Деев Владислав Борисович

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Деев Владислав Борисович

Дата рождения: 26.05.1976 г.

Образование:

1998 г. – окончил Сибирский государственный индустриальный университет, металлургический факультет (СибГИУ, г. Новокузнецк, Россия), получил квалификацию инженера-металлурга по специальности «Литейное производство черных и цветных металлов».

1998…2001 гг. – обучение в аспирантуре при кафедре литейного производства СибГИУ (г. Новокузнецк).

2009…2012 гг. – обучение в докторантуре при кафедре литейного производства СибГИУ.

Ученая степень, звание: Доктор технических наук, профессор

Профессиональная деятельность:

1999…2001 г. – ассистент, старший преподаватель кафедры литейного производства СибГИУ.

2002 г. – защита кандидатской диссертации в диссертационном совете СибГИУ.

2004 г. – присвоено ученое звание доцента ВАК по кафедре литейного производства.

2002…2013 гг. – доцент кафедры литейного производства СибГИУ.

2008…2014 гг. – заведующий кафедрой литейного производства СибГИУ.

2013 г. – защита докторской диссертации в диссертационном совете Комсомольского-на-Амуре государственного технического университета (Россия).

2014 г. (февраль-июнь) – профессор кафедры материаловедения, литейного и сварочного производства СибГИУ.

2014…2019 гг. – гл. науч. сотр. инжинирингового центра «Литейные технологии и материалы» НИТУ МИСИС (г. Москва, Россия);

2014…2019 гг. – профессор кафедры «Литейные технологии и художественная обработка материалов» НИТУ МИСИС;

2020…2022 гг. – гл. науч. сотр. лаборатории «Ультрамелкозернистые металлические материалы» НИТУ МИСИС.

С 2020 г. по настоящее время – профессор кафедры «Обработка металлов давлением» НИТУ МИСИС.

С 2022 г. по настоящее время – гл. науч. сотр. управления проектными командами Владимирского государственного университета имени А.Г. и Н.Г. Столетовых.

С 2024 г. по настоящее время – научный руководитель образовательно-инжинирингового центра материаловедения и литейных технологий (ОИЦ МЛТ) Владимирского государственного университета имени А.Г. и Н.Г. Столетовых.

Сфера научных интересов:

Теория литейных процессов.

Теория и технология процессов плавки металлических расплавов,

Физические воздействия на расплавы.

Совершенствование технологий производства отливок ответственного назначения из алюминиевых сплавов.

Разработка и технология получения литых алюмоматричных композитов.

Членство в профессиональных сообществах:

Член AssociazoneMetallurgiaItaliana.

Член International Association of Engineers.

Член EuropeanMaterialsResearchSociety

Член Российской Ассоциации литейщиков.

Член Союза Машиностроителей России.

Эксперт Федерального реестра экспертов научно-технической сферы.

Эксперт Российского научного фонда.

Член Экспертного Совета ВАК РФ по машиностроению, металлургии и металловедению.

Ссылки:

https://orcid.org/0000-0002-8349-8072

https://publons.com/researcher/2395586/vladislav-deev/

http://www.researcherid.com/rid/G-9829-2015

https://www.elibrary.ru/author_items.asp?authorid=309326

https://www.mendeley.com/authors/7005705651/

https://www.researchgate.net/profile/V_Deev2

https://www.scopus.com/authid/detail.uri?authorId=7005705651

https://link.springer.com/search?facet-creator=%22V.+B.+Deev%22

WoS ResearcherID: G-9829-2015

Scopus AuthorID: 7005705651

ORCID: 0000-0002-8349-8072

SPIN: 2220-0009

Избранные статьи, выступления, монографии с указанием общего числа публикаций

Общее число публикаций – 570 научных статей, 35 патентов, 4 монографии.

Избранные статьи:

1. Deev, V.B.; Ponomareva, K.V.; Prikhodko, O.G., Smetanyuk, S.V. Influence of temperatures of melt overheating and pouring on the quality of aluminum alloy lost foam castings // Russian Journal of Non-Ferrous Metals. 2017. 58 (4). pp. 373-377. DOI 10.3103/S1067821217040058.

