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27 results on '"Feoktistov, N.A."'

1. A new method for Synthesis of Epitaxial Films of Silicon Carbide on Sapphire Substrates (α-Al2O3)

Author

Kukushkin S.A., Osipov A.V., Redkov A.V., Grashchenko A.S., Feoktistov N.A., Fedotov S.D., Statsenko V.N., Sokolov E.M., and Timoshenkov S.P.

Subjects
Technology, Chemical technology, TP1-1185
Abstract

A fundamentally new method for synthesis of thick (200-400 nm) epitaxial films of silicon carbide on single-crystal Al2O3 substrates is proposed. The method develops the previously discovered method of topochemical substitution of atoms during the transformation of Si into SiC. In the proposed method, a layer of epitaxial Si of orientation (100) or (111) is being preliminarily deposited on the sapphire via CVD or other technique. Then, using a topochemical reaction between the CO gas and the deposited epitaxial silicon film, a part of Si atoms is being substituted by carbon atoms. As a result, the silicon film transforms into SiC film. As experimental studies have shown, in the process of this transformation a high-quality epitaxial SiC layer can be formed on the sapphire surface under certain synthesis conditions. A detailed investigation of grown SiC layers using the methods of electron diffraction, ellipsometry, Raman spectroscopy, X-ray diffractometry and scanning microscopy is conducted and an analysis of experimental data is given. Formation of both cubic 3C-SiC and hexagonal SiC polytypes during the transformation of Si into SiC was revealed by the XRD method. A detailed analysis of the current state of the problems of growth of epitaxial SiC layers on Al2O3 using various methods is provided. The method developed in this study opens up completely new perspectives not only for synthesis of semiconductors, but also for creation of new classes of composite, heat-resistant and other solid coatings.

Published
2018
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6. Mathematical Modeling of the Strength of the Stud Connection of Assembly Plates of the Crystallizer of CCM

Author

Yachikov, I.M., Panferov, V.I., Feoktistov, N.A., and Chernov, V.P.

Subjects
stud connection, момент затяжки гайки, nut tightening torque, 047 [УДК 621.746.27], машина непрерывного литья заготовок, шпилечное соединение, медная плита кристаллизатора, стальной кожух, mold copper plate, steel casing, slotted channels, щелевые каналы, safety factor, continuous casting machine, запас прочности
Abstract

