A. V. Samelyuk scite author profile

A. V. Samelyuk

4Publications

69Citation Statements Received

90Citation Statements Given

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Affiliations

Frantsevich Institute for Problems in Materials Science, National Academy of Sciences of Ukraine, Materials Sciences (United States)

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Growth kinetics and abrasive wear resistance of boride layers on Fe–15Cr alloy

Dybkov

Goncharuk

Khoruzha

et al. 2011

Materials Science and Technology

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Two boride layers based on the FeB and Fe 2 B compounds are formed at the interface between an Fe-15Cr alloy and boron at 850-950uC and reaction times up to 12 h, with the average chromium content being around 8 at-% in the former and 12 at-% in the latter. Both boride layers reveal a pronounced texture. Diffusional growth kinetics of the layers are close to parabolic and can alternatively be described by a system of two non-linear differential equations. Microhardness values are 17?4 GPa for the FeB layer, 14?4 GPa for the Fe 2 B layer and 0?95 GPa for the Fe-15Cr alloy base. The dry abrasive wear resistance of borided alloy samples is around 45 times greater than that of non-borided ones.

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Titanium-boride eutectic materials. Structure of the Ti-Nb-B alloys and phase equilibria

Borisov

Artyukh

Bondar

et al. 2007

Powder Metall Met Ceram

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The structure of Ti -Nb -B alloys that are cast and annealed at subsolidus temperatures and at 1400°C is experimentally analyzed (x-ray diffraction, metallography, and electron probe microanalysis), and so are temperatures of their phase transformations (differential thermal analysis and pyrometry). No ternary phases are found in the alloys. Projections of solidus and liquidus surfaces, an isothermal section at 1400°C, and a vertical section at 7.5 at.% B are constructed. A reaction scheme is proposed for alloy crystallization. INTRODUCTIONNiobium and boron are regarded as alloying additions for titanium-based materials. Niobium enhances the hightemperature oxidation resistance of conventional titanium solid-solution-hardened alloys [1]. Boron is used to refine grains and clear grain boundaries in conventional titanium alloys [2], new prospective TiAl (TiAl + Ti 3 Al) alloys doped with niobium [3][4][5][6][7], and materials based on ternary orthorhombic Ti 2 NbAl [8-10]. Titanium-matrix composites reinforced by borides and alloyed by niobium [11] and other metals have been under intensive research for the last 15 years. As noted in [12], binary eutectic alloys (Ti) + TiB contain only 7.7 vol.% of the reinforcing boride phase (9 vol.% by our estimates); therefore, alloys reinforced by boride in addition to the titanium solid-solution-hardened matrix should be considered prospective.However, there is a lack of published data on phase equilibria in the ternary Ti -Nb -B system. Neither is there a scientific basis for developing and improving such materials. The only exception is the paper [13], which reported an isothermal section at 1400°C. There are reports on studies of the sections Nb -TiB 2 [14-16] and NbB 2 -TiB 2 [17,18].The objective of this paper is to construct a phase diagram for the ternary Ti -Nb -B system in the Ti -TiB 2 -NbB 2 -Nb region at high temperatures and to examine the melting (crystallization) of alloys. Table 1 provides crystal structure data for Ti -Nb -B phases. Alloys of 43 different compositions are analyzed in [13] by x-ray diffraction (powder technique, V-K α radiation). The specimens were produced from titanium (99.6 wt. % Ti), niobium (99.5 wt.% Nb), and boron (99.3 wt.% B) powders. Pre-sintered compacts were melted in an arc furnace and annealed in vacuum at 1400°C for 50 h. Ternary compounds were not found in the system.A continuous series of solid solutions are confirmed to exist between TiB 2 and NbB 2 isostructural borides, as earlier reported in [17,18]. The solubility of titanium in Nb 3 B 4 (5 at.%), NbB (30 at.%), and Nb 3 B 2 (to 5 at.%) and of niobium in TiB (~5 at.%) is determined. We estimated the composition of the metal phase using a figure from [13]: this * The parentheses are used here and below to denote a solid solution.

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Diffusional Growth Kinetics of Boride Layers on Iron-Chromium Alloys

Dybkov

Goncharuk

Khoruzha

et al. 2008

SSP

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Two boride layers were found to form at the interface of iiron-chromiium alllloys (10 and 25% Cr) or an industrial 13% Cr steel and boron at 850-950 oC and reaction times in the range 1-12 h. In the case of a Fe-10% Cr alloy and the steel, the layers are based on the FeB and Fe2B compounds. With a Fe-25% Cr alloy, the constituent phases are FeB and CrB for the outer layer and Fe2B and Cr2B for the inner layer. Both layers are characterized by a pronounced texture. Diffusional growth kinetics of boride layers are close to parabolic and can alternatively be described by a system of two non-linear differential equations, producing a good fit to the experimental data. The temperature dependence of the layer growth-rate constants obeys a relation of the Arrhenius type.

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Phase equilibria in the system HfO2-ZrO2-CeO2 at 1500°C

Andrievskaya

Gerasimyuk

Kornienko

et al. 2006

Powder Metall Met Ceram

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UDC 621.762 Phase equilibria in the ternary system HfO 2 − ZrO 2 − CeO 2 at 1500°C are studied for the first time over the whole concentration range and an isothermal section of the phase equilibrium diagram at this temperature is constructed. Specimens of different compositions, synthesized from nitrate solutions by evaporation, drying, and heat treatment at 1500°C, are studied by x-ray phase and petrographic analyses, and by electron microscopy. Three regions are established for solid solutions with a different extent based on different crystal modifications

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A. V. Samelyuk

Growth kinetics and abrasive wear resistance of boride layers on Fe–15Cr alloy

Titanium-boride eutectic materials. Structure of the Ti-Nb-B alloys and phase equilibria

Diffusional Growth Kinetics of Boride Layers on Iron-Chromium Alloys

Phase equilibria in the system HfO2-ZrO2-CeO2 at 1500°C

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