REFERENCES

1. Cao XJ, Chen L, Guo S, et al. Improved thermal stability of TbF₃-coated sintered Nd-Fe-B magnets by electrophoretic deposition. AIP Advances 2018;8:056222.

2. Buschow KHJ. Intermetallic compounds of rare-earth and 3d transition metals. Rep Prog Phys 1977;40:1179-256.

3. Dong D, Wei G, Qian J, et al. Effects of manganese substitution on magnetic and magnetostrictive properties of Tb_0.5Dy_0.5(Fe_1-x-Mn_x )_1.92/epoxy composites with spherical single-crystal particles. J Rare Earths 2022;6:1211-6.

4. Cao Y, Lin K, Khmelevskyi S, et al. Ultrawide temperature range super-invar behavior of R₂(Fe,Co)₁₇ materials (R = rare earth). Phys Rev Lett 2021;127:055501.

5. Huang R, Liu Y, Fan W, et al. Giant negative thermal expansion in NaZn13-type La(Fe, Si, Co)13 compounds. J Am Chem Soc 2013;135:11469-72.

6. Cao Y, Lin K, Liu Z, et al. Role of “dumbbell” pairs of fe in spin alignments and negative thermal expansion of Lu₂Fe₁₇-based intermetallic compounds. Inorg Chem 2020;59:11228-32.

7. Zhu H, Liu J, Wang X, Xing Y, Zhang H. Applications of terfenol-D in China. J Alloys Compd 1997;258:49-52.

8. Nieves P, Legut D. Influence of grain morphology and orientation on saturation magnetostriction of polycrystalline Terfenol-D. Solid State Commun 2022;352:114825.

9. Liu HF, Wang HY, Zhang Y. Research on the application status of giant magnetostrictive material in drive field. AMM 2015;733:249-52.

10. Huiqun Y, Dong L, Huagang S. Hysteretic property of rare earth giant magnetostrictive actuator. J Rare Earths 2007;25:236-9.

11. Yuan H, Sun H, Zhou Z. Evolvement on preparation technique of the giant magnetostrictive material. J Mater Metall 2003;2:115-119. Available from: http://open.oriprobe.com/articles/5829718/Evolvement_on_preparation_technique_of_the_giant_m.htm.[Last accessed on 10 Jul 2023]

12. Michels A, Weber R, Titov I, et al. Spin structures of textured and isotropic Nd-Fe-B-based nanocomposites: evidence for correlated crystallographic and spin textures. Phys Rev Applied 2017;7:024009.

13. Yao Q, Xiong J, Liu P, et al. Determination of the phase diagrams of the Nd₂Fe₁₄B-Pr₂Fe₁₄B isopleth. J Alloys Compd 2015;633:229-32.

14. Fu G, Wang J, Rong MH, Rao GH, Zhou HY. Phase equilibria of the Nd-Fe-B ternary system. J Phase Equilib Diffus 2016;37:308-18.

15. Liu W, Zhang Z, Yue M, Li Z, Zhang D, Zhang H. Effects of La substitution on the crystal structure and magnetization of MM-Fe-B alloy (MM  =  La, Ce, Pr, Nd). J Magn and Magn Mater 2018;464:61-4.

16. Wang L, Wang J, Rong M, Rao G, Zhou H. Effect of wheel speed on phase formation and magnetic properties of (Nd_0.4La_0.6)-Fe-B melt-spun ribbons. J Rare Earths 2018;36:1179-83.

17. Chen K, Guo S, Fan XD, et al. Coercivity enhancement of (Nd,Ce)-Fe-B sintered magnets by doping Nd-Fe additives. AIP Advances 2017;7:025213.

18. Konar B, Kim J, Jung I. Critical systematic evaluation and thermodynamic optimization of the Fe-RE system: RE = La, Ce, Pr, Nd and Sm. J Phase Equilib Diffus 2016;37:438-58.

