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New information on texture development in regular and high-permeability grain-oriented silicon steels

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Abstract

The formation of the Goss texture in Fe-3 Pct Si has been studied using crystallite orientation distribution function (ODF) analysis. Textural and microstructural changes through various stages of processing have been investigated for silicon steel with MnS (regular) as well as for steel with a combination of MnS and A1N (high permeability) as grain-growth inhibitor. In both cases the genesis of the final sharp cube-on-edge texture seems to lie in the grains already present in the Goss position in the surface layers of the hot-rolled strip. The major difference in the mechanism of Goss texture formation in the two types of steels is with respect to the relationship between the strengths of the {011}〈100〉 and {111}〈112〉 components through successive processing operations.

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Author information

Authors and Affiliations

  1. Product Development, R & D Centre for Iron and Steel (SAIL), 834002, Ranchi, India

    Sanak Mishra (Research Manager and Head)

  2. A.G., Hoesch Stahl, Doytmund 1, Post fach 902, 4600, Federal Republic of Germany

    C. Därmann

  3. Institut für Allgemeine Metallkunde und Metallphysik, Kopernikus Strasse 14, 5100, Aachen, Federal Republic of Germany

    K. Lücke (Director)

Authors
  1. Sanak Mishra
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  2. C. Därmann
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  3. K. Lücke
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Additional information

C. Därmann, formerly with Institut für Allgemeine Metallkunde und Metallphysik, RWTH Aachen

This paper is based on a presentation made at the symposium “Physical Metallurgy of Electrical Steels” held at the 1985 annual AIME meeting in New York on February 24–28, 1985, under the auspices of the TMS Ferrous Metallurgy Committee.

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Mishra, S., Därmann, C. & Lücke, K. New information on texture development in regular and high-permeability grain-oriented silicon steels. Metall Trans A 17, 1301–1312 (1986). https://doi.org/10.1007/BF02650111

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