽

Cited By ~ 240

Author(s):

F CABALLERO ◽

M MILLER ◽

S BABU ◽

C GARCIAMATEO

Keyword(s):

Silicon Steel ◽

Atomic Scale ◽

High Carbon ◽

Bainite Transformation ◽

High Silicon Steel ◽

High Silicon

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Effect of Austenitizing Temperature on the Bainitic Transformation in a High-Carbon High-Silicon Steel

Metal Science and Heat Treatment ◽

10.1007/s11041-015-9855-9 ◽

2015 ◽

Vol 57 (3-4) ◽

pp. 156-160 ◽

Cited By ~ 1

Author(s):

Lianjie Yuan ◽

Qingsuo Liu ◽

Huijun Li ◽

Bin Gao

Keyword(s):

Silicon Steel ◽

Bainitic Transformation ◽

Austenitizing Temperature ◽

High Carbon ◽

High Silicon Steel ◽

High Silicon

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Crack Formation Mechanism of High Silicon Steel during Twin-Roll Strip Casting

Materials Science Forum ◽

10.4028/www.scientific.net/msf.898.1276 ◽

2017 ◽

Vol 898 ◽

pp. 1276-1282

Author(s):

Wen Li Hu ◽

Yuan Xiang Zhang ◽

Guo Yuan ◽

Guo Dong Wang

Keyword(s):

Formation Mechanism ◽

Crack Formation ◽

Silicon Steel ◽

Strip Casting ◽

Dominant Factor ◽

Transverse Cracks ◽

High Silicon Steel ◽

High Silicon ◽

Gas Gap ◽

Twin Roll

High silicon steel was fabricated by twin-roll strip casting. The cracks on the surfaces of the processed strips were obtained and analyzed by digital camera after series of surface treatment. Optical microscopy (OM) and scanning electron microscopy (SEM) were used to observe and characterize the microstructure nearby crack and fracture surface along the normal direction, respectively, and the crack formation mechanism was further analyzed in conjunction with processing parameters utilized during twin-roll strip casting process. The results indicated that morelongitudinal cracks along the rolling direction were observed in comparison with transverse cracks along the transverse direction on the strip surfaces. Trans granular and intergranular fracture modes both worked during the formations of longitudinal and transverse cracks on the processed strips. The dominant factor causing the formation of crack on the surface of the processed strips was the inhomogeneous transfer of heat during casting and rolling. The inhomogeneous transfer of heat induced by gas gap during casting resulted in variations of dendrite length and secondary dendrite spacing (SDAS). Meanwhile, the casting velocity influenced the formation of gas gap, which further influenced the thermal contraction. So the control of velocity of casting above a certain level proved beneficial to enhancing the performance of strip casting and to improving the quality of strip products.

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