V. V. Paramonova scite author profile

V. V. Paramonova

5Publications

6Citation Statements Received

12Citation Statements Given

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Affiliations

Baikov Institute of Metallurgy and Materials Science, Russian Academy of Sciences, Chemical Pharmaceutical Research Institute

Publications

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Corrosion resistance of the V-Ga and V-Ti-Cr alloys in lithium

Borovitskaya

Lyublinski

Paramonova

et al. 2014

Inorg. Mater. Appl. Res.

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The corrosion resistance of the vanadium alloys, V-1.86 Ga, Cr, in high purity liquid lithium containing less than 1 × 10 -3 wt % of carbon and nitrogen was investi gated as compared to pure vanadium. The corrosion tests were carried out in the static isothermal conditions at a temperature of 600°C during 400 h. It was established that vanadium and its alloys are almost insoluble in lithium, and a basic mechanism of their interaction with liquid metal in this case is the transfer of oxygen from the materials into lithium. Traces of the corrosion effect on the surface of the materials after their expo sure to lithium were also found, resulting in the appearance of grain boundaries and slip lines.

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Several features of the Ar+-ion irradiation of vanadium and its alloys

Danelyan

Korshunov

Mansurova

et al. 2012

J. Synch. Investig.

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Changes in the surface properties of vanadium and its alloys irradiated by Ar + ions with the energy 20 keV, to a dose of 10 22 m -2 at T irr ≈ 700K have been studied. The radiation effect consists of material surface hardening, increasing the lattice parameters of the irradiated samples, and radiation erosion of the surface layers in the form of flaking. Features of radiation damage to the material's surface irradiated by gas ions with high sputtering coefficients are discussed.

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EFFECT OF Ar+ IONS HIGH CURRENT BEAMS ON THE SURFACE PROPERTIES OF VANADIUM AND VANADIUM-BASED ALLOYS

Borovitskaya¹,

Korshunov²,

Lyakhovitskiy³

et al. 2013

PAST-TF

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Воздействие cильноточных пучков ионов аргона на поверхностные свойства ванадия и сплавов на его основе ВАНТ. Сер Одним из перспективных современных методов улучшения поверхностных и объёмных свойств материалов является использо-вание сильноточных ионных пучков. В данной работе исследованы особенности процессов, происходящих на поверхности ванадия и его сплавов V-0,59Ga, V-1,86Ga, V-3,4Ga-0,62Si, V-4,81Ti-4,82Cr, облучённых в ионно-лучевом ускорителе ИЛУ ионами Ar + с энергией 20 и 40 кэВ дозами 5·10 21 и 1,010 22 м -2 при температуре облучения 700 К. Эти сплавы являются перспективными малоактивируемыми функциональными и конструкционными материалами для ряда концептуальных проек-тов будущих термоядерных реакторов. Установлено влияние дозы и энергии имплантированных ионов на твёрдость поверхно-сти, причём толщина упрочнённого слоя более чем на два порядка превышает пробег ионов аргона с энергией 20 и 40 кэВ в ванадий. В результате облучения происходят также структурные изменения в поверхностных слоях, которые выражаются в изме-нении интенсивностей отражений от ряда плоскостей образцов и в увеличении постоянной решётки облучённых материалов.Ключевые слова: облучение, аргон, ионы, упрочнение, сплавы ванадия. One of the perspective and modern methods of improving the surface and bulk properties of the materials is the use of high-current ion beams. In this study the peculiarities of the processes occurring on the surface of vanadium and its alloys: V-0,59Ga, V-1,86Ga, V-3,4Ga-0,62Si, V-4,81Ti-4,82Cr irradiated in the ion-beam accelerator ILU by 20 keV and 40 keV Ar + ions up to doses of 5.010 21 and EFFECT OF Ar + IONS HIGH CURRENT BEAMS ON THE SURFACE PROPERTIES OF VANADIUM AND VANADIUM-BASED ALLOYS1.010 22 m -2 at the irradiation temperature 700 K has been investigated. These alloys are promising low-activation functional and structural materials for a number of conceptual designs for future fusion reactors. The effect of dose and energy of implanted ions on the surface hardness has been revealed, the thickness of the hardened layer being more than two orders of magnitude higher both theoretical and experimental projected range of 20 and 40 keV argon ions in vanadium. Structural changes in the surface layers, which are expressed in the change of the intensity of reflections from a number of planes and in an increasing the lattice constant of the irradiated materials, have been also observed as a result of irradiation.Key words: irradiation, argon, ions, hardening, vanadium alloys. ВВЕДЕНИЕТребования к повышению эксплуатационных характеристик материалов стимулируют исследования в области модификации их поверхности. В последние годы разрабатываются новые способы модификации, основанные на использовании концентрированных потоков энергии, в частности, таких, как сильноточные ионные пучки. Экспериментальное изучение взаимодействия этих потоков с веществом показало, что его результатом является значительное изменение физико-механических свойств веществ по сравнению с тра-диционными способами обработки материалов, кото...

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Synthesis and antiviral activity of 4-chloro-5-hydroxy-2-isoxazoline derivatives

et al. 1981

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Effect of Pulsed Nitrogen Plasma and Nitrogen Ion Fluxes on the Structure and Mechanical Properties of Vanadium

et al. 2018

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V. V. Paramonova

Corrosion resistance of the V-Ga and V-Ti-Cr alloys in lithium

Several features of the Ar+-ion irradiation of vanadium and its alloys

EFFECT OF Ar+ IONS HIGH CURRENT BEAMS ON THE SURFACE PROPERTIES OF VANADIUM AND VANADIUM-BASED ALLOYS

Synthesis and antiviral activity of 4-chloro-5-hydroxy-2-isoxazoline derivatives

Effect of Pulsed Nitrogen Plasma and Nitrogen Ion Fluxes on the Structure and Mechanical Properties of Vanadium

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