Structural state and phase composition of surface nickel layers implanted with titanium ions

I. A. Kurzina, I. A. Bozhko, Mark Petrovich Kalashnikov, Denis Olegovich Sivin, I. B. Stepanov, Yu P. Sharkeev, E. V. Kozlov

Результат исследований: Материалы для журнала › Статья › рецензирование

3 Цитирования (Scopus)

Аннотация

The elemental and phase composition, structural state, and mechanical properties of surface nickel layers modified by implantation of titanium ions using a Raduga-5 vacuum-arc ion and plasma source were investigated. An increase in the thickness of ion-implanted nickel layer from 0.6 to 1.6 μm with increasing ion-implantation dose from 0.8.10¹⁸ to 2.9.10¹⁸ cm^-2 was observed. It was established that ion-implanted surface nickel layers contain fine-grained intermetallic phases NiTi, Ni₃Ti, and NiTi₂ and a solid solution of Ti in Ni. It was shown that the microhardness of surface nickel layers implanted with Ti ions exceeds that of the initial target material.

Язык оригинала	Английский
Страницы (с-по)	681-683
Число страниц	3
Журнал	Bulletin of the Russian Academy of Sciences: Physics
Том	70
Номер выпуска	4
Состояние	Опубликовано - 2006

ASJC Scopus subject areas

Physics and Astronomy(all)

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Цитировать

Structural state and phase composition of surface nickel layers implanted with titanium ions. / Kurzina, I. A.; Bozhko, I. A.; Kalashnikov, Mark Petrovich ; Sivin, Denis Olegovich ; Stepanov, I. B.; Sharkeev, Yu P.; Kozlov, E. V.

В: Bulletin of the Russian Academy of Sciences: Physics, Том 70, № 4, 2006, стр. 681-683.

Результат исследований: Материалы для журнала › Статья › рецензирование

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abstract = "The elemental and phase composition, structural state, and mechanical properties of surface nickel layers modified by implantation of titanium ions using a Raduga-5 vacuum-arc ion and plasma source were investigated. An increase in the thickness of ion-implanted nickel layer from 0.6 to 1.6 μm with increasing ion-implantation dose from 0.8.1018 to 2.9.1018 cm-2 was observed. It was established that ion-implanted surface nickel layers contain fine-grained intermetallic phases NiTi, Ni3Ti, and NiTi2 and a solid solution of Ti in Ni. It was shown that the microhardness of surface nickel layers implanted with Ti ions exceeds that of the initial target material.",

author = "Kurzina, {I. A.} and Bozhko, {I. A.} and Kalashnikov, {Mark Petrovich} and Sivin, {Denis Olegovich} and Stepanov, {I. B.} and Sharkeev, {Yu P.} and Kozlov, {E. V.}",

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T1 - Structural state and phase composition of surface nickel layers implanted with titanium ions

AU - Kurzina, I. A.

AU - Bozhko, I. A.

AU - Kalashnikov, Mark Petrovich

AU - Sivin, Denis Olegovich

AU - Stepanov, I. B.

AU - Sharkeev, Yu P.

AU - Kozlov, E. V.

PY - 2006

Y1 - 2006

N2 - The elemental and phase composition, structural state, and mechanical properties of surface nickel layers modified by implantation of titanium ions using a Raduga-5 vacuum-arc ion and plasma source were investigated. An increase in the thickness of ion-implanted nickel layer from 0.6 to 1.6 μm with increasing ion-implantation dose from 0.8.1018 to 2.9.1018 cm-2 was observed. It was established that ion-implanted surface nickel layers contain fine-grained intermetallic phases NiTi, Ni3Ti, and NiTi2 and a solid solution of Ti in Ni. It was shown that the microhardness of surface nickel layers implanted with Ti ions exceeds that of the initial target material.

AB - The elemental and phase composition, structural state, and mechanical properties of surface nickel layers modified by implantation of titanium ions using a Raduga-5 vacuum-arc ion and plasma source were investigated. An increase in the thickness of ion-implanted nickel layer from 0.6 to 1.6 μm with increasing ion-implantation dose from 0.8.1018 to 2.9.1018 cm-2 was observed. It was established that ion-implanted surface nickel layers contain fine-grained intermetallic phases NiTi, Ni3Ti, and NiTi2 and a solid solution of Ti in Ni. It was shown that the microhardness of surface nickel layers implanted with Ti ions exceeds that of the initial target material.

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