19. Konar B, Kim J, Jung I. Critical systematic evaluation and thermodynamic optimization of the Fe-RE system: RE = Gd, Tb, Dy, Ho, Er, Tm, Lu, and Y. J Phase Equilib Diffus 2017;38:509-42.

20. Chen T, Wang J, Guo C, et al. Thermodynamic description of the Nd-Fe-B ternary system. Calphad 2019;66:101627.

21. Chen T, Guo C, Li C, Du Z. Experimental investigation and thermodynamic description of the Pr-Fe-B system. J Magn Magn Mate 2020;497:165983.

22. Li S, Rong M, Xu L, et al. Thermodynamic assessment of the RE-B (RE = Ce, Dy, Lu) binary systems. Calphad 2020;68:101740.

23. Wei Q, Rong M, Li S, et al. Thermodynamic assessment of the RE-B (RE = Ho, Er, Tm) binary systems. Calphad 2020;70:101796.

24. Wei Q, Rong M, Li S, et al. Thermodynamic calculation of phase equilibria of rare earth metals with boron binary systems. Int J Mater Res 2022;113:400-18.

25. Chen T, Wang J, Rong M, Rao G, Zhou H. Experimental investigation and thermodynamic assessment of the Fe-Pr and Fe-Nd binary systems. Calphad 2016;55:270-80.

26. Chen X, Wang J, Chen T, et al. Thermodynamic re-assessment of the Fe-Gd and Fe-Sm binary systems. Calphad 2017;58:151-9.

27. Rong M, Chen X, Wang J, Rao G, Zhou H. Thermodynamic re-assessment of the Fe-Dy and Fe-Tb binary systems. Calphad 2017;59:154-63.

28. Xu L, Wang J, Li S, et al. Thermodynamic re-assessment of the Fe-Tm and Fe-Ho binary systems. Calphad 2019;66:101646.

29. Su D, Yang K, Rong M, et al. Phase transition, microstructure and solidification of Ce-La-Fe and Ce-Nd-Fe alloys: experimental investigation and thermodynamic calculation. Calphad 2023;80:102506.

30. Richerd J. Lanthanum and cerium in pure iron. Mem et Sci Rev Metall 1962;59:539-548. (in French).

31. Nassau K, Cherry L, Wallace W. Intermetallic compounds between lanthanons and transition metals of the first long period: I-preparation, existence and structural studies. J Phys Chem Solids 1960;16:123-30.

32. Haefling JF, Daane AH. Iron-lanthanum system. In: Spedding FH, Daane AH, editors. Rare Earths. New York; 1961. p. 280-281.

33. Mardani M, Fartushna I, Khvan A, Cheverikin V, Dinsdale A. Experimental investigation of phase transformations in the La-Fe and La-Fe-C systems. Calphad 2019;65:370-84.

34. Berezutskii VV, Usenko NI, Ivanov MI. Thermochemistry of binary alloys of lanthanum with 3d-transition metals. Powder Metall Met Ceram 2006;45:266-71.

35. Esin YO, Ermakov AF, Valishev MG, Ryss GM, Geld PV, Levin ES. Enthalpy of formation of liquid binary alloys of iron with lanthanum and cerium. Zh Fiz Khim 1981;55:1665-1669.

36. Vogel R. Über Cer-Eisenlegierungen. Z Anorg Allg Chem 1917;99:25-49.

37. Gebhart JM, Etter DE, Tucker PA. Cerium-iron and cerium-nickel binary systems. In: Proceedings of the 6th Rare Earth Research Conference; United States Air Force, office of Scientific Research, Oak-Ridge National Laboratory, Gatlinburg, TN; 1967 p. 452. Available from: https://www.osti.gov/biblio/4534032. [Last accessed on 7 Jul 2023]

38. Jepson JA, Duwez P. Partial phase diagram of the iron cerium diagram. Trans Am Soc Metals 1955;47:543-553.

39. Buschow KHJ, van Wieringen JS. Crystal structure and magnetic properties of cerium-iron compounds. phys stat sol (b) 1970;42:231-9.

