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Long-Range Effects in the FePd2Au Alloy Under Ion Bombardment

The effect is studied of ion bombardment (Ar + , E = 20 keV, j = 100 μA/cm 2 , F = 5 × 10 16 to 10 18 cm −2 ) and thermal annealing on the atomic and magnetic structure of the FePd 2 Au alloy after 80% cold plastic deformation and quenching from 1200°C. It is established by the Mössbauer effect and...

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Bibliographic Details
Published in:Fusion technology 2001-05, Vol.39 (3), p.1217-1228
Main Authors: Goloborodsky, Boris Yu, Ovchinnikov, Vladimir V., Semionkin, Vladimir A.
Format: Article
Language:English
Online Access:Get full text
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Summary:The effect is studied of ion bombardment (Ar + , E = 20 keV, j = 100 μA/cm 2 , F = 5 × 10 16 to 10 18 cm −2 ) and thermal annealing on the atomic and magnetic structure of the FePd 2 Au alloy after 80% cold plastic deformation and quenching from 1200°C. It is established by the Mössbauer effect and X-ray diffraction that ion irradiation at 350°C (for 1.5 to 30 min) causes formation in the disordered face-centered-cubic matrix of a long-range atomic order (of an Fe atom sublattice at an anomalously large depth up to 20 μm, at an ion projected range of ~13 nm) accompanied by ferromagnetic to asperomagnetic phase transition (T meas = 77 K). Annealing at T = 350°C up to 30 min in the absence of irradiation does not result in any noticeable changes in the atomic and magnetic structure. Atom mobility (the ordered structure formation rate) in the course of irradiation at 350°C is approximately the same as observed in the case of annealing at 700°C.
ISSN:0748-1896
DOI:10.13182/FST01-A176