Detailed study of NdFe2 and additional results relative to PrFe 2 and YbFe2. Comparison with other R.E. Fe2 compounds

Meyer, C.; Hartmann‐Boutron, F.; Gros, Y.; Berthier, Y.; Buévoz, J.L.

doi:10.1051/jphys:01981004204060500

Cited by 75 publications

(26 citation statements)

References 20 publications

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“…The samples of GdFe 2 and YbFe 2 were of the pure cubic C15 structure, and their Mo È ssbauer spectra well reproduced those published elsewhere (see, e.g. [4]), excluding a small (`10%) admixture of an unidentified nonmagnetic phase. The sample of YMn 2 was of the hexagonal C14 structure in accord with the data [13].…”

Section: Methodsmentioning

confidence: 55%

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Hyperfine Interactions of111Cd in Some Rare Earth Laves Phases RT2 (T = Mn, Fe)

Komissarova

Ryasny

Сорокин

et al. 1999

phys. stat. sol. (b)

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Radioactive 111In was introduced into the Laves phases YMn2, GdFe2 and YbFe2 synthesized under pressure of 8 GPa, and the hyperfine interaction of the daughter 111Cd was measured by the perturbed angular correlation method. In the obtained hexagonal (C14) phase YMn2 111In is substituted for Mn, predominantly at h‐sites, experiencing there an electric quadrupole interaction with νQ = 32.0(5) MHz and η = 0.51(5) at 300 K. In GdFe2 and YbFe2 (cubic C15) most of the 111In–111Cd probes (≈︂80%) substituted mainly for the rare earth atoms and experienced a magnetic hyperfine field |Bhf| = 2.92(4) T and 3.32(7) T, respectively, at 300 K. The results are discussed together with the published data for the normal cubic YMn2, and for LuFe2 and ZrFe2.

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Section: Methodsmentioning

confidence: 55%

“…due to the R±Fe interaction is very small as compared to the m.h.f. created by the total 4f-moment [4]. It should be noted that it is difficult to distinguish between the contributions due to the 4f±5d interaction and the volume effect (the lanthanide contraction).…”

Section: Introductionmentioning

confidence: 98%

Hyperfine Interactions of111Cd in Some Rare Earth Laves Phases RT2 (T = Mn, Fe)

Komissarova

Ryasny

Сорокин

et al. 1999

phys. stat. sol. (b)

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“…We suggest here that the existence of REFe 2 phase be responsible for Ce segregation. It was established that the large atom radius prevent to obtain stable NdFe 2 , LaFe 2 , PrFe 2 and YbFe 2 phases 27 . Cannon et al .…”

Section: Discussionmentioning

confidence: 99%

Understanding the element segregation and phase separation in the Ce-substituted Nd-(Fe,Co)-B based alloys

Zhao¹,

Zhang²,

Ahmed³

et al. 2018

Sci Rep

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Ce substituted Nd2Fe14B (2:14:1)-type permanent magnets have shown increasing potential in the applications due to their high properties/cost ratio. However, the element segregation and phase separation in the Ce substituted magnets have not been fully understood yet. In this work, (Nd1−xCex)25Fe40Co20Al4B11 alloys with high coercivities were prepared by copper mold casting. Based on detailed microstructure and composition analysis, the segregation of rare earth (RE) elements was observed in the as-cast alloys. Nd element prefers to enter into the 2:14:1 phase and the Ce element enter into the 1:2 phase. The existence of the 1:2 phase can promote the element segregation. The alloy shows an abnormal increase of coercivity from 641 kA/m for x = 0.2 to 863 kA/m for x = 0.3. This increase could be attributed to the phase separation of the 2:14:1 phase, which has been confirmed by the microstructural characterization. The present data provides useful information for exploring Ce-containing Nd-Fe-B magnets.

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“…8 Figure 2(b) shows the composition dependence of the Curie temperature T C of the MgCu 2 -type phase of Sm 1Àx Nd x Fe 2 alloys. It is seen that, due to the lower T C of NdFe 2 (578 K) 4 compared with SmFe 2 , T C decreases from 675 K to 655 K with x increasing from 0 to 0.30. Figure 3 shows the thermomagnetic (Zero Field Cooling, ZFC) curves of Sm 1Àx Nd x Fe 2 alloys at an applied field of 50 Oe.…”

Section: Methodsmentioning

confidence: 95%

“…3 NdFe 2 has the same anisotropy sign as DyFe 2 but much smaller positive magnetostriction (2000 ppm at 0 K). 4 Hari Babu et al have investigated the magnetostrictive properties of Sm 1Àx Nd x Fe 1.93 . A polycrystalline magnetostriction as large as À1572 ppm was found for Sm 0.88 Nd 0.12 Fe 1.93 due to the anisotropy compensation between Sm 3þ and Nd 3þ ions.…”

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confidence: 99%

Magnetostrictive properties of the heavy-rare-earth-free Sm1-xNdxFe2 compounds

Wang

Ren

Ying

et al. 2013

Journal of Applied Physics

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In this work, we report the magnetostrictive properties of Sm1-xNdxFe2 compounds, which are free of (expensive) heavy rare earths. Anomalies are observed in the temperature dependence of both the magnetization and the magnetostriction of these compounds, which are ascribed to spin-reorientation transitions. At low fields, the quasi-static magnetostriction and the piezomagnetic coefficient d33 of Sm0.88Nd0.12Fe2 are larger than those of SmFe2, which is due to the compensation of the anisotropy of the Sm3+ and Nd3+ ions. At a magnetic-field strength of 6 kOe, the static magnetostriction of Sm0.88Nd0.12Fe2 is −1244 ppm at 225 K and −1022 ppm at 290 K and, at a bias magnetic field of 700 Oe, the d33 equals 0.55 ppm/Oe (6.8 nm/A).

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Detailed study of NdFe2 and additional results relative to PrFe 2 and YbFe2. Comparison with other R.E. Fe2 compounds

Cited by 75 publications

References 20 publications

Hyperfine Interactions of111Cd in Some Rare Earth Laves Phases RT2 (T = Mn, Fe)

Hyperfine Interactions of111Cd in Some Rare Earth Laves Phases RT2 (T = Mn, Fe)

Understanding the element segregation and phase separation in the Ce-substituted Nd-(Fe,Co)-B based alloys

Magnetostrictive properties of the heavy-rare-earth-free Sm1-xNdxFe2 compounds

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