Page 16 of 18                         Lu et al. J Mater Inf 2022;2:11  I http://dx.doi.org/10.20517/jmi.2022.15



               Financial support and sponsorship
               The present work is supported by the National Key R&D Program of China (Grant No. 2017YFB0701502).

               Conflicts of interest
               The authors declared that there are no conflicts of interest.

               Ethical approval and consent to participate
               Not applicable.

               Consent for publication
               Not applicable.

               Copyright
               © The Author(s) 2022.



               REFERENCES
               1.  Reed RC. The superalloys fundamental and applications, Cambridge University Press, New York, 2008. DOI
               2.  Yaqoob K. Thesis. Paris­Est Créteil University, 2012. Available from: https://www.theses.fr/2012PEST1172.pdf [Last accessed on 29 Jul
                  2022]
               3.  Yaqoob K, Joubert J. Experimental investigation of the Mo­Ni­Re system. J Alloys Compd 2013;559:101­11. DOI
               4.  J.­C. Crivello. Unpublished work.
               5.  Yaqoob K, Guénée L, Černý R, Joubert J. A modulated structure derived from the    phase in the Mo­Ni­Re system. Intermetallics
                  2013;37:42­5. DOI
               6.  Yaqoob K, Joubert J. Experimental determination and thermodynamic modeling of the Ni­Re binary system. J Solid State Chem
                  2012;196:320­5. DOI
               7.  Grube G, Vosskühler H. Elektrische Leitfähigkeit und Zustandsdiagramm bei binären Legierungen. 8. Mitteilung. Das System Lithium­
                  Zink. Z Anorg Allg Chem 1933;215:211­24. DOI
               8.  Bloom DS, Grant NJ. An investigation of the systems formed by chromium, molybdenum, and nickel. JOM 1954;6:261­8. DOI
               9.  P.V. Guthrie, E.E. Stansbury, X­ray and metallographic study of the nickel­rich alloys of the nickel­molybdenum system. II, Oak Ridge
                  National Laboratory, Oak Ridge, Tennessee, 1961, p. 57. DOI
               10. Casselton R, Hume­rothery W. The equilibrium diagram of the system molybdenum­nickel. J Less Comm Metals 1964;7:212­21. DOI
               11. A. Wicker, C. Allibert, J. Driole, E. Bonnier, Etude d’ équilibres de phases dans les systèmes Ni­Nb­Mo, Ni­Nb et Ni­Mo, Comptes
                  Rendus l’Acad. Sci. Sér. C 271 (1970) 273­275. DOI
               12. Heijwegen CP, Rieck GD. Determination of the phase diagram of the molybdenum­nickel system using diffusion couples and equilibrated
                  alloys. Inter J Mater Res 1973;64:450­3. DOI
               13. W. Gust, T. Nguyen­Tat, B. Predel, untersuchungen zur dikontinuierlichen ausscheidung in einer Ni­Mo­Legierung mit 17.5 at.% Mo, Z.
                  Metallkd. 70 (1979) 241­246. DOI
               14. Kang SL, Song Y, Kaysser WA, Hofmann H. Determination of Mo solidus in the Mo­Ni system by electrolytic phase separation method.
                  Inter J Mater Res 1984;75:86­91. DOI
               15. Kobayashi S, Sumi T, Koyama T, Miyazaki T. Determination of coherent phase boundaries in Ni­V and Ni­Mo alloys by utilizing macro­
                  scopic composition gradient. J Japan Inst Metals 1996;60:22­8. DOI
               16. Zhu L, Wei C, Jiang L, Jin Z, Zhao J. Experimental determination of the phase diagrams of the Co­Ni­X (X = W, Mo, Nb, Ta) ternary
                  systems using diffusion multiples. Intermetallics 2018;93:20­9. DOI
               17. Shi J, Guo C, Li C, Du Z. Experimental investigation of intermetallics and phase equilibria in the Hf­Mo­Ni system at 1100 °C and 950
                  °C. Metall Mater Trans A 2021;52:1059­76. DOI
               18. ChistyakovLS , Grigorovich KV, Stomakhin AY. Enthalpy of formation of liquid Ni­Mo alloys, Izv. Vyss. Uchebn. Zaved. Chern. Metall.
                  (1993) 82­83. DOI
               19. Sudavtsova VS. Thermodynamic properties of melts of Ni­Cr(Mo,W) binary systems, Russ. Metall. 1999;118­120. DOI
               20. Spencer P, Putland F. A calorimetric study of intermediate phases in iron +, cobalt +, and nickel + molybdenum. J Chem Thermodyn
                  1975;7:531­6. DOI
               21. Kubaschewski O, Hoster T. Bildungs­ und Umwandlungs­Enthalpien in binären und ternären Systemen der Metalle Eisen, Kobalt, Nickel
                  und Molybdän. International J Mater Res 1983;74:607­9. DOI
               22. Norem, WE, Ph.D. Thesis. University of Tennessee, Knoxville, 1965.
               23. Brooks CR, Meschter PJ. A Combined Thermodynamic Study of Nickel­Base Alloys, Department of Energy, Knoxville, Tennessee, 1981,
                  p. 42. DOI
               24. Basak D. Application of Pulse Calorimetry to Metal Systems, (n.d.) 248. DOI