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Journal of Materials Science

Erschienen in:

09.03.2017 | Original Paper

Mössbauer and TEM studies of the phase composition and structure of (Nd_1−xCe_x)_32.7Fe_66.22B_1.08 ribbons

verfasst von: R. Q. Wang, Y. Liu, J. Li, W. Zhao, X. J. Yang

Erschienen in: Journal of Materials Science | Ausgabe 12/2017

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Abstract

(Ce_xNd_1−x)_32.7Fe_66.22B_1.08 (x = 0, 0.2, 0.4, 0.6, 0.8 and 1.0) ribbons were prepared by melt spinning, and the effect of substitution of Ce for Nd on their microstructure and magnetic properties was investigated. Especially, the phase compositions and microstructures of the ribbons were examined by Mössbauer spectrometry and transmission electron microscopy, respectively. The results indicated that the coercivity (H _ci) and remanence (B _r) of the ribbons decreased with the increase of Ce content. However, an abnormal increase of H _ci was observed in the sample of x = 0.4. This was mainly due to the synergistic effects of the microstructures, the ratio of secondary phases, and the site-preference of rare earth atoms. In this study, the optimal magnetic properties of B _r = 6.95 kGs, H _ci = 13.65 kOe and (BH)_max = 9.56 MGOe were achieved in the (Nd_0.6Ce_0.4)_32.7Fe_66.22B_1.08 ribbon, which indicated that Ce had a great potential to prepare the low cost and high coercivity magnets.

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Sugimoto S (2011) Current status and recent topics of rare-earth permanent magnets. J Phys D Appl Phys 44:064001CrossRef

Gutfleisch O, Willard MA, Brück E, Chen CH, Sankar SG, Liu JP (2011) Magnetic materials and devices for the 21st century: stronger, lighter, and more energy efficient. Adv Mater 23:821–842CrossRef

McCallum RW, Lewis LH, Skomski R, Kramer MJ, Anderson IE (2014) Practical aspects of modern and future permanent magnets. Annu Rev Mater Res 44:451–477CrossRef

Li D, Bogatin Y (1991) Effect of composition on the magnetic properties of (Ce_1−xNd_x)_13.5(Fe_1−y−zCo_ySi_z)₈₀B_6.5 sintered magnets. J Appl Phys 69:5515–5517CrossRef

Yan C, Guo S, Chen R, Lee D, Yan AR (2014) Effect of Ce on the magnetic properties and microstructure of sintered didymium-Fe-B magnets. IEEE Trans Magn 50:1–5

Huang S, Feng H, Zhu MG, Li AH, Zhang Y, Li W (2014) Investigation of chemical composition and crystal structure in sintered Ce₁₅Nd₁₅Fe_balB₁ magnet. AIP Adv 4:107127CrossRef

Chu LH, Liu Y, Li J, Ma YL, Li CY (2012) Structural and magnetic study of hot-pressed and hot-deformed Nd_13.5−xCe_xFe_80.4Ga_0.5B_5.6 (x = 0,0.5,1) prepared by spark plasma sintering. IEEE Trans Magn 48:2092–2095CrossRef

Pathak AK et al (2015) Cerium: an unlikely replacement of dysprosium in high performance Nd–Fe–B permanent magnets. Adv Mater 27:2663–2667CrossRef

Soeda H, Yanagida M, Yamasaki J, Mohri K (1985) Hard magnetic properties of rapidly quenched (La, Ce)-Fe–B ribbons. IEEE Trans J. Magn Jpn 1:1006–1008CrossRef

10.

Chuang YC, Wu CH, Shao ZB (1987) Investigation of the Ce–Fe binary system. J. Less Common Met 136:147–153CrossRef

11.

Fuerst CD, Capehart TW, Pinkerton FE, Herbst JF (1995) Preparation and characterization of La2-xCexFe14B compounds. J Magn Magn Mater 139:359–363

12.

Herbst JF, Meyer MS, Pinkerton FE (2012) Magnetic hardening of Ce₂Fe₁₄B. J Appl Phys 111:07A718 1–3 CrossRef

13.

Skoug EJ, Meyer MS, Pinkerton FE, Tessema MM, Haddad D, Herbst JF (2013) Crystal structure and magnetic properties of Ce₂Fe_14−xCo_xB alloys. J Alloys Compd 574:552–555CrossRef

14.

Zhou QY, Liu Z, Guo S, Yan AR, Lee D (2015) Magnetic properties and microstructure of melt-spun Ce–Fe–B magnets. IEEE Trans Magn 51:1–4

15.

Hussain M, Zhao LZ, Zhang C, Jiao DL, Zhong XC, Liu ZW (2016) Composition-dependent magnetic properties of melt-spun La or/and Ce substituted nanocomposite NdFeB alloys. Phys B 483:69–74CrossRef

16.

Capehart TW, Mishra RK, Meisner GP, Fuerst CD, Herbst JF (1993) Steric variation of the cerium valence in Ce₂Fe₁₄B and related compounds. Appl Phys Lett 63:3642–3644CrossRef

17.

Alam A, Khan M, McCallum RW, Johnson DD (2013) Site-preference and valency for rare-earth sites in (R–Ce) 2Fe14B magnets. Appl Phys Lett 102:042402-1–042402-4CrossRef

18.

Alam A, Johnson DD (2014) Mixed valency and site-preference chemistry for cerium and its compounds: a predictive density-functional theory study. Phys Rev B 89:235126–1–235126-4CrossRef

19.