2. Deev, V.B., Ponomareva, K.V., Kutsenko, A.I., Prikhodko, O.G., Smetanyuk, S.V. Influence of melting conditions of aluminum alloys on the properties and quality of castings obtained by lost foam casting. Russian Journal of Non-Ferrous Metals. 2017. 58 (5). pp. 470-474. DOI: 10.3103/S1067821217050054.

3. Deev V., Prusov E., Ponomareva K. Effect of Superheat Melt Treatment on Microstructure and Mechanical Properties of Aluminum Alloys Produced by Lost Foam Casting // Solid State Phenomena. 2018. 284 SSP. pp. 593-597. DOI: 10.4028/www.scientific.net/SSP.284.593.

4. Ri, E.Kh., Ri, K., Deev, V.B., Goncharov, A.V. Technology of obtainment of ligature alloys with rare-earth metal aluminides. Tsvetnye Metally. 2018 (4). pp. 61-66. DOI: 10.17580/tsm.2018.04.08.

5. Ri, E.Kh., Ri, K., Deev, V.B., Goncharov, A.V. The technology of synthesis of a master alloy with nickel and rare earth aluminides and its influence on the structure formation, segregation processes and properties of aluminum alloys. Tsvetnye Metally. 2018 (5). pp. 56-63. DOI:10.17580/tsm.2018.05.08.

6. Partyko, E.G., Deev, V.B., Gubanova, M.I., Tolkachyova, D.V. Influence of the shape of hydrogen-containing inclusions on the intergranular corrosion process of the Al - Si alloy system. Non-ferrous Metals. 2018. 45(2). pp. 16-21. DOI: 10.17580/nfm.2018.02.03.

7. Ri, E.H., Ri, H., Deev, V.B., Kolisova, M.V.Effect of scandium on the structure, segregation and properties of the aluminium cast alloy АМ4.5Cd. Tsvetnye Metally. 2019 (7), pp. 78-85.DOI: 10.17580/tsm.2019.07.10.

8. Vdovin K.N., Dubsky G.A., Deev V.B., Egorova L.G., Nefediev A.A., Prusov E.S. Influence of a Magnetic Field on Structure Formation during the Crystallization and Physicomechanical Properties of Aluminum Alloys. Russian Journal of Non-Ferrous Metals, 2019, Vol. 60, No. 3, pp. 247–252. DOI: 10.3103/S1067821219030155.

9. Ri, E.H., Ri, H., Deev, V.B., Kolisova, M.V.Cerium and lanthanum influence on structure formation, liquation processes and properties of АМ4,5Cd casting aluminum alloy. Tsvetnye Metally. 2019(6), pp. 61-70. DOI: 10.17580/tsm.2019.06.09.

10. Deev, V., Prusov, E., Shurkin, P., Ri E., Smetanyuk S., Chen, X., Konovalov, S. Effect of La addition on solidification behavior and phase composition of cast Al-Mg-Si Alloy. Metals, 2020, 10(12), PP. 1–12, 1673. DOI:10.3390/met10121673.

11. Nikitin, K.V., Nikitin, V.I., Deev, V.B., Timoshkin, I.Y. The structure of AlFe5 master alloys produced from recyclable scrap steel and its effect on the properties of aluminium alloys. Tsvetnye Metally. 2020(8), PP. 75-81. DOI: 10.17580/tsm.2020.08.10.

12. Khimukhin, S.N., Deev, V.B., Ri, E.K., Kim, E.D. High temperature synthesis of nickel aluminide alloys with tungsten carbide. Non-ferrous Metals. 2020. 48(1), PP. 31-34. DOI: 10.17580/nfm.2020.01.05.

13. Prikhod’ko, O.G., Deev, V.B., Prusov, E.S., Kutsenko, A.I. Influence of Thermophysical Characteristics of Alloy and Mold Material on Casting Solidification Rate. Steel in Translation, 2020, 50(5), PP. 296-302. DOI: 10.3103/S0967091220050095.

