И. А. Жуков scite author profile

И. А. Жуков

3Publications

52Citation Statements Received

125Citation Statements Given

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Affiliations

National Research Tomsk State University, Siberian Branch of the Russian Academy of Sciences, Institute of Energy Problems of Chemical Physics

Publications

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Inconel 625/TiB2 Metal Matrix Composites by Direct Laser Deposition

Promakhov

Жуков

Зиатдинов

et al. 2019

Metals

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This work presents results in the field of synthesis of new metal matrix composites with matrix NiTi and particles TiB 2 , and their use as additives to fabricate metal matrix composites based on the Inconel 625 alloy. NiTi-TB 2 powders were obtained using self-propagating high-temperature synthesis. Composite NiTi-TiB 2 particles were spheroidized on a high-frequency induction plasmatron. Composite NiTi-TB 2 particles were mixed with metallic Inconel 625 powder with particle sizes of 50-150 µm. We used direct laser deposition by means of mixture of powders to grow samples with different contents of ceramics in the metal matrix. The process of direct laser deposition during the experiment was investigated. We have determined the peculiarities of the formation of the structure in metal matrix composites with different contents of titanium diboride. We have demonstrated the possibility of using Direct Laser Deposition (DLD) for fabricating items from ceramic metal materials. We have determined promising fields of further research for the purpose of obtaining efficient metal matrix composites using additive manufacturing technologies.

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Planetary Milling and Self-Propagating High-Temperature Synthesis of Al-TiB2 Composites

et al. 2020

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The paper explores the influence of planetary milling on the temperature and velocity of Al-Ti-B powder mixture combustion and also on the structure and phase composition of the reaction products. It is found that the time increase of planetary milling modifies the structure of the powder particles, improves the density of compacted specimens, and increases the temperature and velocity of their combustion. These time dependences are extreme, with maximum values during 180 s planetary milling. Experiments show that the reaction products consist of an aluminum matrix with uniformly distributed particles of titanium diboride of not over 1 µm in size. The average particle size changes with the increase in the time of the planetary milling of the initial powder mixture.

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Structure and Properties of ZrO2–20%Al2O3 Ceramic Composites Obtained Using Additive Technologies

et al. 2018

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This investigation focused on obtaining samples from ceramic composite materials, based on the ZrO2–20%Al2O3 system, using the additive layer-by-layer fusion technology for thermoplastic systems. The structure and phase composition of the initial powders were studied, experimental samples were produced, and the structure and properties of the experimental samples that were obtained using additive technologies were analysed. The measured static bending strength of the samples was 450 ± 70 MPa, microhardness was 14 GPa, and the elasticity modulus was 280 ± 25 GPa. The strength of these samples are slightly inferior to that of similar materials, obtained using Ceramic Injection Molding technology because our samples were characterised by the residual porosity of about 15%.

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И. А. Жуков

Inconel 625/TiB2 Metal Matrix Composites by Direct Laser Deposition

Planetary Milling and Self-Propagating High-Temperature Synthesis of Al-TiB2 Composites

Structure and Properties of ZrO2–20%Al2O3 Ceramic Composites Obtained Using Additive Technologies

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