THE EFFECT OF ION IRRADIATION ON NANOCRYSTALLIZATION AND SURFACE RELIEF OF A RIBBON FROM [Fe.sub.72.5][Cu.sub.1][Nb.sub.2][Mo.sub.1.5][Si.sub.14][B.sub.9] ALLOY

Using the methods of X-ray diffraction and atomic force microscopy, the process of crystallization of an amorphous [Fe.sub.72.5][Cu.sub.1][Nb.sub.2][Mo.sub.1.5][Si.sub.14][B.sub.9] alloy irradiated with accelerated [Ar.sup.+] ions is investigated. It is found out that an irradiation by the [Ar.sup.+...

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Bibliographic Details
Published in:Russian physics journal 2018-02, Vol.60 (10), p.1823
Main Authors: Romanov, I.Yu, Gushchina, N.V, Ovchinnikov, V.V, Makhinko, F.F, Stepanov, A.V, Medvedev, A.I, Starodubtsev, Yu.N, Belozerov, V.Ya, Loginov, B.A
Format: Article
Language:English
Subjects:
Atomic force microscopy
Metallic glasses
Precipitation (Meteorology)
Specialty metals industry
X-ray diffraction
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Summary:Using the methods of X-ray diffraction and atomic force microscopy, the process of crystallization of an amorphous [Fe.sub.72.5][Cu.sub.1][Nb.sub.2][Mo.sub.1.5][Si.sub.14][B.sub.9] alloy irradiated with accelerated [Ar.sup.+] ions is investigated. It is found out that an irradiation by the [Ar.sup.+] ions with the energy 30 keV at the ion current density 300 [micro]A/[cm.sup.2] fluence 3.75 x [10.sup.15] [cm.sup.-2], irradiation time ~2 s, ion-beam short-duration heating up to 350[degrees]C, which is 150[degrees]C lower than the thermal crystallization threshold) results in a complete crystallization of this amorphous alloy (throughout the bulk of a 25 [micro]m ribbon) followed by precipitation of solid solution crystals of [alpha]-Fe(Si), close in its composition to [Fe.sub.80][Si.sub.20], stable phase of [Fe.sub.3]Si, and metastable hexagonal phases. By the methods of atomic force and scanning tunneling microscopy it is shown that nanocrystallization caused by ion irradiation is accompanied by surface relief changes both on the irradiated and unirradiated sides of the [Fe.sub.72.5][Cu.sub.1][Nb.sub.2][Mo.sub.1.5][Si.sub.14][B.sub.9] alloy ribbon at the depth exceeding by a factor of [10.sup.3] that of the physical ion penetration for this material. The data obtained, taking into account a significant temperature decrease and multiple acceleration of the crystallization process, serve an evidence of the radiation-dynamic influence of accelerated ions on the metastable amorphous medium. Keywords: ion irradiation, magnetically soft alloy, crystallization, nanocrystalline structure, X-ray diffraction, atomic force microscopy.
ISSN:1064-8887
DOI:10.1007/s11182-018-1288-7