Origin of grey spots on the surface of metallic glasses under Ar+ ion irradiation: The surface and volume properties

Okunev, V. D.; Samoilenko, Z. A.; D’yachenko, T. A.; Pushenko, E. I.; Баран, М.; Szymczak, R.; Szymczak, H.; Gierłowski, P.; Khmelevskaya, V. S.; Antoshina, I. A.

doi:10.1016/j.apsusc.2007.11.033

Cited by 6 publications

(15 citation statements)

References 23 publications

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“…Its extent of application is expanding into the electronics, industrial, machinery, and other fields, and it has attracted much attention and research interest [6][7][8]. Because metallic glass has material characteristics without lattice defects [9], the study of its resistance to irradiation damage is of great interest [10][11][12][13]. Metallic glass has a good irradiation resistance below its crystallization temperature [14].…”

Section: Introductionmentioning

confidence: 99%

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Hou

Mei

Zhang

et al. 2016

Applied Surface Science

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a b s t r a c tMetallic glass Ta 38 Ni 62 strips, metallic W, and V 87.5 Cr 4.17 Ti 4.17 Nb 4.17 alloy were irradiated using a 500 keV He 2+ ion beam at different fluence to compare the metallic glass resistance to irradiation. Metallic glass Ta 38 Ni 62 remained amorphous at different He 2+ irradiation fluence. Transmission electron microscopy analysis revealed the presence of helium bubbles at the end of the range of helium ions in the metallic glass. No significant damage resulted in the metallic glass surface, and the root mean square roughness increased nonlinearly with the increase in fluence. At 1 × 10 18 ions/cm 2 , metallic W appeared in larger sunken areas on the surface and V 87.5 Cr 4.17 Ti 4.17 Nb 4.17 alloy experienced multi-layer flaking. The metallic glass Ta 38 Ni 62 resistance to He 2+ ion beam irradiation was better than that of metallic W, and that of the V 87.5 Cr 4.17 Ti 4.17 Nb 4.17 alloy was the poorest.

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Section: Introductionmentioning

confidence: 99%

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Hou

Mei

Zhang

et al. 2016

Applied Surface Science

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“…Their x-ray patterns are represented by a bright diffusive maximum (halo) centred at ∼ 34.5 • and a background with fluctuation maxima of diffusive character (figure 2). The comparative analysis of the basic fractions of structure for an amorphous alloy was carried out using the known tabular data for crystalline phases of this material [15,16].…”

Section: Structurementioning

confidence: 99%

“…Diffraction maxima appear as a consequence of the interference of x-rays scattered by fragments of the same type, in parallel located planes, belonging to the atomic groupings of the mesoscopic scale, i.e. to the clusters of the sizes ranging from several tens up to several hundreds of angstrom, with smeared peripheral areas [16]. Three phases, metallic α-Fe-Cr, metastable orthorhombic o-Fe 3 B, and tetrahedral t-Fe 3 B phase are shown on the diffraction patterns (figure 2).…”

Section: Structurementioning

confidence: 99%

“…After irradiation, the maximal size of the Fe-Cr clusters decreases down to 130-150 Å, because large clusters in disordered medium are sources of considerable internal stresses [21] and the relaxation of these stresses is realized under decrease in size of the clusters. The central part of a cluster with D = 150 Å in size and h = D/3 = 50 Å [16] in thickness contains 12α-Fe planes. The peripheral area comprises 6α-Cr planes around the central part.…”

Section: Structurementioning

confidence: 99%

“…The resonance lines (1) and ( 3) are much more intense in the irradiated sample, while the line (2) has practically the same magnitude. After irradiation, due to a decrease in the volume of intercluster disordered medium [16], the broad absorption band at H res ∼ 3300 Oe no longer can be distinguished from the intense line (3).…”

Section: The Magnetic Resonance Absorptionmentioning

confidence: 99%

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Enhancement of local superconductivity in ferromagnetic FeCrB metallic glass by Ar⁺ion irradiation

Okunev¹,

Samoilenko²,

Szewczyk³

et al. 2011

J. Phys.: Condens. Matter

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We have reinforced local superconductivity in ferromagnetic Fe(67)Cr(18)B(15) metallic glasses by ion irradiation. Superconductivity in this medium appears due to the presence of large-scale layered clusters of metallic Fe-Cr phase, 150-230 Å in size, with a ferromagnetic (or superparamagnetic) Fe-rich core and nonmagnetic Cr-rich superconducting shell. Here we show that due to the intensification of concentration phase separation in the Fe-Cr clusters under ion (Ar(+)) irradiation, the volume of the superconducting phase increases from the initial 0.4-0.5% up to 7-8%. After irradiation, the resistivity jump Δρ/ρ in the temperature range T=3.1-3.6 K increases ∼14 times, reaching 19%, as compared to 1.36% for the initial sample. In the interval of T=3.1-3.6 K, the rate of resistance change reaches 79% K(-1) for the irradiated sample instead of 3.6% K(-1) for the initial sample. In the same temperature interval, the rate of magnetoresistance change increases from 3% K(-1) for the initial sample up to 70% K(-1) after irradiation.

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Changes in cluster magnetism and suppression of local superconductivity in amorphous FeCrB alloy irradiated by Ar+ ions

Okunev¹,

Samoilenko²,

Szymczak

et al. 2016

Journal of Magnetism and Magnetic Materials

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Origin of grey spots on the surface of metallic glasses under Ar+ ion irradiation: The surface and volume properties

Cited by 6 publications

References 23 publications

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Enhancement of local superconductivity in ferromagnetic FeCrB metallic glass by Ar⁺ion irradiation

Changes in cluster magnetism and suppression of local superconductivity in amorphous FeCrB alloy irradiated by Ar+ ions

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Origin of grey spots on the surface of metallic glasses under Ar+ ion irradiation: The surface and volume properties

Cited by 6 publications

References 23 publications

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Resistance to He2+ irradiation damage in metallic glass Ta38Ni62

Enhancement of local superconductivity in ferromagnetic FeCrB metallic glass by Ar+ion irradiation

Changes in cluster magnetism and suppression of local superconductivity in amorphous FeCrB alloy irradiated by Ar+ ions

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Product

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Enhancement of local superconductivity in ferromagnetic FeCrB metallic glass by Ar⁺ion irradiation