Ячиков Игорь Михайлович, д-р техн. наук, профессор, профессор кафедры информа- ционно-измерительной техники, Южно-Уральский государственный университет, г. Челябинск; iachikovim@susu.ru, ORCID ORG: 0000-0002-1562-7506. Панферов Владимир Иванович, д-р техн. наук, профессор, профессор кафедры информационно-аналитического обеспечения управления в социальных и экономических системах, Южно-Уральский государственный университет, г. Челябинск; panferovvi@susu.ru. Феоктистов Николай Александрович, канд. техн. наук, заведующий кафедрой литейных процессов и материаловедения, Магнитогорский государственный технический университет им. Г.И. Носова, г. Магнитогорск; fna87@mail.ru. Чернов Виктор Петрович, д-р техн. наук, профессор, профессор кафедры литейных процессов и материаловедения, Магнитогорский государственный технический университет им. Г.И. Носова, г. Магнитогорск; tchernov42@mail.ru. I.M. Yachikov1, iachikovim@susu.ru, ORCID ORG: 0000-0002-1562-7506, V.I. Panferov1, panferovvi@susu.ru, N.A. Feoktistov2, fna87@mail.ru, V.P. Chernov2, tchernov42@mail.ru 1 South Ural State University, Chelyabinsk, Russian Federation, 2 Nosov Magnitogorsk State Technical University, Magnitogorsk, Russian Federation Наиболее ответственным узлом при разливке стали в машине непрерывного литья заготовок является кристаллизатор. Наибольшее распространение получают удобные в эксплуатации и изготовлении составные кристаллизаторы, состоящие из медной рабочей стенки со щелевыми каналами и стального внешнего корпуса. В промышленных конструкциях составных кристаллизаторов соединение медной и стальной плит осуществляется посредством множества стальных шпилек, причем они расположены по поверхности плиты крайне неравномерно из-за наличия каналов охлаждения, шпонок и уплотнителя. Целью работы является создание математической модели для определения коэффициента неравномерности нагружения шпилек и запаса прочности соединения медной и стальной плит для заданной конструкции сборного кристаллизатора и выбранных типовых параметров шпилечного соединения. Учет возникающих неодинаковых нагрузок на шпильки осуществлялся путем расчета коэффициента неравномерности. Полагали, что максимальная растягивающая сила, приходящаяся на одну шпильку, пропорциональна этому коэффициенту и средней растягивающей силе. Для каждой шпильки выделялся кластер, включающий в себя заданное число ближайших к ней шпилек. Определялось среднее расстояние в кластере, среднее значение расстояния по всем кластерам и относительное расстояние для кластера, связанного с определенной шпилькой. Нагрузка на резьбовое соединение пропорциональна площади соединяемых плит, которые удерживает шпилька, поэтому полагали, что коэффициент неравномерности нагрузки для заданной шпильки пропорционален квадрату относительного расстояния. Показан пример расчета коэффициента неравномерности нагрузки для рассматриваемой конструкции промышленного сборного кристаллизатора. Приведена математическая модель для определения запаса прочности шпилечного соединения медной и стальной плит кристаллизатора, а также необходимого момента затяжки шпильки, обеспечивающего нераскрытие стыка. Расчеты учитывали максимальное испытательное давление воды и максимальное внешнее усилие сдвига при трении слитка о стенку кристаллизатора. Создана компьютерная программа, позволяющая анализировать надежность соединения стальной и медной стенки кристаллизатора машины непрерывного литья заготовок при моделировании разных ситуаций, в том числе форс-мажорных и аварийных. The most critical unit when casting steel in a continuous casting machine is the mold. The most widespread are composite molds, convenient in operation and manufacture, consisting of a copper working wall with slotted channels and a steel outer casing. In industrial designs of composite molds, the connection of copper and steel plates is carried out by means of many steel pins, and they are extremely unevenly located along the surface of the plate due to the presence of cooling channels, dowels and a seal. The aim of the work is to create a mathematical model to determine the coefficient uneven loading of the studs and the safety factor of the connection of copper and steel plates for a given design of the prefabricated mold and the selected typical parameters of the stud connection. The unequal loads on the studs were taken into account by calculating the coefficient of unevenness. It was believed that the maximum tensile force per stud is proportional to this coefficient and the average tensile force. For each hairpin, a cluster was identified, including a given of hairpins closest to it. The average distance in the cluster, the average value of the distance across all clusters, and the relative distance for the cluster associated with a particular hairpin were determined. The load on the threaded connection is proportional to the area of the connected plates, which are held by the stud, therefore, it was assumed that the coefficient of unevenness of the load for a given stud is proportional to the square of the relative distance. An example of calculating the load non-uniformity coefficient for the considered design of an industrial prefabricated crystallizer is shown. A mathematical model is presented to determine the safety margin of the stud connection of the copper and steel plates of the mold, as well as the required tightening torque of the stud, which ensures the joint will not open. The calculations took into account the maximum test pressure of water and the maximum external shear force during friction of the ingot against the wall of the mold. A computer program has been created that makes it possible to analyze the reliability of the connection between the steel and copper walls of the mold of the continuous casting machine when simulating various situations, including force majeure and emergency situations.

Published
2021

14. Eigenmode mediated excitation and radiation in a planar microcavity

Author

Dukin, A.A., Feoktistov, N.A., Grudinkin, S.A., Medvedev, A.V., Pevtsov, A.B., Golubev, V.G., Centini, M., and Sibilia, C.

Subjects
Chemical vapor deposition -- Usage, Erbium -- Optical properties, Luminescence -- Analysis, Physics
Abstract

Experimental and theoretical studies were conducted to determine the effect of planar microcavity eigenmodes on the optical excitation efficiency and the luminescence of emission centers (erbium ions) introduced in the active layer of the microcavity structure. The observations revealed that the emission intensity from erbium ions can be enhanced by an order of magnitude, if pumping conditions are selectively chosen in order to excite the microcavity eigenmode.

