Direct Formation of Hard‐Magnetic Tetrataenite in Bulk Alloy Castings

Ivanov, Yurii P.; Sarac, Baran; Ketov, S.V.; Eckert, Jürgen; Greer, A.L.

doi:10.1002/advs.202204315

Cited by 21 publications

(11 citation statements)

References 35 publications

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“…The relative areas within the overall spectrum corresponding to the three phase types, equivalent to their relative volume fractions, were determined as 66% ± 5% L1 0 , 17% ± 10% A1 and 17% ± 5% PM. This value for the volume fraction of the L1 0 phase is among the highest reported for FeNi alloys, and the highest for naturally occurring FeNi [29]. The angle between ⃗ k γ and B hf , where B hf is taken as the average for the L1 0 and A1 phases, was found to be Θ = 49 • ± 5 • for this measurement, see figure 16.…”

Section: Resultsmentioning

confidence: 51%

“…However, the disordered-fcc A1 parent phase (space group 225, Fm 3m) is very close in energy to that of the L1 0 phase, and the kinetics of formation of the ordered phase is very slow [26]. FeNi in the L1 0 phase can be synthetically produced [27][28][29] in ultra-thin film form but a consistent large-scale synthesis method has not yet been demonstrated.…”

Section: Meteoritic Feni Phase Analysismentioning

confidence: 99%

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Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

O’Brien,

Ahmadian Baghbaderani,

Keller

et al. 2023

Meas. Sci. Technol.

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A unique method is presented for the acquisition and analysis of 57Fe backscatter Mössbauer spectra with simultaneous detection of the resonant 14.4 keV γ-rays and characteristic 6.4 keV x-rays, using a Multi-Parameter Analyser (MPA) constructed on the basis of commercial Analogue to Digital Converters (ADCs) and custom-built high-speed digital latches. The system allows for the simultaneous registration of Doppler-modulated velocities and photon energies, with up to 4096 and 8192 digital channels respectively. This arrangement is in contrast to most related systems, which detect at a single energy window per detector. Samples of arbitrary atomic structure, morphology and surface topography can be studied without altering the setup or the analysis procedure, provided that the samples are at least micrometre sized. The hardware and software that are used to acquire data with minimal dead time are described and the custom and self-contained methods for post-measurement energy discrimination, background correction and velocity-axis folding are discussed. The data are fit using a general Hamiltonian model for the nuclear energy levels of 57Fe and a quantum mechanical description of the angular momentum coupling is utilised, with consideration of the crystalline and chemical disorder of the sample under examination. Three examples of distinct magnetic systems, with thicknesses ranging from 5 µm to 6 mm, that were studied using this method are presented, these are: an amorphous CoFeB-based ribbon with ultra-soft coercivity for high-frequency applications, magnetically hard Nd-Fe-B thick films on Si substrates, examined in both pre- and post-annealed states, and a sample from the nickel-rich iron meteorite NWA 6259 that contains the atomically ordered, elevated coercivity, L10 phase, tetrataenite.The wide applicability and usefulness of this method is thus demonstrated on three distinct sample morphologies that required little to no surface preparation prior to examination.

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Section: Resultsmentioning

confidence: 51%

Section: Meteoritic Feni Phase Analysismentioning

confidence: 99%

Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

O’Brien,

Ahmadian Baghbaderani,

Keller

et al. 2023

Meas. Sci. Technol.

