Literature cited
S. M. Solonin, I. F. Martynovna, V. V. Skorokhod, and V. I. Kotenev, “Effect of inert additions on the superelastic behavior of powder titanium nickelide,” Poroshk. Metall., No. 9, 14–19 (1986).
M. P. Arbuzov and V. G. Shuprina, “Examination of the kinetics of oxidation of Ni3Ti compound,” Izv. Vyssh. Uchebn. Zaved., Fiz., No. 12, 92–96 (1971).
M. P. Arbuzov and V. G. Chuprina, “Examination of the oxidation of Ni3(Al, Ti) alloy,” Dokl. Akad. Nauk Ukr. SSR Ser. A, No. 7, 650–653 (1975).
A. V. Revyakin, “Problem of the oxidation kinetics of titanium,” in: Titanium and Its Alloys. Metallurgy of Titanium [in Russian], No. 8, Academy of Sciences of the USSR, Moscow (1968), pp. 175–190.
Z. I. Kornilova and D. V. Ignatov, “Structural and kinetic examination of the oxidizability of titanium alloys,” in: New Investigations of Titanium Alloys [in Russian], Nauka, Moscow (1965), pp. 143–147.
A. S. Bai, D. I. Lainer, and M. I. Tsipin, Oxidation of Titanium and Its Alloys [in Russian], Metallurgiya, Moscow (1970).
D. M. Poole and W. Hume-Rothery, “The equilibrium diagram of the system nickel-titanium,” J. Inst. Met.,83, 473–480 (1955).
W. J. Buchler and R. C. Willy, “TiNi-ductile intermetallic compound,” Trans. Am. Soc. Met.,55, 269–276 (1966).
F. E. Wang, A. M. Syeles, W. L. Clark, and W. J. Buchler, “Growth of the TiNi single crystals by modified strain-anneal technique,” J. Appl. Phys.,35, No. 12, 3620 (1964).
F. E. Wang, W. J. Buchler, and S. J. Pickart, “Crystal structure and a unique martensite transition of TiNi,” J. Appl. Phys.,36, No. 10, 721 (1965).
M. V. Nevitt, “Stabilization of certain Ti2Ni-type phases by oxygen,” Trans. Met. Soc. AIME,218, 327–331 (1960).
R. J. Wasilewski, S. R. Butler, and J. E. Hanlon, “On the martensitic transformations in TiNi,” Met. Sci. J.,1, No. 7, 104–110 (1967).
D. P. Dantovich and G. R. Purdy, “Phase transformations in the TiNi,” Can. Met. Q.,4, No. 2, 129 (1965).
M. J. Marcinkowski, A. S. Sastri, and D. Koskimaki, “Martensitic behavior in the equiatomic Ni-Ti alloy,” Phil. Mag.,18, No. 155, 945–958 (1968).
V. V. Kondrat'ev and V. G. Pushin, “Short-range order of displacements of atoms as the pretransition structural state of metals and alloys,” in: Ordering of Atoms and Its Effect on the Properties of Alloys, Proceedings of 7th All-Union Conference, Sverdlovsk, May 24–26, 1983, Ural'sk Scientific Center of the USSR Academy of Sciences, Sverdlovsk (1983), pp. 125–127.
P. Duwez and J. L. Taylor, “The structure of intermediate phase in alloys of titanium with iron, cobalt, and nickel,” Trans. Am. Int. Min. Metal. Eng.,188, 1173 (1950).
V. N. Eremenko, Titanium and Its Alloys [in Russian], Academy of Sciences of the Ukrainian SSR, Kiev (1960).
Index to the X-Ray Powder Data Film, American Society for Testing of Materials, Philadelphia (1972).
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Translated from Poroshkovaya Metallurgiya, No. 4(316), pp. 75–80, April, 1989.
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Chuprina, V.G. Examination of the process of oxidation of titanium nickelide. I. Kinetics. Powder Metall Met Ceram 28, 310–314 (1989). https://doi.org/10.1007/BF00797991
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DOI: https://doi.org/10.1007/BF00797991