Search Results - "Kolesnichenko, G. V."

Phase Transformations and Consolidation of Si3N4 Ceramics Activated with Yttrium and Silicon Oxides in Spark Plasma Sintering by Zamula, M.V., Kolesnichenko, V.G., Stepanenko, A.V., Tyschenko, N.I., Shyrokov, O.V., Borodianska, H.Yu, Ragulya, A.V.

“…The effect of Y 2 O 3 and Y 2 O 3 –SiO 2 additions on the spark plasma sintering (SPS) of α-Si 3 N 4 was studied. The interaction of oxides with silicon…”
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Field assisted sintering of nanocrystalline titanium nitride powder by Kolesnichenko, V. G., Popov, V. P., Zgalat-Lozinskii, O. B., Klochkov, L. A., Lobunets, T. F., Raichenko, A. I., Ragulya, A. V.

“…The effect of field assisted sintering (FAS) on the compaction of TiN ceramics is examined using a nanosized TiN powder. Microstructural evolution at different…”
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Reactive Synthesis of B4C–CrB2, B4C–TiB2, AND B4C–TiCrB2 Heterophase Ceramics by Spark Plasma Sintering by Kutran, T. M., Zamula, M. V., Pokhylko, B. A., Shyrokov, O. V., Kolesnichenko, V. G., Kovalchuk, V. V., Stepanenko, A. V., Borodianska, H. Yu

“…The reactive synthesis of heterophase refractory ultrahard B 4 C-based composites by spark plasma sintering (SPS) was examined. To produce heterophase B 4 C +…”
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Spark Plasma Sintering of Magnesium Fluoride Nanopowders by Kolesnichenko, V. G., Zamula, M. V., Yurchenko, Yu. V., Chudinovych, O. V., Makogon, V. A., Tyschenko, N. I., Shyrokov, O. V., Sameliuk, A. V., Tomila, T. V., Kornienko, O. A., Ragulya, A.V.

“…The densification behavior of nanostructured MgF 2 ceramics in the spark plasma sintering process is studied. Nitrate synthesis is employed to produce fine…”
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EXTRACTION OF INDIUM FROM SULFURIC ACID SOLUTIONS BY MIXTURES OF DI-(2-ETHYLHEXYL)PHOSPHORIC AND OCTANOIC ACIDS by Fleitlikh, I. Yu, Pashkov, G. L., Stoyanov, E. S., Makarov, I. V., Kholkin, A. I., Nikiforova, L. K., Grigorieva, N. A., Pavlenko, N. I., Kolesnichenko, G. V.

“…The extraction of indium from sulfuric acidic solutions by mixtures of di(2-ethylhexyl)phosphoric (D2EHPA, HR) and octanoic (HA) acids was studied. The state…”
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Thermochemical microwave treatment of refractory nanopowders by Zgalat-Lozinskii, O. B., Kolesnichenko, V. G., Zamula, M. V., Solyanik, L. V., Garbuz, V. V., Klochkov, L. A., Dubovitskaya, N. V., Ragulya, A. V.

“…Titanium nitride and silicon nitride nanopowders are subjected to microwave treatment to stimulate reduction and nitration reactions. It is established that…”
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Change of Magnetic and Optical Properties of Non-Ferromagnetic Crystals After Exposure in Electrical and Magnetic Fields by O. V. Brodovyj, V. O. Brodovyj, V. G. Kolesnichenko, V. V. Skorokhod

“…The influence of exposure on the magnetic susceptibility of zinc, silicon, and gallium arsenide crystals as well as on the spectral distribution of GaAs and Si…”
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Magnetic Deformation Effect by O. V. Brodovyj, S. G. Bunchuk, V. G. Kolesnichenko, V. V. Skorokhod

“…In a given paper, it is shown that, after the deformation by squeezing of single crystals of molybdenum and zinc, a sharp increase of magnetic susceptibility…”
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Surface modification of silicon nitride nanofibers with titanium nitride particles by Tishchenko, N. I., Kolesnichenko, V. G., Dubovitskaya, N. V., Silenko, P. M., Danilenko, N. I., Zgalat-Lozinskii, O. B., Bulanov, V. N., Ragulya, A. V.

“…Silicon nitride nanofibers coated with titanium nitride particles are formed by deposition of TiO(OH) 2 and Ti(O) 2 (OH) 2 using controlled hydrolysis of TiCl…”
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Electric-discharge sintering of TiN-AlN nanocomposites by Zamula, M V, Derevyanko, A V, Kolesnichenko, V G, Samelyuk, A V, Zgalat-Lozinskii, O B, Ragulya, A V

“…The structurization and properties of TiN-AlN and TiN-AlN-Y^sub 2^O^sub 3^ nanocomposites consolidated by electric-discharge sintering are examined. TiN-AlN…”
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Anomalous magnetic properties of plastically deformed sintered poly-and monocrystalline molybdenum by Brodovoi, A V, Kolesnichenko, V G, Solonin, S M, Skorokhod, V V

“…The field dependency of the magnetic susceptibility of molybdenum subjected to intensive deformation was investigated. It was found that a nonlinear increase…”
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The Control of the Structure and Size of the Barium Titanate Nanoparticles Prepared by the Oxalate Method

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Reactive Synthesis of B.sub.4C-CrB.sub.2, B.sub.4C-TiB.sub.2, AND B.sub.4C-TiCrB.sub.2 Heterophase Ceramics by Spark Plasma Sintering by Kutran, T. M, Zamula, M. V, Pokhylko, B. A, Shyrokov, O. V, Kolesnichenko, V. G, Kovalchuk, V. V, Stepanenko, A. V

“…The reactive synthesis of heterophase refractory ultrahard B.sub.4C-based composites by spark plasma sintering (SPS) was examined. To produce heterophase…”
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Friction and Wear of TiN–Si3N4 Nanocomposites Against ShKh15 Steel by Kolesnichenko, V. G., Zgalat-Lozinskii, O. B., Varchenko, V. T., Herrmann, M., Ragulya, A. V.

“…Spark plasma sintering is used to produce dense silicon nitride nanoceramics with titanium nitride additions and nanofiber-strengthened composites. The…”
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Production of Products of Various Shapes From Si3N4-Based Refractory Compounds by Spark Plasma Sintering by Zamula, M. V., Derevyanko, A. V., Kolesnichenko, V. G., Zgalat-Lozinskii, O. B., Ragulya, A. V.

“…The possibility of manufacturing ball-, cylinder-, and hollow cylinder-shaped products based on Si 3 N 4 and TiN nanocomposites by spark plasma sintering (SPS)…”
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Production of Products of Various Shapes From Si.sub.3N.sub.4-Based Refractory Compounds by Spark Plasma Sintering by Zamula, M. V, Derevyanko, A. V, Kolesnichenko, V. G, Zgalat-Lozinskii, O. B, Ragulya, A. V

“…The possibility of manufacturing ball-, cylinder-, and hollow cylinder-shaped products based on Si.sub.3N.sub.4 and TiN nanocomposites by spark plasma…”
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Anomalous magnetic properties of the solid solutions (InSb)1−x (CdTe)x at low temperatures by Brodovoi, A. V., Brodovoi, V. A., Knorozok, L. M., Kolesnichenko, V. G., Kolesnik, S. P.

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Rights and privileges of blood donors by Zhiburt, E B, Kolesnichenko, V G, Kopelets, A V, Sidorkevich, S V

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