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Metallurgist

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16-11-2018

Features of Melting Alloys Based on Titanium Nickelide in Inert Ceramic Crucibles

Authors: O. G. Ospennikova, A. G. Evgenov, E. B. Chabina, E. V. Filonova, V. A. Ignatov

Published in: Metallurgist | Issue 7-8/2018

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Abstract

Features of the structure and phase composition of alloys with a shape memory effect of the Ni–Ti–Nb and Ni–Ti–Nb–Zr systems, melted in graphite and inert ceramic crucibles in a vacuum are considered. Cast metal qualitative and quantitative structural and phase analysis data are provided, and the dependence of the amount of “parasitic” phase Ti₂Ni on melting method is demonstrated. The possibility of melting highly active materials based on titanium nickelide alloyed with niobium and zirconium in ceramic crucibles based on ZrO₂ is demonstrated.

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A study of the structure by transmission electron microscopy was conducted with E. A. Lukina.

A study of phase composition by the X-ray structural analysis method was performed together with P. L. Zhuravleva.

E. N. Kablov, “Key problem – materials,” in: Tendencies and Orientations of Developments in Russia [in Russian], VIAM, Moscow (2015).

E. N. Kablov, “Main aims and areas of development of materials for perspective aviation engineering,” in: 75 Years of Aviation Materials [in Russian], VIAM, Moscow (2007).

E. N. Kablov, “Quality control for materials – guarantee of aviation engineering operating safety,” Aviats. Mater. Tekhnol., No. 1, 3–8 (2001).

E. N. Kablov, “Innovative development of FGUP VIAM GNTs RF for implementing strategic areas of development of materials and technology for processing them in the period up to 2030,” Aviats. Mater. Tekhnol., No. 1, 3–33 (2015). DOI https://doi.org/10.18577/2071-9140-2015-0-1-3-33.

N. N. Popov, A. A. Aushev, T. I. Sysoeva, et al., “Study of the structure, elemental, phase compositions and phase transformation kinetics in shape memory alloys of the Ti–Ni–Nb system,” Metally, No. 4, 97–105 (2012).

N. N. Popov, “New technology using materials exhibiting shape memory effect,” Konver. Mashin, No. 3, 27–40 (2005).

K. Otsuka and C. M. Wayman (editors), Shape Memory Materials, Cambridge University Press, Cambridge (1999).

V. A. Likhachev, S. L. Kuz’min, and Z. P. Kamentseva, Shape Memory Effect [in Russian], LGU, Leningrad (1987).

I. I. Kornilov, O. K. Belousov, and E. V. Kachur, Titanium Nickelide Alloys and Other Alloys with Shape Memory [in Russian], Nauka, Moscow (1977).

10.

V. N. Khachin, V. G. Pushin, and V. V. Kondrat’ev, Titanium Nickelide: Structure and Properties [in Russian], Nauka, Moscow (1992).

11.

A. A. Il’in, Phase and Structural Transformation Mechanism and Kinetics in Titanium Alloys [in Russian], Nauka, Moscow (1994).

12.

Yu. K. Kovneristyi, O. G. Belousov, and S. G. Fedotov, “Thermodynamic and structural aspects of studying alloys based on NiTi with SME,” in: Titanium Alloys with Special Properties [in Russian], Nauka, Moscow (1982).

13.

S. D. Prokoshkin, É. V. Brailovskii, A. V. Korotitskii, et al., “Features of titanium nickelide formation with SME including from moderate to intense cold plastic deformation,” FMM, 110, No. 3, 305-320 (2010).

14.

J. Frenzel, E P. George, A. Diouhy, et al., “Influence of Ni on martensitic phase transformations in NiTi shape memory alloys,” Acta Mater., No. 58, 3444–3458 (2010).CrossRef

15.

I. I. Kornilov, Titanium. Sources, Composition, Properties, Metal Chemistry, and Applications [in Russian], Nauka, Moscow 91975).

16.

U. Tswicker, Titanium and Its Alloys [Russian translation], Metallurgia, Moscow (1979).

17.

M.V. Nevitt, “Stabilization of Ti2Ni-type phase by oxygen,” Trans. AIME, 218, 327–331 (1960).

18.

A. V. Aleksandrov, E. A. Afonin, S. A. Dello, et al., “Bases of melting titanium and alloys based upon it in a unit with a cold crucible,” Titan, No. 2(28), 36–41 (2010).

19.

M. Yu. Kollerov, A. V. Aleksandrov, S. Yu. Kuznetsov, et al., “Effect of melting method and technology on the structure and properties of alloy ingots based on titanium nickelide,” Titan, No. 2(32), 22–28 (2011).

20.

M. Yu. Kolerov, A. V. Aleksandrov, D. E. Gusev, and A. A. Sharonov, “Effect of charge material and melting method on structure and shape memory effect of ingots of alloys based on titanium nickelide,” Tekhnol. Legkykh Splavov, No. 2, 887–93 (2012).

21.

A. A. Fogel’, Induction Method for Holding Liquid Metals in a Suspended Condition [in Russian], Mashinostroenie, Leningrad (1979).

22.

V. G. Glebovskii and V. T. Burtsev, Melting Metals and Alloys in a Suspended State [in Russian], Metallurgiya, Moscow (1974).

23.

E. B. Chabina, A. A. Alekseev, E. V. Filonova, and E. A. Lukina, “Use of analytical microscopy with an X-ray structural analysis method for studying the structure and state of materials,” Trudy VIAM, No. 5, Art. 06 (2013). URL: http://www.viam-works.ru (access date 11.07.2017).

24.

V. A. Turchenkov, D. E. Baranov, M. V. Gagarin, and M. D. Shishkin, “Procedural approach to performance of material expertise,” Aviats. Mater. Tekhnol., No. 1, 47–53 (2012).

Title: Features of Melting Alloys Based on Titanium Nickelide in Inert Ceramic Crucibles
Authors: O. G. Ospennikova
A. G. Evgenov
E. B. Chabina
E. V. Filonova
V. A. Ignatov
Publication date: 16-11-2018
Publisher: Springer US
Published in: Metallurgist / Issue 7-8/2018
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-018-0721-z

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