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HomeMaterials Science ForumMaterials Science Forum Vol. 946Peculiarities of Microstructure Changing on Outer...

Peculiarities of Microstructure Changing on Outer Surface of Carbon Steel Wire at Combined Deformational Processing by Drawing with Torsion

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Abstract:

Drawing is the basic operation of wire manufacturing. At drawing a wire contacts with a die resulting in decrease of its diameter. During this interaction wire microstructure changes, especially on the contact area between a die and a wire. Specificity of microstructure changing on outer surface of carbon steel wire at drawing and its combination with torsion is presented in the paper. Using optical microscopy, it was found out that in the outer surface of carbon steel wire a narrow layer of highly deformed grains is formed. It is shown that thickness of this layer depends on the deformational processing intensity and is very specific depending on carbon content of the wire.

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Materials Science and Metallurgical Technology

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Periodical:

Materials Science Forum (Volume 946)

Pages:

242-246

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.946.242

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Online since:

February 2019

Authors:

Alexey Stolyarov*, Olga Nikitenko, Natalya S. Soloveva

Keywords:

Carbon Steel Wire, Combined Deformation, Drawing, Microstructure, Outer Surface, Torsion

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© 2019 Trans Tech Publications Ltd. All Rights Reserved

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[1] B.J. Griffiths, J. Tribol. 109 (1987) 525-530.

[2] B.J. Griffiths, D.C. Furze, J. Tribol. 109 (1987) 338-342.

[3] A. Barbacki, M. Kawalec, A. Hamrol, J Mater Process Technol. 133(1) (2003) 21-26.

[4] Y.K. Chou, C.J. Evans, in: Process effects on white layer formation in hard turning, Transactions of the North American Manufacturing Research Institution of SME, USA, (1998) 117-121.

[5] Y.K. Chou, C.J. Evans, Int J Mach Tools Manuf. 39(12) (1999) 1863-1868.

[6] S. Akcan, W.S. Shah, S.P. Moylan, S. Chandrasekar, P.N. Chhabra, H.T.Y. Yang, Metall Mater Trans A. 33(4) (2002) 1245-1248.

[7] A. Ramesh, S.N. Melkote, L.F. Allard, L. Riester, T.R. Watkins, Mater Sci Eng. 390(1) (2005) 88-93.

[8] A. Attanasio, D. Umbrello, C. Cappellini, G. Rotella, R. M'Saoubi, Wear. 286 (2012) 98-104.

[9] C. Cappellini, A. Attanasio, G. Rotella, D. Umbrello, Int J Mater Form. 3(1) (2010) 455-459.

[10] C. Duan, W. Kong, Q. Hao, F. Zhou, Int. J. Adv. Manuf. Technol. 69(1-4) (2013) 59-70.

[11] S. Han, S.N. Melkote, M.S. Haluska, T.R. Watkins, Mater Sci Eng A. 488(1) (2008) 195-102.

[12] Y.B. Guo, A.W. Warren AW, F. Hashimoto, J Manuf Sci Technol. 2(2) (2010) 129-136.

[13] Y. Miyazaki, Y. Arai, K. Nagashima, H. Itozaki, Mater Sci Forum. 721 (2012) 225-229.

[14] I.S. Harrison, Detecting white layer in hard turned components using non-destructive method, Dissertation, Georgia Institute of Technology, (2005).

[15] S. Alexandrov, L. Šidjanin, D. Viloti´c, D. Movrin, Metals. 8(71) (2018) 1-6.

[16] S.E. Alexandrov, R.V. Goldstein, Dokl. Phys. 60 (2015) 39-44.

[17] R.V. Goldstein, S.E. Alexandrov, Phys. Mesomech. 18 (2015) 223-225.

[18] K. Hosoda, M. Asakawa, S. Kajino, Y. Maeda, Wire Journal International, 11 (2008) 68-75.

[19] S.K. Hwang, H.M. Back, H.S. Joo, Y.-T. Im, Met. Mater. Int. 21(2) (2015) 391-396.

[20] M. Chukin, M. Polyakova, E. Golubchik, V. Rudakov, S. Noskov and A. Gulin, R.U. Patent 2, 467, 816 (2012).

[21] M. Polyakova, M. Chukin, E. Golubchik and A. Gulin, R.U. Patent 130,525. (2013).