Wang J, Liang L, Zhang LT et al (2016) Mixed-valence state of Ce and its individual atomic moments in Ce₂Fe₁₄B studied by soft X-ray magnetic circular dichroism. Intermetallics 69:42–46CrossRef

20.

Pathak AK, Gschneidner KA, Khan M et al (2016) High performance Nd–Fe–B permanent magnets without critical elements. J Alloys Compd 668:80–86CrossRef

21.

Pei K, Zhang X, Lin M et al (2016) Effects of Ce-substitution on magnetic properties and microstructure of Nd–Pr–Fe–B melt-spun powders. J Magn Magn Mater 398:96–100CrossRef

22.

Herbst JF (1991) R₂Fe₁₄B materials: intrinsic properties and technological aspects. Rev Mod Phys 63:819CrossRef

23.

Chen ZH, Shen BG, Zhang JX et al (1997) Mössbauer spectroscopy and X-Ray diffraction studies of the phase composition of crystallized Nd_xFe_81.5−xB_18.5 alloys with 7⩽x⩽15. Chin Phys Lett 14:387CrossRef

24.

Buschow KHJ, Van Wieringen JS (1970) Crystal structure and magnetic properties of cerium-iron compounds Phys. Status Solid B 42:231–239CrossRef

25.

Atzmony U, Dariel MP (1974) Magnetic anisotropy and hyperfine interactions in CeFe₂, GdFe₂, and LuFe₂. Phys Rev B 10:2060CrossRef

26.

Hautot D, Long GJ, Grandjean F, Isnard O (2000) Mössbauer spectral study of the magnetic properties of Ce₂Fe₁₇H_x (x = 0, 1, 2, 3, 4, and 5). Phys Rev B 62:11731CrossRef

27.

Farrell J, Wallace WE (1964) Magnetic Characteristics of CeFe₂. J Chem Phys 41:1524–1525CrossRef

28.

Van Noort HM, De Mooij DB, Buschow KHJ (1985) 57Fe Mössbauer spectroscopy study of the magnetic properties of R₂Fe₁₄B compounds (R = Ce, Nd, Gd, Y). J Appl Phys 57:5414–5419CrossRef

29.

Gubbens PCM, Vanloef JJ, Buschow KHJ (1974) Magnetic and electric properties of R₂Fe₁₇ compounds studied by means of the Mössbauer effect. J Phys 35:C6-617–C6-620

30.

Givord D, Lemaire R (1974) Magnetic transition and anomalous thermal expansion in R₂Fe₁₇ compounds. IEEE Trans Magn 10:109–113CrossRef

31.

Roulin G, Teillet J, Fnidiki A, Labulle B, Ochin P (1994) X-ray and Mössbauer study of rapidly solidified Ce20Fe80 ribbons; effect of the quenching rate. Hyperfine Interact 88:65–71CrossRef

32.

Kostikas A, Papaefthymiou V, Simopoulos A, Hadjipanayis GC (1985) Phase analysis of Fe–Nd–B alloys by Mossbauer spectroscopy. J Phys F Metal Phys 15:L129CrossRef

33.

Pei K, Lin M, Yan A et al (2016) Effects of annealing process on magnetic properties and structures of Nd–Pr–Ce–Fe–B melt-spun powders. J Magn Magn Mater 406:239–243CrossRef

34.

Yan CJ, Guo S, Chen RJ et al (2014) Phase constitution and microstructure of Ce–Fe–B strip-casting alloy. Chin Phys B 23:107501CrossRef

35.

Schrefl T, Fidler J, Kronmüller H (1994) Remanence and coercivity in isotropic nanocrystalline permanent magnets. Phys Rev B 49:6100CrossRef

36.

Hernando A, Navarro I, González JM (1992) On the role of intergranular exchange coupling in the magnetization process of permanent-magnet materials. Europhys Lett 20:175CrossRef

37.

Schrefl T, Schmidts HF, Fidler J, Kronmüller H (1993) The role of exchange and dipolar coupling at grain boundaries in hard magnetic materials. J Magn Magn Mater 124:251–261CrossRef

38.

Kronmüller H (1987) Theory of nucleation fields in inhomogeneous ferromagnets. Phys Status Solid B 144:385–396CrossRef

39.

Hono K, Sepehri-Amin H (2012) Strategy for high-coercivity Nd–Fe–B magnets. Scri Mater 67:530–535CrossRef

40.

Susner M A, Conner B S, Saparov B I, et al. (2015) Growth and Characterization of Ce-Substituted Nd2Fe14B Single Crystals. arXiv preprint, arXiv:1508.07792, 2015

41.

Hussain M, Zhao LZ, Zhang C et al (2016) Composition-dependent magnetic properties of melt-spun La or/and Ce substituted nanocomposite NdFeB alloys. Phys B Cond Mater 483:69–74CrossRef

42.

Sun AZ, Wu S, Xu WH, Wang J et al (2012) Nd₂Fe₁₇ nanograins effect on the coercivity of HDDR NdFeB magnets with low boron content. Int J Min Met Mater 19:236–239CrossRef

Titel: Mössbauer and TEM studies of the phase composition and structure of (Nd1−x Ce x )32.7Fe66.22B1.08 ribbons
verfasst von: R. Q. Wang
Y. Liu
J. Li
W. Zhao
X. J. Yang
Publikationsdatum: 09.03.2017
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 12/2017
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-017-0967-z

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