Published
2008

16. ИССЛЕДОВАНИЕ ВЛИЯНИЯ СКОРОСТИ ОХЛАЖДЕНИЯ ПРИ КРИСТАЛЛИЗАЦИИ НА РАЗМЕР АУСТЕНИТНОГО ЗЕРНА ЛИТОЙ СТАЛИ 110Г13Л

Author

Vdovin, K.N., Gorlenko, D.A., Nikitenko, O.A., and Feoktistov, N.A.

Subjects
grain size, crystallization, assorted, cooling rate, Hadfield steel
Abstract

We study the dependence of the grain size of austenite cast Hadfield steel cooling rate from the value in the range of crystallization. It is shown that the most uniform microstructure formed when a cooling rate equal to 4,5 °Cps.

Published
2015
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24. Initial Stages of Growth of Diamond Island Films on Crystalline Silicon.

Author

Feoktistov, N.A., Afanas'ev, V.V., Golubev, V.G., Grudinkin, S.A., Kukushkin, S.A., and Melekhin, V.G.

Subjects
*DIAMONDS, *SILICON
Abstract

The results of the investigation of the initial stages of growth of diamond island films, which were formed by hot-filament chemical-vapor deposition on optically polished crystalline silicon, are reported. Atomic force microscopy was used to study the evolution of islands, formed at the initial growth stages, during annealing. It was found that at the initial growth stages the island density changes due to the coalescence of closely spaced islands. Then, after the islands increase in size up to the critical value, Ostwald ripening of the islands sets in. [ABSTRACT FROM AUTHOR]

Published
2002
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25. Amorphous silicon-carbon based p-i-n structures for electron flux conversion.

Author

Feoktistov, N.A., Florinskii, V.Yu., Morozova, L.E., and Pevtsov, A.B.

Subjects
*EXCITON theory, *AMORPHOUS substances
Abstract

Presents a study of the collection efficiency of electron-hole pairs in amorphous silicon-carbon based p-i-n structures under keV electronic irradiation. RF plasma deposition; Scanning electronic microscopy; Current-voltage characteristics and spectral dependence of the short-circuit current.

Published
1995
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26. Electroluminescence in a-Si[sub1-x]C[sub x]: H p-i-n structures.

Author

Pevtsov, A.B., Zherzdev, A.V., Feoktistov, N.A., Juska, G., Muschik, T., and Schwarz, R.

Subjects
ELECTROLUMINESCENCE, AMORPHOUS substances, SILICON carbide
Abstract

Reports on experimental investigations of the electroluminescence in the visible spectral range in hydrogenated amorphous silicon-carbon structures. Plasma deposition; Maximum emission; Current-voltage and breakdown characteristics; Energy diffusion of electrons; Holes between localized states.

Published
1995
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27. Optical properties of a Fabry-Pérot microcavity with Er-doped hydrogenated amorphous silicon active layer.

Author

Dukin, A. A., Dukin, A.A., Feoktistov, N. A., Feoktistov, N.A., Golubev, V. G., Golubev, V.G., Medvedev, A. V., Medvedev, A.V., Pevtsov, A. B., Pevtsov, A.B., Sel'kin, A. V., and Sel'kin, A.V.

Subjects
AMORPHOUS substances, PLASMA-enhanced chemical vapor deposition, PHOTOLUMINESCENCE
Abstract

Fabry-Pérot hydrogenated amorphous silicon (a-Si:H)/amorphous-SiO[sub x]:H microcavities with an erbium-doped a-Si:H active region are fabricated by a plasma-enhanced chemical-vapor deposition technique in a single technological cycle without exposure to air between the intermediate operations. A metalorganic compound is used to incorporate erbium in the active a-Si:H layer. Transmission, reflection, and photoluminescence spectra of the microcavities are measured. The experimental data are compared to theoretical calculations performed in terms of field amplitudes generated by stochastic excitation sources. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2000
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