Search Results - "Shepelevich, V. G."

Melt Cooling Rate Effect on the Microstrucutre of Al–Si Alloy Doped with Mg, Mn, Fe, Ni, and Cu by Gusakova, O. V., Gusakova, S. V., Shepelevich, V. G.

“…The microstructure, the grain structure, and the elemental composition of the Al–11.8Si–0.6Mg–0.4Mn–0.6Fe–0.8Ni–1.7Cu alloy (wt %) fabricated at melt cooling…”
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Polycrystalline bismuth films: Correlation between grain structure and electron transport by Fedotov, A. S., Poznyak, S. K., Tsybulskaya, L. S., Shepelevich, V. G., Svito, I. A., Saad, A., Mazanik, A. V., Fedotov, A. K.

“…Grain structure and the temperature dependences of resistivity, magnetoresistance, Hall and Seebeck coefficients measured in the range from 4 to 300 K were…”
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Structure of Rapidly Solidified Al–(0.25–2.0) wt % Bi Alloys by Shepelevich, V. G.

“…This article describes study of the microstructure and texture of aluminum alloy foils containing 0.25–2.0 wt % Bi and manufactured by high speed…”
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Microstructure and Coefficient of Friction of Silumins Obtained by Rapid Solidification by Gusakova, O. V., Shepelevich, V. G.

“…— The results of a study of the tribological properties and microstructure of rapidly solidified Al–12.2 wt % Si–0.2 wt % Fe (AK12vp) and Al–12.5 wt % Si–0.8…”
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A comparison of structure and properties of binary and ternary rapidly solidified alloys of the Al–Ni–Zr system by Siutsova, P.A., Neumerzhitskaya, E.Yu, Shepelevich, V.G.

“…We present the results on investigation of rapidly solidified foils of binary Al–0.3 at.% Zr, Al–0.6 at.% Ni and ternary Al–0.2 at.% Zr–0.4 at.% Ni alloys…”
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Microstructure and Microhardness of Rapidly Cooled Bi–38 wt % Sn, Additionally Doped with Lead by Shepelevich, V. G.

“…The results of investigating the microstructure and microhardness of rapidly cooled (BiSn)‒ x wt % Pb ( x = 0‒8) alloys are presented. Rapidly cooled foils…”
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Study of the Structure and Properties of Rapidly Solidified Tin–Zinc Eutectic Alloys Doped with Antimony by Zernitsa, D. A., Shepelevich, V. G.

“…— The phase composition, microstructure, and mechanical properties of rapidly solidified foils of Sn–Zn eutectic alloys doped with antimony are studied. The…”
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Structure and Properties of Rapidly Solidified Foils of Bi–In–Sn Ternary Alloy and Soldered Joint on Its Basis by Shepelevich, V. G., Gusakova, O. V., Gusakova, S. V.

“…This article describes the experimental results of microstructure and phase composition of Bi 32 I-n 41 Sn 27 alloy obtained by ultrarapid solidification from…”
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The Formation of the Structure of the Alloys of the Tin–Zinc System upon High-Speed Solidification by Shepelevich, V. G., Zernitsa, D. A.

“…The results of the study of the parameters of the structure of the fast-solidificated foil of hypoeutectic, eutectic, and hypereutectic alloys of the Sn–Zn…”
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Nuclear Physics Study of the Composition of Surface Layers of Rapidly Solidified Foils of Al–Mg–Li–Sc–Zr Alloy after Heat Treatment by Stoliar, I. A., Shepelevich, V. G., Tashlykova-Bushkevich, I. I., Wendler, E.

“…The influence of heat treatment on the distribution of lithium over the depth of surface layers is studied for rapidly solidified foils of industrial…”
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Structure and Microhardness of (Sn4In)100 –хBix (x = 0–8 аt %) Alloys Produced by High-Speed Cooling by Shepelevich, V. G., Husakova, S. V., Gusakova, O. V.

“…The phase composition, microstructure, mechanical properties and stability of foils of (Sn 4 In) 100– х Bi x ( х = 0–8 at %) alloys synthesized by the method…”
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The Effect of Antimony Alloying on the Microstructure and the Properties of Rapidly Solidified Alloy Bi–60 at % Sn by Shepelevich, V. G., Gusakova, O. V.

“…Alloys (SnBi) 100 –   x Sb x ( x < 4.8) have been synthesized by means of ultrafast quenching from a melt in the form of a foil having a thickness of 30–70 μm…”
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Effect of Lithium on the Structural-Phase State of Rapidly Solidified Al–Mg–Li Alloy During Heat Treatment by Stoliar, I. A., Shepelevich, V. G., Wendler, E., Tashlykova-Bushkevich, I. I.

“…— The effect of lithium on the structural-phase state of aerospace aluminum alloy 1421 of the Al–Mg–Li system prepared by rapid solidification is studied…”
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Grain Structure of Rapidly Solidified Alloy Sn32Bi52Pb16 by Shepelevich, V. G.

“…Rapidly solidifed foils of Sn 32 Bi 52 Pb 16 alloy consist of liberations of tin, bismuth, and ε phase. The length of most chords of random secants located on…”
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Microstructure and Mechanical Properties of Bi27In38Sn35 Foil Produced by Rapid Solidification by Gusakova, S. V., Shepelevich, V. G., Gusakova, O. V.

“…Investigations into the microstructure of Bi 27 In 38 Sn 35 alloy have shown that an increase in the melt cooling rate from 10 2 to 10 5 K/s leads to a change…”
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Microstructure of Rapidly Solidified Alloys of the Sn–Zn–Bi–In System by Gusakova, O. V., Shepelevich, V. G.

“…The results of a study of the phase composition and microstructure of foils of Sn–8.0 Zn–3.0 Bi– X In ( X = 1.5, 2.5, 4.5, 9.0) (wt %) alloys formed by rapidly…”
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Structure Formation in the Melt-Quenched Al–12.2Si–0.2Fe Alloys by Gusakova, O. V., Shepelevich, V. G., Alexandrov, D. V., Starodumov, I. O.

“…The microstructure, the phase composition, the component distribution, and the grain structure of the commercial eutectic Al–12.2 Si–0.2 Fe (at %) silumins…”
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Influence of Chromium on the Chemical Composition and Surface Properties of Rapidly Solidified Al–Cr Alloys by Tashlykova-Bushkevich, I. I., Shepelevich, V. G., Amati, M., Gregoratti, L., Kiskinova, M.

“…— The microstructure and physicochemical properties of the surface of rapidly solidified Al–Cr alloys containing 1 and 3 at % of chromium are studied by means…”
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Changes in the Structure and Microhardness of Rapidly Solidified Foils of Aluminum Alloy 1421 during Their Annealing by Shepelevich, V. G., Bushkevich, I. A., Wendler, E., Tashlykova-Bushkevich, I. I.

“…In this work, the relationship between the microstructure and microhardness of Al–Mg–Li–Zr–Sc alloy (1421 Al) prepared by ultrafast quenching from the melt has…”
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On the Theory of Directional Solidification in the Presence of a Mushy Zone by Alexandrov, D. V., Nizovtseva, I. G., Alexandrova, I. V., Ivanov, A. A., Starodumov, I. O., Toropova, L. V., Gusakova, O. V., Shepelevich, V. G.

“…A model is developed for the directional solidification of a binary melt with a two-phase zone (mushy zone), where the fraction of the liquid phase is…”
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