Influence of energy parameters on the product of plasmodynamic synthesis of ZnO

A. A. Sivkov, A. S. Ivashutenko, I. A. Rakhmatullin, Yu L. Shanenkova, L. V. Osokina, A. I. Tsimmerman

Отделение электроэнергетики и электротехники

Результат исследований: Материалы для журнала › рецензирование

Аннотация

This paper shows the possibility to synthesize directly the nanodispersed zinc oxide (ZnO) in a hyper-velocity jet of an electric discharge erosive plasma. The investigation results demonstrate how the increase in the supplied energy W(t) influences the phase composition, structure, and dispersity of the synthesized powdered ZnO. Using the X-ray diffractometry and transmission electron microscopy it is shown that the obtained product contains only hexagonal ZnO. It is experimentally established that when W(t) varies from 13.7 to 22.6 kJ, the average particle size of the resulting product increases in the range from 80 nm to 95 nm.

Язык оригинала	Английский
Номер статьи	042063
Журнал	Journal of Physics: Conference Series
Том	1115
Номер выпуска	4
DOI	https://doi.org/10.1088/1742-6596/1115/4/042063
Состояние	Опубликовано - 27 ноя 2018
Событие	6th International Congress on Energy Fluxes and Radiation Effects 2018, EFRE 2018 - Tomsk, Российская Федерация Продолжительность: 16 сен 2018 → 22 сен 2018

ASJC Scopus subject areas

Physics and Astronomy(all)

Доступ к документу

10.1088/1742-6596/1115/4/042063

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Цитировать

Influence of energy parameters on the product of plasmodynamic synthesis of ZnO. / Sivkov, A. A.; Ivashutenko, A. S.; Rakhmatullin, I. A.; Shanenkova, Yu L.; Osokina, L. V.; Tsimmerman, A. I.

В: Journal of Physics: Conference Series, Том 1115, № 4, 042063, 27.11.2018.

Результат исследований: Материалы для журнала › рецензирование

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title = "Influence of energy parameters on the product of plasmodynamic synthesis of ZnO",

abstract = "This paper shows the possibility to synthesize directly the nanodispersed zinc oxide (ZnO) in a hyper-velocity jet of an electric discharge erosive plasma. The investigation results demonstrate how the increase in the supplied energy W(t) influences the phase composition, structure, and dispersity of the synthesized powdered ZnO. Using the X-ray diffractometry and transmission electron microscopy it is shown that the obtained product contains only hexagonal ZnO. It is experimentally established that when W(t) varies from 13.7 to 22.6 kJ, the average particle size of the resulting product increases in the range from 80 nm to 95 nm.",

author = "Sivkov, {A. A.} and Ivashutenko, {A. S.} and Rakhmatullin, {I. A.} and Shanenkova, {Yu L.} and Osokina, {L. V.} and Tsimmerman, {A. I.}",

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T1 - Influence of energy parameters on the product of plasmodynamic synthesis of ZnO

AU - Sivkov, A. A.

AU - Ivashutenko, A. S.

AU - Rakhmatullin, I. A.

AU - Shanenkova, Yu L.

AU - Osokina, L. V.

AU - Tsimmerman, A. I.

PY - 2018/11/27

Y1 - 2018/11/27

N2 - This paper shows the possibility to synthesize directly the nanodispersed zinc oxide (ZnO) in a hyper-velocity jet of an electric discharge erosive plasma. The investigation results demonstrate how the increase in the supplied energy W(t) influences the phase composition, structure, and dispersity of the synthesized powdered ZnO. Using the X-ray diffractometry and transmission electron microscopy it is shown that the obtained product contains only hexagonal ZnO. It is experimentally established that when W(t) varies from 13.7 to 22.6 kJ, the average particle size of the resulting product increases in the range from 80 nm to 95 nm.

AB - This paper shows the possibility to synthesize directly the nanodispersed zinc oxide (ZnO) in a hyper-velocity jet of an electric discharge erosive plasma. The investigation results demonstrate how the increase in the supplied energy W(t) influences the phase composition, structure, and dispersity of the synthesized powdered ZnO. Using the X-ray diffractometry and transmission electron microscopy it is shown that the obtained product contains only hexagonal ZnO. It is experimentally established that when W(t) varies from 13.7 to 22.6 kJ, the average particle size of the resulting product increases in the range from 80 nm to 95 nm.

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