Search Results - "SHCHERBAKOV, A. V"

Simulation of an Electrothermal Explosion of a Gas-Free System. Effect of Conductive Heat Exchange and Joule Heating Power by Shcherbakov, A. V., Shcherbakov, V. A.

“…Mathematical modeling is applied to study the electrothermal explosion conditions of a gasless system surrounded by a dielectric medium. It is shown how…”
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Pressure-Assisted Electrothermal Explosion Synthesis of Titanium Nickelide by Bogatov, Yu. V., Shcherbakov, A. V., Shcherbakov, V. A., Kovalev, D. Yu, Sychev, A. E.

“…— Titanium nickelide alloys have been prepared by pressure-assisted electrothermal explosion (ETE) synthesis. We have examined the effect of Joule heating…”
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Pressure-Assisted Electrothermal Explosion of Titanium Nickelide by Bogatov, Yu. V., Shcherbakov, A. V., Shcherbakov, V. A.

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Electrothermal Explosion of a titanium-soot Mixture under Quasistatic Compression. III. The Effect of Quasistatic Compression Pressure by Shcherbakov, V. A., Shcherbakov, A. V.

“…The results of diagnostics of thermal conditions of an electric thermal explosion (ETE) of a mixture of titanium and soot powders under quasistatic compression…”
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TaC by Electrothermal Explosion under Pressure by Shcherbakov, A. V., Shcherbakov, V. A.

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Electrothermal Explosion of a Titanium—Soot Mixture under Quasistatic Compression. I. Thermal and Electric Parameters by Shcherbakov, V. A., Shcherbakov, A. V., Bostandzhiyan, S. A.

“…The study of an electrothermal explosion (ETE) of a titanium—soot mixture under quasistatic compression is described. Experimental dependences of thermal and…”
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Electrothermal Explosion of a Titanium–Soot Mixture under Quasistatic Compression. II. Kinetics and Mechanism of Interaction in a Titanium–Soot Mixture by Shcherbakov, V. A., Shcherbakov, A. V., Bostandzhiyan, S. A.

“…The experimental study of the high-temperature interaction kinetics of a titanium-soot mixture under quasistatic compression in an electrothermal explosion…”
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Influence of the Mechanical Activation of Reaction Mixture on the Formation of Microstructure of ZrB2–CrB Composites Obtained by Electrothermal Explosions under Pressure by Shcherbakov, A. V., Shcherbakov, V. A., Barinov, V. Yu, Vadchenko, S. G., Linde, A. V.

“…The ZrB 2 –CrB composites with a ceramic bond content of 80 wt.% and a relative density of 0.85 – 0.90 were obtained by the method of electrothermal explosion…”
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Endophytic bacteria in microbial preparations that improve plant development (review) by Chebotar, V. K, Malfanova, N. V, Shcherbakov, A. V, Ahtemova, G. A, Borisov, A. Y, Lugtenberg, B, Tikhonovich, I. A

“…In this review data on the possibility of using endophytic bacteria for improving crop yields and quality are discussed…”
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SHS Pressing of Tic + xC Composites by Shcherbakov, V. A., Gryadunov, A. N.

“…The paper presents experimental results of producing refractory electrically conductive TiC + x C composites by SHS pressing method. The conditions for…”
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Observation of Phase Transitions in the W–C System during Electrothermal Explosion under Pressure by Telepa, V. T., Alymov, M. I., Shcherbakov, V. A., Shcherbakov, A. V., Kovalev, I. D.

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Structural-Phase Evolution of Quenched Low-Activation Ferritic–Martensitic Steel in Dependence of the Temperature of Isothermal Holding by Boiko, N. V., Evstyukhina, I. A., Leont’eva-Smirnova, M. V., Mozhanov, E. M., Rudakov, S. G., Sharapov, A. S., Shcherbakov, A. V.

“…This paper is devoted to the investigation of the effect of nitrogen and carbon content, as well as different temperatures of isothermal holding,—on the…”
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Endophytic bacteria of Sphagnum mosses as promising objects of agricultural microbiology by Shcherbakov, A. V., Bragina, A. V., Kuzmina, E. Yu, Berg, Christian, Muntyan, A. N., Makarova, N. M., Malfanova, N. V., Cardinale, Massimiliano, Berg, Gabriele, Chebotar, V. K., Tikhonovich, I. A.

“…Sphagnum mosses serve as a unique habitat for microorganisms, which play an important role both for the host plants and the peatland ecosystems. The aim of the…”
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Convective Combustion of a Mechanically Activated Ti + C Mixture under Forced SHS Compaction by Bogatov, Yu. V., Shcherbakov, V. A.

“…Effect of mechanical activation of components and external pressure on the combustion of a heterogeneous Ti + C mixture under SHS compaction is under study. It…”
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SHS Compaction of TiC-Based Cermets Using Mechanically Activated Mixtures by Bogatov, Yu. V., Shcherbakov, V. A.

“…This paper is concerned with obtaining metal-ceramic composite materials through the method of SHS compaction. The study investigates the influence of…”
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Effect of Mechanical Activation and Combustion Parameters on SHS Compaction of Titanium Carbide by Bogatov, Yu. V., Shcherbakov, V. A.

“…We present the results of a study on the preparation of dense titanium carbide by SHS compaction. It was found that the use of a mechanically activated…”
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Preparation of Molybdenum–Copper Pseudoalloy by Barinov, V. Yu, Shcherbakov, A. V.

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Production of NiTi Alloys by MA–SHS Consolidation by Bogatov, Yu. V., Shcherbakov, V. A.

“…Keywords : Forced SHS compaction, mechanical activation, titanium nickelide, combustion temperature, burning velocity, phase composition…”
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Forced SHS Compaction of TiB2–Ti: Structure and Properties by Bogatov, Yu. V., Shcherbakov, V. A.

“…TiB 2 –Ti metal–ceramic composites were produced by forced SHS compaction. The influence of superstoichiometric amount of Ti (6–20 wt %) relative to TiB 2 on…”
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Generation of Thermal Electromotive Force during Combustion of Mixtures of Ti + xB by Shcherbakov, V. A., Barinov, V. Yu

“…The generation of thermal electromotive force (EMF) during combustion of titanium and boron powder mixtures under pressure has been studied. It has been shown…”
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