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Metallurgical and Materials Transactions A

Erschienen in:

22.03.2016

Texture Development in High-Silicon Iron Sheet Produced by Simple Shear Deformation

verfasst von: Andrew B. Kustas, Dinakar Sagapuram, Kevin P. Trumble, Srinivasan Chandrasekar

Erschienen in: Metallurgical and Materials Transactions A | Ausgabe 6/2016

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Abstract

Sheet processing of high Si-Fe alloys (up to 6.5 wt pct Si) is demonstrated by application of highly confined shear deformation in cutting-extrusion. This alloy system, of major interest to electromagnetic applications, is characterized by poor workability. By a suitable interactive combination of simple shear, high strain rates, near-adiabatic heating, and large hydrostatic pressure in the deformation zone, flow localization, and cracking inherent to this alloy system are suppressed. This enables creation of sheet and foil forms from bulk ingots, cast or wrought, in a single deformation step, unlike rolling. The sheet is characterized by strong shear textures, described by partial {110} and 〈111〉 fibers, and fine-grained microstructures (~20 µm grain size). The orientation (inclination) of these fibers, with respect to the sheet surface, can be varied over a range of 35 deg through selection of the deformation path. In contrast to rolling textures, the current shear deformation textures are negligibly influenced by recrystallization annealing. A recovery-based continuous recrystallization mechanism is proposed to explain the texture retention. Some general implications for shear-based processing of alloys of limited workability are discussed.

Vorheriger Artikel Mechanical and Microstructural Characterization of an Aluminum Bearing Trip Steel

Nächster Artikel Precipitation-Induced Changes in Microstrain and Its Relation with Hardness and Tempering Parameter in 17-4 PH Stainless Steel

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B. A. Zeitlin: in ASM Handbook Volume 14 Forming and Forging, ASM International, Materials Park, OH, 1988, pp. 739–81

M. Efe, W. Moscoso, K. P. Trumble, W. D. Compton, and S. Chandrasekar: Acta Mater., 2012, vol. 60, pp. 2031–42.CrossRef

D. Sagapuram, M. Efe, W. Moscoso, S. Chandrasekar, and K. P. Trumble: Acta Mater., 2013, vol. 61, pp. 6843–56.CrossRef

[4] M. F. Littmann: J. Appl. Phys., 1967, vol. 38, p. 1104–08.CrossRef

[5] C. Chen: Magnetism and Metallurgy of Soft Magnetic Materials, Dover Publications Inc., Mineola, N. Y., 1986, pp. 376–84.

[6] S. Mishra: Acta Mater., 1984, vol. 32, pp. 2185–2201.CrossRef

[7] S. Zaefferer and N. Chen: Solid State Phenom., 2005, vol. 105, pp. 29–36.CrossRef

[8] Y. Shimizu, Y. Ito, and Y. Iida: Metall. Mater. Trans. A, 1986, vol. 17, pp. 1323–34.CrossRef

[9] R. PremKumar, I. Samajdar, N. N. Viswanathan, V. Singal, and V. Seshadri: J. Magn. Magn. Mater., 2003, vol. 264, pp. 75–85.CrossRef

10.

[10] Y. H. Sha, F. Zhang, S. C. Zhou, W. Pei, and L. Zuo: J. Magn. Magn. Mater., 2008, vol. 320, pp. 393–96.CrossRef

11.

[11] C. F. Chang, V. Laxmanan, and S. K. Das: IEEE Trans. Magn., 1984, vol. 20, pp. 553-58.CrossRef

12.

[12] H. Fu, Z. Zhang, Y. Jiang, and J. Xie: Mater. Lett., 2011, vol. 65, pp. 1416–19.CrossRef

13.

[13] Y. Takada, M. Abe, S. Masuda, and J. Inagaki: J. Appl. Phys., 1988, vol. 64, p. 5367–69.CrossRef

14.

[14] G. Tian and X. Bi: J. Alloys Compd., 2010, vol. 502, pp. 1–4.CrossRef

15.

