Промахов Владимир Васильевич

Публикации

Общее число записей - 105
1 Modification of Pore Wall Surface in Shs-Prepared Porous TiNi for Ophthalmic Orbital Implants / S.G. Anikeev, V.N. Khodorenko, M.I. Kaftaranova, A.V. Shabalina [et al] // Preprints. 2024. № 2024010580. URL: https://www.preprints.org/manuscript/202401.0580/v1.
2 Mathematical modeling of high-energy materials rheological behavior in 3D printing technology / O.B. Kudryashova, N.E. Toropkov, M.I. Lerner, V.V. Promakhov [et al] // Heliyon. 2023. Vol. 9, № 1. Art. num. e12026. DOI: 10.1016/j.heliyon.2022.e12026
3 Structure and phase composition of SHS composites based on Al–Ti–B system with different Al content / A.E. Matveev, V.V. Promakhov, N.A. Schulz, V.R. Bakhmat [et al] // Ceramics International. 2023. Vol. 50, № 1. P. 503‒511. DOI: 10.1016/j.ceramint.2023.10.126
4 Effects of Sintering Temperature on the Microstructure and Properties of a W-Cu Pseudo-Alloy / M. Lebedev, V. Promakhov, N. Schulz, A. Vorozhtsov [et al] // Metals. 2023. Vol. 13, № 10. Art. num. 1741. URL: https://www.mdpi.com/2075-4701/13/10/1741.
5 Study of the Phase Composition, Structure and Mechanical Properties of Synthetic Composites Produced by High-Temperature Vacuum Sintering of SHS-Fabricated CrNi-TiN Powders / A.E. Matveev, V.V. Promakhov, N.A. Schulz, V.R. Bakhmat [et al] // Metals. 2023. Vol. 13, № 5. Art. num. 846. URL: https://doi.org/10.3390/met13050846.
6 Strength Characteristics of a Heat-Resistant Metal-Matrix Composite Inconel 625–5%NiTi–TiB2 Alloy Fabricated by Direct Laser Deposition under Shock-Wave Loading / V.V. Promakhov, A.E. Matveev, A.B. Vorozhtsov, S.V. Razorenov [et al] // Metals. 2023. Vol. 13, № 3. Art. num. 477. URL: https://doi.org/10.3390/met13030477.
7 Korobenkov M.V., Lebedev M.S., Promakhov V.V., Narikovich A.S. X-ray Tomographic Method to Study the Internal Structure of a TiNi–TiB2 Metal Matrix Composite Obtained by Direct Laser Deposition // Materials. 2023. Vol. 16, № 1. Art. num. 1353. DOI: 10.3390/ma16041353
8 Study of the Machinability of an Inconel 625 Composite with Added NiTi-TiB2 Fabricated by Direct Laser Deposition / V.V. Promakhov, A.E. Matveev, A.S. Babaev, A.B. Vorozhtsov [et al] // Metals. 2022. Vol. 12, № 11. Art. num. 1956. DOI: 10.3390/met12111956
9 Preparation of porous TiNi-Ti alloy by diffusion sintering method and study of its composition, structure and martensitic transformations / S.G. Anikeev, N.V. Artyukhova, A.V. Shabalina, V.N. Khodorenko [et al] // Journal of Alloys and Compounds. 2022. Vol. 900. Art. num. 163559. DOI: 10.1016/j.jallcom.2021.163559
10 3D Printing Using Ti-Al Nanopowders: Mechanisms of Structure Formation / V.V. Promakhov, A.E. Matveev, A.S. Babaev, N.A. Schulz [et al] // Metals. 2022. Vol. 12, № 10. Art. num. 1737. URL: https://www.mdpi.com/2075-4701/12/10/1737.
11 Effect of the Mass Fraction of NiTi–TiB2 SHS-Particles on the Phase Composition, Structure, and Mechanical Properties of Inconel 625–NiTi–TiB2 Composites Produced by Direct Laser Deposition / A.E. Matveev, V.V. Promakhov, N.A. Schulz, V.R. Bakhmat [et al] // Materials. 2022. Vol. 15, № 19. Art. num. 6861. DOI: 10.3390/ma15196861
12 Processes of Physical Treatment of Stainless Steels Obtained by Additive Manufacturing / A.S. Babaev, V.V. Promakhov, N.A. Schulz, A.R. Semenov [et al] // Metals. 2022. Vol. 12, № 9. Art. num. 1449. URL: https://www.mdpi.com/2075-4701/12/9/1449/pdf.
13 Structure, Properties and Phase Composition of Composite Materials Based on the System NiTi-TiB2 / V.V. Promakhov, A.E. Matveev, N.A. Schulz, P.Y. Dronov [et al] // Materials. 2022. Vol. 15, № 15. Art. num. 5327. DOI: 10.3390/ma15155327
14 Исследование структуры и свойств металломатричных композиционных материалов, полученных методом прямого лазерного выращивания / В.В. Промахов, А.Е. Матвеев, Н.А. Шульц, В.Р. Бахмат [и др.] // Вестник Томского государственного университета. Математика и механика. 2022. № 77. С. 125‒139. DOI: 10.17223/19988621/77/10
15 Effect of Mechanical Activation of Al-Ti-B Powder Mixture onPhase Composition and Structure of Al-TiB2 CompositeMaterials Obtained by Self-Propagating High-TemperatureSynthesis (SHS) / A.E. Matveev, V.V. Promakhov, P.Y. Nikitin, A.S. Babaev [et al] // Materials. 2022. Vol. 15, № 6861. Art. num. 2668. DOI: 10.3390/ma15072668
16 Structure and Properties of Metal-Matrix Composites Based on an Inconel 625-TiB2 System Fabricated by Additive Manufacturing / V.V. Promakhov, A.E. Matveev, O.G. Klimova-Korsmik, N.A. Schulz [et al] // Metals. 2022. Vol. 12, № 3. Art. num. 525. DOI: 10.3390/met12030525
17 Sverguzova S., Miroshnichenko N., Shaikhiev I., Sapronova Z., Fomina E., Shakurova A., Promakhov V.V. Application of sorbent waste material for porous ceramics production //International Journal of Engineering Transactions C: Aspects. 2021. Vol. 34, № 3. P. 621-628.
18 Review of the Problems of Additive Manufacturing of Nanostructured High-Energy Materials / Kudryashova O.B., Lerner M.I., Vorozhtsov A.B., Sokolov S.D. [et al] // Materials. 2021. Vol. 14, № 23. P. 1‒18. DOI: 10.3390/ma14237394
19 Promakhov V.V., Schults N.A., Vorozhtsov A.B., Savinykh A.S., Garkushin G.V., Razorenov S.V., Klimova-Korsmik O.G. The Strength of Inconel 625, Manufactured by the Method of Direct Laser Deposition under Sub-Microsecond Load Duration //Metals. 2021. Vol. 11, № 11. P. 1-14.
20 Matveev A.E., Promakhov V.V., Schulz N. A., Vorozhtsov A.B. Synthesis of Metal Matrix Composites Based on CrxNiy-TiN for Additive Technology // Materials. 2021. Vol. 14, № 20. P. 1‒11. DOI: 10.3390/ma14205914