USE OF NUCLEAR PHYSICS METHODS FOR INVESTIGATION OF SHORT-RANGE ORDERING AND DEFECTS IN IRON BASED SIMULATUING ALLOYS

AIexander L Udovsky; Irene A. Evstukhina; Vladimir P. Kolotushkin; Victor Yu. Miloserdin V; Sergue G. Rudakov; Sergue V. Stepanov; Marina V. Cherkaschenko; Yury V. Funtikov

USE OF NUCLEAR PHYSICS METHODS FOR INVESTIGATION OF SHORT-RANGE ORDERING AND DEFECTS IN IRON BASED SIMULATUING ALLOYS

AIexander L Udovsky Baikov Institute of Metallurgy and Materials Science of RAS
Irene A. Evstukhina Nationalresearch nuclear university “MEPhI”(Moscow Engineering Physics Institute, associated professor
Vladimir P. Kolotushkin State Scientific Center - OAS "VNIINM", Head specialist
Victor Yu. Miloserdin V National research nuclear university “MEPhI”(Moscow Engineering Physics Institute, associated professor
Sergue G. Rudakov National research nuclear university “MEPhI”(Moscow Engineering Physics Institute, leading specialist
Sergue V. Stepanov Federal State Budget - Enterprise - Institute of Theoretical and Experimental physics named by A.I. Alikhanov, leading scientific employee
Marina V. Cherkaschenko National research nuclear university “MEPhI”(Moscow Engineering Physics Institute, leading engineer
Yury V. Funtikov Federal State Budget - Enterprise - Institute of Theoretical and Experimental physics named by A.I. Alikhanov, leading engineer

Abstract

Changes of short range ordering and electron density were investigated by nuclear gamma-resonance and positron annihilation methods in simulating alloys containing tungsten, chromium, molybdenum and vanadium, used as doping additions. Change of the short-range ordering parameter sign was detected in alloys containing vanadium as the doping element. Conditions for defects annealing were determined for Fe-9%Cr alloy.

Author Biographies

AIexander L Udovsky, Baikov Institute of Metallurgy and Materials Science of RAS

The Laboratory of constructional steels and alloys,

Professor

Sergue V. Stepanov, Federal State Budget - Enterprise - Institute of Theoretical and Experimental physics named by A.I. Alikhanov, leading scientific employee

References

V.P. Kolotushkin, A.A. Parfenov, On the new approach to the cre-ation of structural materials of nuclear reactors. Vestnik MEPhI,. 1, (1) (2012) 65-69 (in Russian).

V.P. Kolotushkin, A.A. Parfenov, Russian Metally, 2, (2) (2010) 1-13 (in Russian).

G. Wertheim. Mössbauer Effect. Principles and application. - M . Mir, 1966

N.V. Boyko, I.A. Evstyuhina, V.P. Kolotushkin et al., Nuclear In-formation Measuring Technologies, (3) (2013) 88-98

I. Vincze, A. Campbell, J. Phys. F: Met. Phys. 3. (1973) 647-663.

J. M Cowley, Physical Review. 77. (1950) 669.

R. Idczak, Applied Physics A 122 (2016) 1009-1018.

R. Idczak, R. Konieczny, J. Chojcan, J. Appl. Phys. 115 (2014) 103513-10519

I. Mirebeau, M. Hennion, G. Parette, Phys. Rev. Lett., , 53 (7). (1984) 687-690.

A.L. Udovsky, V.I. Grafutin, I.A. Evstukhina et al. J. of Mining and Metallurgy, 53B, (3) (2017) 599-603

E.V. Voronina, A.V. Pyataev, Mossbauer spectroscopy, Text-book, Kazan University, 2013, 168 (in Russian).

V. Slugen “What kind of information we can obtain from positron annihilation spectroscopy?” European Commission EUR 22468 EN – DG JRC – Institute for Energy Luxembourg: Office for Official Publications of the European Communities, 2006, 94 pp.

Published

2020/02/19

How to Cite

Udovsky, A. L., Evstukhina, I. A., Kolotushkin, V. P., Miloserdin V, V. Y., Rudakov, S. G., Stepanov, S. V., Cherkaschenko, M. V., & Funtikov, Y. V. (2020). USE OF NUCLEAR PHYSICS METHODS FOR INVESTIGATION OF SHORT-RANGE ORDERING AND DEFECTS IN IRON BASED SIMULATUING ALLOYS. Journal of Mining and Metallurgy, Section B: Metallurgy, 56(1), 135-141. Retrieved from https://aseestant.ceon.rs/index.php/jmm/article/view/22301

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Vol. 56 No. 1 (2020)

Section

Original Scientific Paper

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