The microstructure and mechanical properties of the welded joint of 25Х15К magnetic alloy and 10880 steel obtained by means of linear friction welding

E.A. Abramova, G.F. Korznikova, A.V. Korznikov, А. Khusnullin, V.V. Nikolaev, R.M. Kashaev show affiliations and emails
Received 20 March 2015; Accepted 15 April 2015;
This paper is written in Russian
Citation: E.A. Abramova, G.F. Korznikova, A.V. Korznikov, А. Khusnullin, V.V. Nikolaev, R.M. Kashaev. The microstructure and mechanical properties of the welded joint of 25Х15К magnetic alloy and 10880 steel obtained by means of linear friction welding. Lett. Mater., 2015, 5(1) 90-93
BibTex   https://doi.org/10.22226/2410-3535-2015-1-90-93

Abstract

The paper reports a promising process of jointing magnetic alloy and electrical steel by means of linear friction welding. Linear friction welding method allows to create a precise connection of magnetic 25Х15К alloy and 10880 steel specimens providing vales of strength σ0,2=880 MPa and plasticity δ = 3 ± 1 % in the joint zone. Friction welding treatment results in formation of a solid connection without the diffusion zone due to short time of welding process. Mechanical testing at room temperature have shown that the compound demonstrates the values of strength and ductility comparable to ones of bulk 25Х15К alloy.

References (16)

1. G. F. Korznikova, A. V. Korznikov. Materials Science and Engineering. A 503, 99-102 (2009).
2. O. A. Ushakova, E. H. Dinislamova, M. V. Gorshenkov, D. G. Zhukov. Journal of Alloys and Compounds. 586, S291 - S293 (2014).
3. G. Korznikova, A. Korznikov, Z. Pakiela, K. J. Kurzydlowski. Materials Chemistry and Physics. 81 (2-3) 401-403 (2003).
4. A. G. Garganeev, D. A. Padalco, A. V. Chervatyuk. Docladu Tomskogo gosudarstvennogo universiteta system upravleniya i radioelectroniki. 32 (2), 308 (2014). (in Russian) [А. Г. Гарганеев, Д. А. Падалко, А. В. Черватюк. Доклады Томского государственного университета систем управления и радиоэлектроники. 32 (2), 308 (2014).].
5. R. M. Kashaev, G. F. Korznikova, A. V. Korznikov. Perspectivnue materialu. 12, 213-217 (2011). (in Russian) [P. М. Кашаев, Г. Ф. Корзникова, А. В. Корзников.Перспективные материалы. 12, 213-217 (2011).].
6. Zubair Ahmad, A. ul Haq, Mi Yan, Zafar Iqbal. Journal of Magnetism and Magnetic Materials. 324, 2355-2359 (2012).
7. G. F. Korznikova, S. Yu. Mironov, E. A. Korznikova. Phisical mesomechanics. 17 (3), 216-222 (2014).
8. A. Korneva, G. Korznikova, K. Berent, A. Korznikov, R. Kashaev, J. Bogucka, K. Sztwiertnia. Journal of Alloys and Compounds. 615, 1 (5), S300-S303 (2014).
9. I. Bhamji, A. C. Addison, P. L. Threadgill. Welding and Joining of Aerospace Materials. Appendix: Linear friction welding in aerospace engineering. 384-415 (2012).
10. Imran Bhamji, Michael Preuss, Philip L. Threadgill, Adrian C. Materials Science & Technology. 27 (1), 2-12 (2011).
11. A. A. Zakirova, M. I. Nagimov, A. M. Husnyllin, R. M. Kashaev. Perspectivnue materialu. 12, 213-217 (2011). (in Russian) [А. А. Закирова, М. И. Нагимов, А. М. Хуснуллин, Р. М. Кашаев. Перспективные материалы. 12, 155-160 (2011).].
12. I. Bhamji, M. Preuss, P. L. Threadgill, R. J. Moat, A. C. Addison, M. J. Peel. Materials Science and Engineering. A 528, 680-690 (2010).
13. G. Madhusudan Reddy, K. Srinivasa Rao. Int. J. Adv. Manuf. Tecnol. 45, 875-888 (2009). DOI 10.1007s / 00170-009-2019-6.
14. R. M. Kashaev, A. M. Husnyllin, V. V. Nikolaev. Gazoturbinnue technologii. 2, 24-29 (2009). (in Russian) [Р. М. Кашаев, А. М. Хуснуллин, В. В. Николаев. Газотурбинные технологии. 2, 24-29 (2009).].
15. V. S. Zolotarevskii. M. MISIS (1998) 399 p. (in Russian) [И. С. Золотаревский. М. МИМИС (1998) 399 с.].
16. V. V. Rybin, I. I. Sidorov, B. A. Greenberg, O. V. Antonova, O. A. Elkina, A. V. Inozemtsev, A. M. Patselov, M. A. Ivanov. The Physics of Metals and Metallography. 108 (4), 353-364 (2009).

Similar papers