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“…Notably, the materials of this current study do not contain large amounts of metalloid alloying additions, such as phosphorus and carbon, as were utilized in other works that reported synthesis of tetrataenite. [18,50,51] Preliminarily speaking, the combination of stress and magnetic field applied in-situ during thermal treatment has accomplished in 6 weeks what Nature requires millions of years to achieve. As the lattice diffusivity of the FeNi equiatomic composition has been reported as ≈1 × 10 −27 cm 2 s −1 at T = 573 K, [52] the process utilized in this work is estimated to accelerate diffusion by ten or more orders of magnitude.…”

Section: Discussionmentioning

confidence: 99%

Accelerating Nature: Induced Atomic Order in Equiatomic FeNi

Lewis,

Stamenov

2023

Advanced Science

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The production of locally atomically ordered FeNi (known by its meteoric mineral name, tetrataenite) is confirmed in bulk samples by simultaneous conversion X‐ray and backscattered γ‐ray 57Fe Mössbauer spectroscopy. Up to 22 volume percent of the tetragonal tetrataenite phase is quantified in samples thermally treated under simultaneous magnetic‐ and stress‐field conditions for a period of 6 weeks, with the remainder identified as the cubic FeNi alloy. In contrast, all precursor samples consist only of the cubic FeNi alloy. Data from the processed alloys are validated using Mössbauer parameters derived from natural meteoritic tetrataenite. The meteoritic tetrataenite exhibits a substantially higher degree of atomic order than do the processed samples, consistent with their low uniaxial magnetocrystalline anisotropy energy of ≈1 kJ·m−3. These results suggest that targeted refinements to the processing conditions of FeNi will foster greater atomic order and increased magnetocrystalline anisotropy, leading to an enhanced magnetic energy product. These outcomes also suggest that deductions concerning paleomagnetic conditions of the solar system, as derived from meteoritic data, may warrant re‐examination and re‐evaluation. Additionally, this work strengthens the argument that tetrataenite may indeed become a member of the advanced permanent magnet portfolio, helping to meet rapidly escalating green energy imperatives.

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“…[11] Other authors demonstrated epitaxial thin-film growth by alternate monoatomic layer deposition on suitable substrate buffer layers. [12,13] A very recent and successful effort to form hard-magnetic tetrataenite by bulk alloy casting has been reported by Ivanov et al [14] .…”

Section: Introductionmentioning

confidence: 99%

Atomic Migration and Ordering of Binary Ferromagnetic Intermetallic L1₀Phases and Influences of Alloying Elements and Electric Fields

2023

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The ordered body‐centered tetragonal intermetallic phase of FeNi is a promising candidate for high‐performance permanent magnets without rare‐earth elements. However, on earth FeNi is found naturally only in the disordered face‐centered‐cubic A1 phase. Herein, the atomic migration and ordering processes in binary intermetallic phases are investigated within the framework of density‐functional theory. The main objectives are 1) to develop a thorough understanding of the thermally activated diffusion processes at the atomic scale and 2) to make a critical assessment in how far electric field and current effects can be effective means for an enhanced hardening‐by‐ordering of disordered, soft‐ferromagnetic alloys. The scope is extended from FeNi to the hard‐ferromagnetic phases of FePt, FePd, MnAl, and MnGa as well as ternary Fe(Pt,Ni) alloys. These materials cover a wide range of thermal‐ordering time scales and related experimental feasibility.

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Direct Formation of Hard‐Magnetic Tetrataenite in Bulk Alloy Castings

Cited by 21 publications

References 35 publications

Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Accelerating Nature: Induced Atomic Order in Equiatomic FeNi

Atomic Migration and Ordering of Binary Ferromagnetic Intermetallic L1₀Phases and Influences of Alloying Elements and Electric Fields

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Direct Formation of Hard‐Magnetic Tetrataenite in Bulk Alloy Castings

Cited by 21 publications

References 35 publications

Hardware, methodology and applications of 2+D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Hardware, methodology and applications of 2+D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Accelerating Nature: Induced Atomic Order in Equiatomic FeNi

Atomic Migration and Ordering of Binary Ferromagnetic Intermetallic L10Phases and Influences of Alloying Elements and Electric Fields

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Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Hardware, methodology and applications of 2⁺D backscatter Mössbauer spectroscopy with simultaneous x-ray and γ-ray detection

Atomic Migration and Ordering of Binary Ferromagnetic Intermetallic L1₀Phases and Influences of Alloying Elements and Electric Fields