High-power ion-beam-induced melting and mixing in deposited structures

Abstract

Results are presented on mixing and melting in single-layered Cu/Mo and Pb/Fe and multilayered Pb/Fe/Pb, Al/Cu/Fe and Al/Pb/Fe systems exposed to high-power ion beams (HPIBs) of nanosecond duration. Irradiation has been performed using 70% C⁺ and 30% H⁺ ions with energies 0.2-0.5 MeV and energy flows of 1-2.2 J cm^-2. It was demonstrated that metastable states were produced in near-surface layers after HPIB irradiation. New states unknown before in the literature have been revealed.

Original language	English
Pages (from-to)	175-179
Number of pages	5
Journal	Materials Science and Engineering A
Volume	115
Issue number	C
DOIs	https://doi.org/10.1016/0921-5093(89)90676-X
Publication status	Published - 1 Aug 1989

ASJC Scopus subject areas

Materials Science(all)
Engineering(all)

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10.1016/0921-5093(89)90676-X

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Podrebnjak, A. D., Remnev, G. E., & Plotnikov, S. V. (1989). High-power ion-beam-induced melting and mixing in deposited structures. Materials Science and Engineering A, 115(C), 175-179. https://doi.org/10.1016/0921-5093(89)90676-X

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N2 - Results are presented on mixing and melting in single-layered Cu/Mo and Pb/Fe and multilayered Pb/Fe/Pb, Al/Cu/Fe and Al/Pb/Fe systems exposed to high-power ion beams (HPIBs) of nanosecond duration. Irradiation has been performed using 70% C+ and 30% H+ ions with energies 0.2-0.5 MeV and energy flows of 1-2.2 J cm-2. It was demonstrated that metastable states were produced in near-surface layers after HPIB irradiation. New states unknown before in the literature have been revealed.

AB - Results are presented on mixing and melting in single-layered Cu/Mo and Pb/Fe and multilayered Pb/Fe/Pb, Al/Cu/Fe and Al/Pb/Fe systems exposed to high-power ion beams (HPIBs) of nanosecond duration. Irradiation has been performed using 70% C+ and 30% H+ ions with energies 0.2-0.5 MeV and energy flows of 1-2.2 J cm-2. It was demonstrated that metastable states were produced in near-surface layers after HPIB irradiation. New states unknown before in the literature have been revealed.

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