40. Zhuang YZ, Wu CH, Shao ZB. Study of the Fe-Ce binary system. Rare Earth 1987;1:16-19. (in Chinese).

41. Chuang Y, Wu C, Shao Z. Investigation of the Ce Fe binary system. J Less Common Met 1987;136:147-53.

42. Usenko N, Kotova N, Ivanov M, Berezutski V. Enthalpies of mixing in binary Fe-Sb, Ce-Fe and ternary Ce-Fe-Sb liquid alloys. Int J Mater Res 2016;107:13-20.

43. Ivanov MI, Berezutskii VV, Shevchenko MA, Kudin VG, Sudavtsova VS. Thermodynamic properties of binary Al-Ce and Ce-Fe alloys. Powder Metall Met Ceram 2015;54:80-92.

44. Meschel S, Nash P, Gao Q, Wang J, Du Y. The standard enthalpies of formation of some binary intermetallic compounds of lanthanide-iron systems by high temperature direct synthesis calorimetry. J Alloys Compd 2013;554:232-9.

45. Khvan A, Mardani M, Fartushna I, Syutkin E, Cheverikin V, Dinsdale A. An experimental investigation of the thermodynamic properties of β-Fe₁₇Ce₂, Fe₂Ce, and ternary Fe_13.1-11.0Mn_3.9-6.0Ce₂ (τ1) intermetallic phases. Thermochimica Acta 2019;672:1-8.

46. Povoden-karadeniz E, Grundy AN, Chen M, Ivas T, Gauckler LJ. Thermodynamic assessment of the La-Fe-O system. J Phase Equilib Diffus 2009;30:351-66.

47. Su X, Tedenac J. Thermodynamic modeling of the ternary Ce-Fe-Sb system: assessment of the Ce-Sb and Ce-Fe systems. Calphad 2006;30:455-60.

48. Ray AE. The iron-praseodymium phase diagram[R]. AFML-TR-69-239, Air Force Materials Laboratory, Wright-Paterson AFB, OH, 1969.

49. Tian JH, Huang YY, Liang JK. The Pr-Fe-B ternary system. Sci Chin Ser A-Mathem, Phys, Astron Technol Sci 1987;30:607-619.

50. Zhuang YH, Zhou HY, Zheng JX. Phase diagram of binary Pr-Fe system. Acta Metall Sin 1987;23:42-43. (in Chinese).

51. Zhang W, Li C, Su X. The Fe-Pr (Iron-Praseodymium) system. JPE 1999;20:158-62.

52. Okamoto H. Fe-Pr (iron-praseodymium). JPE 1996;17:269-269.

53. Ivanov M, Berezutski V, Usenko N, Kotova N. Enthalpies of mixing in liquid alloys of iron with the lanthanides. Int J Mater Res 2013;104:849-57.

54. Gozzi D, Iervolino M, Latini A. Thermodynamics of Fe-rich intermetallics along the rare earth series. J Chem Eng Data 2007;52:2350-8.

55. Terekhova VF, Maslova EV, Savitskiy YM. Iron-neodymium equilibrium diagram. Russ Met 1965;3:50-52.

56. Che GC, Liang J. Phase diagram of Nd-Fe-B ternary system. Sci Chin Ser A-Mathem, Phys, Astron Technol Sci 1986;29:1172-1185.

57. Schneider G, Henig E, Petzow G, Stadelmaier HH. The binary system iron - neodymium. Int J Mater Res 1987;78:694-6.

58. Faudot F, Harmelin M, Bigot J. The iron-neodymium phase diagram. Scripta Metallurgica 1989;23:795-8.

59. Zhang W, Liu G, Han K. The Fe-Nd (Iron-Neodymium) system. JPE 1992;13:645-8.

60. Hennemann K, Lukas HL, Schaller H. Constitution and thermodynamics of Fe-Nd alloys/konstitution und thermodynamik von Fe - Nd-legierungen. Int J Mater Res 1993;84:668-74.

