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Хомяков, Олег Владимирович

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Институт ядерной физики и технологий
Цель ИЯФиТ и стратегия развития - создание и развитие научно-образовательного центра мирового уровня в области ядерной физики и технологий, радиационного материаловедения, физики элементарных частиц, астрофизики и космофизики.
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Олег Владимирович
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  • Публикация
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    Механизмы неустойчивостей в металлах при воздействии каскадообразующего облучения
    (НИЯУ МИФИ, 2011) Хомяков, О. В.; Хомяков, Олег Владимирович; Девятко, Ю. Н.
  • Публикация
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    РАДИАЦИОННОЕ УПЛОТНЕНИЕ УРАН-ГАДОЛИНИЕВОГО ТОПЛИВА
    (НИЯУ МИФИ, 2019) Девятк, Ю. Н.; Новиков, В. В.; Хомяков, О. В.; Новиков, Владимир Владимирович; Хомяков, Олег Владимирович
    A model of radiation-induced densification of uranium-gadolinium fuel was developed. The fuel is established to be in the brittle state in the volume of uranium-gadolinium fuel pellet containing a burnable neutron absorber under irradiation and in the plastic state out of this volume. The relative change in a pellet volume for uranium-gadolinium fuel is shown to be lower than that for uranium oxide nuclear fuel with the same microstructure.
  • Публикация
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    Measurement of Hydrogen Diffusion in Zirconium Alloys by the Radioluminography Method
    (2019) Ivanov, B. V.; Anikin, A. S.; Bukin, A. N.; Sergeecheva, Y. V.; Devyatko, Y. N.; Khomyakov, O. V.; Хомяков, Олег Владимирович
    © 2019, Pleiades Publishing, Ltd.Abstract: A method for obtaining the quasi-one-dimensional distribution of tritium in zirconium alloys was developed. Various conditions of saturation of samples with tritium were analyzed and distributions of tritium concentration corresponding to the saturation conditions were measured. An algorithm for restoring of the diffusion coefficient of hydrogen in zirconium alloys by the radioluminography method was developed. The temperature dependence of the hydrogen diffusion in E110 alloy was constructed.
  • Публикация
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    Determination of Density and Pore Size Distribution in Uranium Dioxide Fuel Pellet by Image Analysis of its Cross-Sectional Structure
    (2019) Devyatko, Yury N.; Khomyakov, Oleg V.; Tenishev, Andrey V.; Mikhalchik, Vladimir V.; Shornikov, Dmitry P.; Хомяков, Олег Владимирович; Тенишев, Андрей Вадимович; Михальчик, Владимир Валерьевич; Шорников, Дмитрий Павлович
    The paper proposes a method for reducing the true pore size in oxide nuclear fuel using a well-known histogram for the distribution of the pores cross sections across the polished section. It is shown that the problem of constructing a continuous pore size distribution function from the pore size distribution histogram is incorrect. Histograms showing pore distributions across the polished sections of oxide nuclear fuel sintered under various conditions are obtained. The Scheil-Saltykov method was used to reduce histograms for 3D pore size distributions in uranium oxide fuel.
  • Публикация
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    ОБРАЗОВАНИЕ СПЛОШНЫХ ГИДРИДОВ В ОБОЛОЧКЕ ТВЭЛ
    (НИЯУ МИФИ, 2017) Девятко, Ю. Н.; Новиков, В. В.; Хомяков, О. В.; Хомяков, Олег Владимирович
    Formation mechanism of massive hydrides in irradiated zirconium cladding is established. It is shown that the duration of formation process is defined by a period of time up to destruction of oxide film on the internal surface of fuel cladding. The time required for massive hydride to grow through the thickness of zirconium cladding is established.
  • Публикация
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    Identification of the sintering mechanism of oxide nuclear fuel through the analysis of experimental pore size distributions
    (2020) Devyatko, Y. N.; Khomyakov, O. V.; Tenishev, A. V.; Matvenov, M. E.; Shornikov, D. P.; Хомяков, Олег Владимирович; Тенишев, Андрей Вадимович; Матвенов, Максим Евгеньевич; Шорников, Дмитрий Павлович
    © 2020 The Physical Society of Japan.The paper studies the sintering kinetics of pelletized oxide nuclear fuel in terms of various parameters (heating rate, sintering temperature, partial pressure of oxygen in sintering atmosphere). It considers calculated experimental pore size distributions in sintered fuel pellets. Study of the evolution of pore size distributions let us determined the physical mechanism of sintering of uranium dioxide. The sintering process is controlled by the mechanism of viscous flow under the influence of capillary forces and residual stresses.