The structure and texture of strip plate from anisotropic electrical steel after hot rolling are studied as a function of the content of carbon in the metal. The study is performed with the help of orientation microscopy based on diffraction of back-scattered electrons (EBSD).
Similar content being viewed by others
Notes
The work has been performed on the equipment of the laboratory for structural methods of analysis and properties of materials and nanomaterials of the Collective Use Center of the Ural Federal University.
References
N. Morito, M. Komatsubara, and Y. Shimizu, “History and recent development of grain oriented electrical steel at Kawasaki Steel,” Kawasaki Steel Tech. Rep., No. 39, Oct., 3 – 12 (1998).
Y. Ushigami, M. Mizokami, M. Fujikura, et al., “Recent development of low-loss grain-oriented silicon steel,” J. Magn. Magn. Mater., 254 – 255(20), 307 – 314 (2003).
K. Günther, G. Abbruzzese, S. Fortunati, and G. Ligi, “Recent technology developments in the production of grain-oriented electrical steel,” Steel Res. Int., 76(6), 413 – 421 (2005).
Z. Xia, Y. Kang, and Q.Wang, “Developments in the production of grain-oriented electrical steel,” J. Magn. Magn. Mater., 254 – 255, 307 – 314 (2008).
M. L. Lobanov, G. M. Rusakov, and A. A. Redikul’tsev, “Electrical anisotropic steel. Part I. History of development,” Metalloved. Term. Obrab. Met., No. 7, 18 – 25 (2011).
M. L. Lobanov, G. M. Rusakov, and A. A. Redikul’tsev, “Electrical anisotropic steel. Part II. State-of-the-art.” Metalloved. Term. Obrab. Met., No. 8, 3 – 7 (2011).
V. Ya. Goldshtein, S. V. Pashchenko, S. N. Grazhdankin, et al., “Structure formation in hot rolling of alloy Fe – 3% Si,” Fiz. Met. Metalloved., 50(6), 1213 – 1217 (1980).
Y. Shimizu, Y. Ito, and Y. Iida, “Formation of the Goss orientation near the surface of 3 pct silicon steel during rolling,” Metall. Trans. A, 17A(8), 1323 – 1334 (1986).
M. C. Leslie, R. L. Rickett, and C. P. Stroble, “The microstructure of low-carbon 3.25% silicon steel,” Trans. ASM, 53, 715 – 734 (1961).
L. A. Petrova (ed.), Phase Diagrams of Metallic Systems [in Russian], Izd. VINITI, Moscow (1989), Vol. XXXIII, Pt. II, pp. 402 – 410.
M. M. Shteinberg, “Mechanical properties of complexly-alloyed ferrite,” in: Heat Treatment of Metals. Mater. Conf. on Metal Science and Heat Treatment of Metals [in Russian], MASHGIZ, Moscow (1950), pp. 212 – 224.
I. L. Yakovleva, D. A. Mirzaev, V. M. Schastlivtsev, et al., “Kinetics of formation of ferrite in low-carbon alloys Fe – 9% Cr,” Metalloved. Term. Obrab. Met., No. 9, 6 – 10 (2000).
M. Matsuo, T. Sakai, and Y. Suga, “Origin and development of through-the-thickness variations of texture in the processing of grain-oriented steel,” Metall. Trans., 17A, August, 1313 – 1322 (1986).
Ya. D. Vishnyakov and A. A. Babareko, The Theory of Formation of Textures in Metals and Alloys [in Russian], Nauka, Moscow (1979), 343 p.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 12, pp. 12 – 15, December, 2014.
Rights and permissions
About this article
Cite this article
Lobanov, M.L., Redikul’tsev, A.A., Rusakov, G.M. et al. Effect of Carbon on Texture Formation in Electrical Steel Fe – 3% Si Under Hot Rolling. Met Sci Heat Treat 56, 646–649 (2015). https://doi.org/10.1007/s11041-015-9815-4
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11041-015-9815-4