61. Landgraf FJG, Schneider GS, Villas-boas V, Missell FP. Solidification and solid state transformations in Fe Nd: a revised phase diagram. J Less Common Met 1990;163:209-18.

62. Okamoto H. Erratum to: Fe-Nd (iron-neodymium). JPE 1997;18:317-8.

63. Okamoto H. Supplemental literature review of binary phase diagrams: Al-Br, B-Cd, Cd-Mg, Cd-Ti, Er-Fe, Fe-Nd, Ge-Na, Ge-Ni, Ge-Sc, Hf-W, Pb-Yb, and Re-Ti. J Phase Equilib Diffus 2014;35:195-207.

64. Du Y, Jin ZP, Han F. Thermodynamic optimization and calculation of the Fe-Pr system. J Chin Rare Earth Soc 1990:p.166-170. (in Chinese).

65. Bär S, Schaller HJ. Constitution and thermodynamics of Fe-Pr alloys. Zeitschrift fuer Metallkunde 1995;86:388-394. Available from: https://inis.iaea.org/search/search.aspx?orig_q=RN:26070954. [Last accessed on 7 Jul 2023].

66. Zhou GJ, Zeng DC. Thermodynamic evaluation of the Fe-Pr binary system. MSF 2010;654-656:2442-5.

67. Hallemans B, Wollants P, Roos JR. Thermodynamic assessment of the Fe-Nd-B phase diagram. JPE 1995;16:137-49.

68. Ende M, Jung I. Critical thermodynamic evaluation and optimization of the Fe-B, Fe-Nd, B-Nd and Nd-Fe-B systems. J Alloys Compd 2013;548:133-54.

69. Buschow K. The samarium-iron system. J Less Common Met 1971;25:131-4.

70. Berezutskii VV, Ivanov MI. Mixing enthalpies in samarium-transition metal melts. Powder Metall Met Ceram 2009;48:454-61.

71. Atiq S, Rawlings RD, West DRF. Phase relationships in the Fe-Co-Gd system. J Mater Sci Lett 1990;9:518-9.

72. Atiq S, Rawlings RD, West DRF. Crystal structure of compounds Fe₁₇Gd₂ and Fe₁₇Tb₂. J Mater Sci Technol 1990;6:778-80.

73. Atiq S, Rawlings RD, West DRF. Defects in lattices of (Fe_1-xCo_x)₁₇RE₂ compounds (RE = Gd and Tb). J Mater Sci Technol 1997;13:375-8.

74. Novy VF, Vickery RC, Kleber EV. The gadolinium-iron system. Trans Metall Soc AIME 1961;221:580-585.

75. Savitskii EM, Terekhova VF, Burov IV, Chistyakov OD. Equilibrium diagram for alloys of the gadolinium-iron system. Russ J Inorg Chem 1961;6:883-885.

76. Copeland MI, Krrug M, Armantrout CE, Kato H. Iron-gadolinium phase diagram. US Department of the Interior, Bureau of Mines; 1962. Available from: https://books.google.com.hk/books?id=zc7GjVdaZ7IC&pg=PP1&lpg=PP1&dq=Copeland+MI,+Krrug+M,+Armantrout+CE,+Kato+H.+Iron-gadolinium+phase+diagram.+US+Department+of+the+Interior,+Bureau+of+Mines,%0D%0A1962.&source=bl&ots=pHafAj4zDs&sig=ACfU3U2mIgemCs28wqF3V62Y. [Last accessed on 7 Jul 2023].

77. Savitskii EM, Terekhova WF. Voprosy Teorii Primeneniya Redkozemelnykh Metallov. Moscow: Akademiya Nauk SSSR; 1964. p. 116-123.

78. Savitskii EM, Terekhova VF, Torchinova RS, et al. Proceedings of Conference on Rare Earth Elements; Paris: Grenoble; 1969. p. 49-60.