[15] C. Bolfarini, M. C. A. Silva, A. M. Jorge, C. S. Kiminami, and W. J. Botta: J. Magn. Magn. Mater., 2008, vol. 320, pp. 653–56.CrossRef

16.

[16] R. Li, Q. Shen, L. Zhang, and T. Zhang: J. Magn. Magn. Mater., 2004, vol. 281, pp. 135–39.CrossRef

17.

[17] H. Haiji, K. Okada, T. Hiratani, M. Abe, and M. Ninomiya: J. Magn. Magn. Mater., 1996, vol. 160, pp. 109–14.CrossRef

18.

[18] D. Sagapuram, H. Yeung, Y. Guo, A. Mahato, R. M’Saoubi, W. D. Compton, K. P. Trumble, and S. Chandrasekar: CIRP Ann., 2015, vol. 64, pp. 49–52.CrossRef

19.

[19] A. B. Kustas, D. Sagapuram, S. Chandrasekar, and K. P. Trumble: IOP Conf. Ser.: Mater. Sci. Eng., 2015, vol. 82, pp. 1–4.CrossRef

20.

[20] M. G. Cockcroft and D.J. Latham: J. Inst. Metals, 1968, vol. 96, pp. 33–39.

21.

W. A. Backofen: Deformation Processing, Addison-Wesley Publishing Company, Inc., 1972, pp. 242–61.

22.

[22] Y. Guo, M. Efe, W. Moscoso, D. Sagapuram, K. P. Trumble, and S. Chandrasekar: Scr. Mater., 2012, vol. 66, pp. 235–38.CrossRef

23.

[23] M. A. Meyers, G. Subhash, B. K. Kad, and L. Prasad: Mech. Mater., 1994, vol. 17, pp. 175–93.CrossRef

24.

[24] U. Andrade, M. A. Meyers, K. S. Vecchio, and A. H. Chokshi: Acta Mater., 1994, vol. 42, pp. 3183–95.CrossRef

25.

[25] S. Li, I. J. Beyerlein, and M. A. M. Bourke: Mater. Sci. Eng., A, 2005, vol. 394, pp. 66–77.CrossRef

26.

[26] A. Belyakov, T. Sakai, H. Miura, R. Kaibyshev, and K. Tsuzaki: Acta Mater., 2002, vol. 50, pp. 1547–57.CrossRef

27.

[27] Y. H. Jin and M. Y. Huh: Int. J. Mechanochem. Mech. Alloying, 2004, vol. 9, pp. 5311–14.

28.

[28] C. T. Yu, P. L. Sun, P. W. Kao, and C. P. Chang: Mater. Sci. Eng., A, 2004, vol. 366, pp. 310–17.CrossRef

29.

[29] A. Takayama, X. Yang, H. Miura, and T. Sakai: Mater. Sci. Eng., A, 2008, vol. 478, pp. 221–28.CrossRef

30.

[30] H. Jazaeri and F. J. Humphreys: Acta Mater., 2004, vol. 52, pp. 3239–50.CrossRef

31.

[31] H. Jazaeri and F. J. Humphreys: Acta Mater., 2004, vol. 52, pp. 3251–62.CrossRef

32.

[32] F. J. Humphreys: Acta Mater., 1997, vol. 45, pp. 4231–40.CrossRef

33.

[33] B. D. Cullity and C. D. Graham: Introduction to Magnetic Materials, John Wiley & Sons, Inc., Hoboken, N. J., 2011, pp. 440–41.

Titel: Texture Development in High-Silicon Iron Sheet Produced by Simple Shear Deformation
verfasst von: Andrew B. Kustas
Dinakar Sagapuram
Kevin P. Trumble
Srinivasan Chandrasekar
Publikationsdatum: 22.03.2016
Verlag: Springer US
Erschienen in: Metallurgical and Materials Transactions A / Ausgabe 6/2016
Print ISSN: 1073-5623
Elektronische ISSN: 1543-1940
DOI: https://doi.org/10.1007/s11661-016-3437-3

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