1. K. B. Povarova, A. A. Drozdov, N. K. Kazanskaya, et al., Method for Producing Oxidation-Resistant Cast Alloy or Articles from VKNA Alloy Based on Ni
3
Al Intermetallide (Options) and Articles Obtained by This Method [in Russian], Russian Patent 2356965, IPC C22C 1/02; patent applicant and holder Inst. Metall. Materialoved. RAN, No. 2007142307/02; appl. November 16, 2007; publ. May 27, 2009; Bulletin No. 15, p. 9.
2. H. J. Goldschmidt, “Occurrence of the beta-manganese structure in transition metal alloys, and some observation on chi-phase equilibria,” Metallurgia, 56, No. 333, 17′–26′ (1957).
3. S. A. Yuganova, N. A. Duel, and V. S. Stepin, “π-phase in steels with high chromium, nickel, and silicon content,” in: Methods for Study and Analysis of Structure, Phase Constituents, and Chemical Composition of Materials for Power Plant Engineering [in Russian], Tsentr. Nauch. Issled. Inst. Tekhnol. Mashinostr., Moscow (1980), Issue 156, pp. 7–14.
4. S. A. Firstov, S. Ya. Golub, L. D. Kulak, et al., “New metastable iron-based phase formed in ultra-rapid crystallization of high-alloy steels,” Fiz. Met. Materialoved., 65, No. 4, 772–775 (1988).
5. T. A. Velikanova, High-Temperature Phase Transformations with Mn-Like Phases in the Fe–Mo, Fe–Mo–C, and Fe–Mo–Cr–C Systems [in Ukrainian], PhD Thesis in Chemical Sciences: 02.00.04, Inst. Probl. Materialoved. NAN Ukrainy, Kyiv (2013), p. 172.