79. Nikolaenko IV, Nosova VV. Enthalpy of mixing of gadolinium with manganese and iron. Sov Prog Chem 1989;55:30-33. (in Russian) Available from: https://elibrary.ru/item.asp?id=31150749. [Last accessed on 7 Jul 2023].

80. Deodhar SS, Ficalora PJ. A study of the reaction kinetics for the formation of rare earth-transition metal laves compounds. Metall Trans A 1975;6:1909-14.

81. Colinet C, Pasturel A, Buschow KHJ. Study of the enthalpies of formation in the Gd-(Fe, Co, Pd, Pt) systems. Metall Trans A 1987;18:903-7.

82. Zinkevich M, Mattern N, Handstein A, Gutfleisch O. Thermodynamics of Fe-Sm, Fe-H, and H-Sm systems and its application to the hydrogen-disproportionation-desorption-recombination (HDDR) process for the system Fe₁₇Sm₂-H₂. J Alloys Compd 2002;339:118-39.

83. Konar B, Kim J, Jung I. Thermodynamic modelling of Fe-Sm and Fe-Dy systems. Can Metall Q 2013;52:321-8.

84. Liu Z, Zhang W, Sundman B. Thermodynamic assessment of the Co Fe Gd systems. J Alloys Compd 1995;226:33-45.

85. Zinkevich M, Mattern N, Seifert HJ. Reassessment of the Fe-Gd (Iron-Gadolinum) system. JPE 2000;21:385-94.

86. Wang W, Guo C, Li C, Du Z. A thermodynamic re-modeling of the Co-Fe-Gd system. J Rare Earths 2012;30:1055-63.

87. Roe GJ, O’keefe TJ. The Fe-Ho binary system. Metall Trans 1970;1:2565-8.

88. Kolesnichenko VF, Terekhova VF, Savitskii EM. Phase diagrams of thulium-iron and lutetium-iron alloys. Metalloved Tsvetn Met Splavov Nauka 1972;3:31-33. (in Russian).

89. Cahn RW. Binary alloy phase diagrams. Adv Mater 1991;3:628-9.

90. Kardellass S, Servant C, Selhaoui N, Iddaoudi A. Thermodynamic evaluations of the iron-lutetium and iron-thulium systems. Calphad 2014;46:42-54.

91. Kardellass S, Servant C, Selhaoui N, Iddaoudi A, Ait Amar M, Bouirden L. A thermodynamic assessment of the Iron+Holmium phase diagram. J Chem Thermodyn 2014;74:78-84.

92. Dariel M, Holthuis J, Pickus M. The terbium-iron phase diagram. J Less Common Met 1976;45:91-101.

93. Orlova IG, Eliseev AA, Chuprikov GE, Rukk F. The Fe-Tb system. Russ J Inorg Chem 1977;22:2557-2562.

94. Okamoto H. Fe-Tb (iron-terbium). JPE 1996;17:165-165.

95. Chen J, Wu G, Zhao D, et al. Single-crystal growth and phase diagram of Tb₂Fe₁₇ compound. J Cryst Growth 2001;222:779-85.

96. der Goot A, Buschow K. The dysprosium-iron system: Structural and magnetic properties of dysprosium-iron compounds. J Less Common Met 1970;21:151-7.

97. Kripyakevich PI, Frankevich DP. New compounds of rare earths with Mn and Fe, and their crystal structures. Sov Phys Crystallogr 1966;10:468-469. Available from: ​https://www.osti.gov/biblio/4562275.[Last accessed on 10 Jul 2023]

98. Strnat K, Hoffer G, Ray A. Magnetic properties of rare--Earth--Iron intermetallic compounds. IEEE Trans Magn 1966;2:489-93.

99. Okamoto H. Dy-Fe (dysprosium-iron). JPE 1996;17:80-1.

100. Nagai T, Shirai S, Maeda M. Thermodynamic measurement of Dy+Fe binary system by double Knudsen cell mass spectrometry. J Chem Thermodyn 2013;65:78-82.

