Effect of nanostructuring on phase composition and saturation magnetization of invar alloy Fe-36%Ni

R.R. Mulyukov, I.K. Bitkulov, K.A. Bukreeva
Received: 13 April 2011; Accepted: 21 April 2011
This paper is written in Russian
Citation: R.R. Mulyukov, I.K. Bitkulov, K.A. Bukreeva. Effect of nanostructuring on phase composition and saturation magnetization of invar alloy Fe-36%Ni. Letters on Materials, 2011, 1(1) 70-72
BibTex   DOI: 10.22226/2410-3535-2011-1-70-72

Abstract

Invar alloy samples Fe-36%Ni with average grain size of order of 100 nm were produced by a deformation nanostructuring method. X-ray methods of structure analysis of the nanostructured samples were used in order to explain the anomalies in temperature dependence of saturation magnetization observed earlier. The anomalies were explained by bcc phase precipitation during heating of nanostructured samples

References (8)

1.
A.I. Zakharov, Physics of precision alloy with specificthermal properties (Metallurgy, Moscow, 1986), inRissian. 239 p.
2.
A.A. Nazarov, R.R. Mulyukov Nanostructured Materials/ In: Handbook of Nanoscience, Engineering, andTechnology, Ed. Goddard W., Brenner D., Lyshesk S.,Iafrate G. // CRC Press. 2002. – 22-1-22-41.
3.
I. Kh. Bitkulov, A. M. Burkhanov, V. A. Kazantsev, R. R.Mulyukov and Kh. Ya. Mulyukov, et al. The Physics ofMetals and Metallography 102(1), 91 (2006).
4.
R. R. Mulyukov, I. Z. Sharipov, K. A. Bukreeva, I. Kh.Bitkulov. The Physics of Metals and Metallography.109(3), 234 (2010).
5.
O. A. Bannykh, P. B. Budberg, S. P. Alisova, et al.,Phase Diagrams for Binary and Multicomponent Iron-Based Systems, Ed. by O. A. Bannykh and M. E. Drits(Metallurgiya, Moscow, 1986). (in Russian)
6.
Diagrammy sostoyaniya dvoinykh metallicheskikhsystem (Phase Diagrams of Binary Metallic Systems),Lyakishev, N.P., Ed., Moscow: Mashinostroenie, 1997,vol. 2, pp. 104–105.
7.
S. S. Shteinberg, Physical Metallurgy. Vol. 3: Special Steels(ONTI–NKTP–SSSR, Sverdlovsk, 1935). (in Russian)
8.
Kh.Ya.Mulyukov, I.Z. Sharipov, S.S. Absalyamov.Instruments and Experimental Techniques. 41, 433(1998).

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2.
Попович А.А., Разумов Н.Г., Попович Т.А., Никифорова О.В., Новиков П.А., Научно-технические ведомости СПбПУ. Естественные и инженерные науки, 177-182 (2013).
3.
Букреева К.А., Дмитриев С.В., Мулюков Р.Р., Фундаментальные проблемы современного материаловедения 11(2), 210-216 (2014).
4.
Реформатская И.И., Чибышева В.Д., Ащеулова И.И., Подобаев А.Н., Шевченко А.А., Технология легких сплавов, 104-112 (2014).
5.
Мулюков Р.Р., Биткулов И.Х., Шарипов И.З., Письма о материалах 4(1 (13)), 11-14 (2014).
6.
Ivanov V.P., Trukhan S.N., Journal of Structural Chemistry 55(5), 995-999 (2014).