101. Germano D, Butera R, Gschneidner K. Heat capacity and thermodynamic functions of theRFe2 compounds (R = Gd, Tb, Dy, Ho, Er, Tm, Lu) over the temperature region 8 to 300 K. J Solid State Chem 1981;37:383-9.

102. Meschel S, Pavlu J, Nash P. The thermochemical behavior of some binary shape memory alloys by high temperature direct synthesis calorimetry. J Alloys Compd 2011;509:5256-62.

103. Norgren S, Hodaj F, Colinet C, Azay P. Experimental investigation on the enthalpies of formation of the DyFe₂, DyFe₃, Dy₂Fe₁₇, ErFe₂, and ErFe₃ intermetallic compounds. Metall Mater Trans A 1998;29:1367-74.

104. Landin S, Ågren J. Thermodynamic assessment of Fe Tb and Fe Dy phase diagrams and prediction of Fe Tb Dy phase diagram. J Alloys Compd 1994;207-208:449-53.

105. Su XP, Zhang WJ, Du ZM. Thermodynamic assessment of Fe-Dy system. Rare Met 1999;18:113-118. (in Chinese).

106. Buschow KHJ, van der Goot AS. Phase relations, crystal structures, and magnetic properties of erbium - iron compounds. phys stat sol (b) 1969;35:515-22.

107. Meyer A. Erbium-iron system. J Less Common Met 1969;18:41-48.

108. Kolesnikov VE, Trekhova VF, Savitskii EM. Phase Diagram of the erbium-iron system. Neorg Mater 1971;7:495.

109. Okamoto H. Phase diagrams of binary iron alloys. OH: Materials Park, ASM International; 1993. p. 341-349. Available from: https://books.google.com.hk/books/about/Phase_Diagrams_of_Binary_Iron_Alloys.html?id=QPBUAAAAMAAJ&redir_esc=y. [Last accessed on 7 Jul 2023].

110. Zhou G, Liu Z, Zeng D, Jin Z. Thermodynamic assessment of the Fe-Er system. Phys B Condens Matter 2010;405:3590-3.

111. Wang W, Guo C, Li C, Du Z. Thermodynamic description of the Er-Fe-Sb system. Calphad 2011;35:292-301.

112. Wang S, Han J, Wang C, Kou S, Liu X. Thermodynamic assessment and the composition prediction of amorphous alloy in the Fe-B-Er alloy system. J Alloys Compd 2012;513:27-34.

113. Tereshina E, Andreev A. Magnetization and specific heat study of metamagnetism in Lu₂Fe₁₇-based intermetallic compounds. Intermetallics 2010;18:1205-10.

114. Farkas MS, Bauer AA. The solid solubility and constitution of yttrium in iron-20 to 40 w/o chromium alloys. Available from: https://www.osti.gov/biblio/4206100. [Last accessed on 7 Jul 2023].

115. Domagala RF, Rausch JJ, Levinson DW. The systems Y-Fe, Y-Ni, and Y-Cu. Trans Am Soc Metals 1961;53:137-155. Available from: https://www.osti.gov/biblio/4818549. [Last accessed on 7 Jul 2023].

116. Gscheidner KA. Rare earth alloys. Princeton: Van Nostrand;1961. p. 247. Available from: https://books.google.com.hk/books/about/Rare_Earth_Alloys.html?id=vj3XzwEACAAJ&redir_esc=y. [Last accessed on 7 Jul 2023].

117. von Goldbeck OK. Fe - Y Iron - Yttrium. In: IRON - Binary Phase Diagrams. Berlin: Springer Berlin Heidelberg; 1982. p. 168-70.

118. Zhang BW, Liu G, Han K. The Fe-Y (iron-yttrium) system. JPE 1992;13:304-8.

119. Hellawell A. Solid state transitions in manganese and iron solid solutions. J Less Common Met 1959;1:110-2.

120. Buschow K. The crystal structures of the rare-earth compounds of the form R₂Ni₁₇, R₂Co₁₇ and R₂Fe₁₇. J Less Common Met 1966;11:204-8.

121. Ryss GM, Esin YO, Petrushevskii MS, Stroganov AI, Geld PV. Enthalpy of formation of iron-yttrium liquid alloys. Zh Fiz Khim 1976;50:771-2.

122. Sudavtsova VS, Kurach VP, Batalin GI. Thermochemical properties of molten binary Fe--(Y, Zr, Nb, Mo) alloys. Russ Metall ;1987.

123. Subramanian P, Smith J. Thermodynamics of formation of Y-Fe alloys. Calphad 1984;8:295-305.

124. Dariel M, Atzmony U, Guiser R. Specific heat anomalies at the magnetic ordering temperatures of rare earth-iron laves compounds. J Less Common Met 1974;34:315-9.

125. Mandal K, Yan A, Kerschl P, Handstein A, Gutfleisch O, Müller K. The study of magnetocaloric effect in R₂Fe₁₇ (R = Y, Pr) alloys. J Phys D Appl Phys 2004;37:2628-31.

126. Nagai T, Han W, Maeda M. Thermodynamic measurement of La-Fe and Y-Fe alloys by multi-Knudsen cell mass spectrometry. J Alloys Compd 2010;507:72-6.

127. Du ZM, Zhang WJ, Zhuang YZ. Thermodynamic assessment of the Fe-Y system. Rare Met 1997;16:52-58. (in Chinese).

128. Gong W, Chen T, Li D, Liu Y. Thermodynamic investigation of Fe-Ti-Y ternary system. Trans Nonferrous Met Soc 2009;19:199-204.

129. Lü D, Guo C, Li C, Du Z. Thermodynamic description of Fe-Y and Fe-Ni-Y Systems. Phys Procedia 2013;50:383-7.

130. Kardellass S, Servant C, Selhaoui N, et al. Thermodynamic assessments of the Fe-Y and Ni-Sc systems. MATEC Web Conf 2013;3:01008.

131. Kardellass S, Servant C, Selhaoui N, Iddaoudi A, Amar MA, Bouirden L. A thermodynamic assessment of the iron-yttrium system. J Alloys Compd 2014;583:598-606.

132. Saenko I, Fabrichnaya O, Udovsky A. New thermodynamic assessment of the Fe-Y system. J Phase Equilib Diffus 2017;38:684-99.

133. Fan L, Shen C, Hu K, Liu H, Zhang H. DFT Calculations and thermodynamic Re-assessment of the Fe-Y binary system. J Phase Equilib Diffus 2021;42:348-62.

134. Dinsdale A. SGTE data for pure elements. Calphad 1991;15:317-425.

135. Hillert M, Jarl M. A model for alloying in ferromagnetic metals. Calphad 1978;2:227-38.

136. Sundman B, Jansson B, Andersson J. The Thermo-Calc databank system. Calphad 1985;9:153-90.

137. Kim J, Jung I. Critical systematic evaluation and thermodynamic optimization of the Mn-RE system: RE = La, Ce, Pr, Nd and Sm. J Alloys Compd 2012;525:191-201.

138. Kim J, Paliwal M, Zhou S, Choi H, Jung I. Critical systematic evaluation and thermodynamic optimization of the Mn-RE system (RE = Tb, Dy, Ho, Er, Tm and Lu) with key experiments for the Mn-Dy system. J Phase Equilib Diffus 2014;35:670-94.

139. Ye H, Rong M, Yao Q, et al. Phase equilibria and thermodynamic properties in the RE-Ni (RE = rare earth metals) binary systems. J Mater Sci 2023;58:1260-92.

140. The materials project. Available from: https://materialsproject.org/. [Last accessed on 19 Jun 2023].

141. The open quantum materials database. Available from: http://oqmd.org/. [Last accessed on 19 Jun 2023].

142. Du Z, Lü D. Thermodynamic modelling of the Co-Y system. J Alloys Compd 2004;373:171-8.