14. Deev V., Prusov E., Prikhodko O., Ri E., Kutsenko A., Smetanyuk S. Crystallization Behavior and Properties Hypereutectic Al-Si Alloys with Different Iron Content. Archives of Founry Engineering. 2020. Volume 20. Issue 4. PP. 101-107. DOI: 10.24425/afe.2020.133355.

15. Vdovin, K.N., Dubskii, G.A., Deev, V.B., Dolgushin, D.M., Nefed’ev, A.A., Egorova, L.G., Prusov, E.S.Effect of the Impulsive Magnetic Field in the Course of Crystallization of Aluminum Alloys on Their Physical Properties. Metallurgist. 2020. 63(9-10), pp. 1077-1085. DOI: 10.1007/s11015-020-00926-9.

16. Ri, E., Ri, K., Deev, V., Prusov, E.Effect of microalloying with nickel aluminides and rare-earth metals on the structure of Al-5% Cu aluminum alloy. Archives of Metallurgy and Materials. 2020. 65(2), pp. 509-513. DOI: 10.24425/amm.2020.132787.

17. Ri, E.H., Ri, H., Deev, V.B., Kolisova, M.V.Effect of strontium and zirconium on the element distribution in and structure of the Aluminium casting alloy am4.5kd (val10) and the properties of its components. Tsvetnye Metally. 2020 (1), pp. 60-67.DOI: 10.17580/tsm.2020.01.09.

18. Prusov, E.S., Deev, V.B., Aborkin, A.V., Ri, E.K., Rakhuba, E.M.Structural and Morphological Characteristics of the Friction Surfaces of In-Situ Cast Aluminum Matrix Composites. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2021, 15(6), pp. 1332–1337.

19. Deev, V.B., Ri, E.H., Prusov, E.S., Ermakov, M.A., Goncharov, A.V.Grain Refinement of Casting Aluminum Alloys of the Al–Mg–Si System by Processing the Liquid Phase Using Nanosecond Electromagnetic Pulses. Russian Journal of Non-Ferrous Metals, 2021, 62(5), pp. 522–530. DOI: 10.3103/S1067821221050023.

20. Deev, V., Prusov, E., Ri, E., Prihodko, O., Smetanyuk, S., Chen, X., Konovalov, S.Effect of melt overheating on structure and mechanical properties of al-mg-si cast alloy. Metals, 2021, 11(9), 1353.

21. Deev, V.B., Prusov, E.S., Shurkin, P.K., Ri, E.H., Smetanyuk, S.V.Cerium Effect on the Phase Composition and Crystallization Behavior of Aluminum Casting Alloys Based on the Al–Mg–Si System. Russian Journal of Non-Ferrous Metals, 2021, 62(4), pp. 424–430. DOI: 10.3103/S1067821221040064.

22. Zhang, Y., Chen, X., Jayalakshmi, S., Singh R.A., Deev, V.B., Prusov, E.S. Factors determining solid solution phase formation and stability in CoCrFeNiX0.4 (X=Al, Nb, Ta) high entropy alloys fabricated by powder plasma arc additive manufacturing. Journal of Alloys and Compounds, 2021, 857, 157625. DOI: 10.1016/j.jallcom.2020.157625.

23. Shen, Q., Kong, X., Chen, X., Yao X., Deev, V.B., Prusov, E.S. Powder plasma arc additive manufactured CoCrFeNi(SiC)x highentropy alloys: Microstructure and mechanical properties. Materials Letters, 2021, 282, 128736. DOI: 10.1016/j.matlet.2020.128736.

24. Deev, V.B., Ri, E.K., Prusov, E.S., Ermakov, M.A., Kim, E.D.Influence of Parameters of Melt Processing by Nanosecond Electromagnetic Pulses on the Structure Formation of Cast Aluminum Matrix Composites // Russian Journal of Non-Ferrous Metals, 2022, 63(4), pp. 392–399.

25. Deev, V.B., Prusov, E.S., Ri, E.H.Physical Methods of Processing the Melts of Metal Matrix Composites: Current State and Prospects // Russian Journal of Non-Ferrous Metals, 2022, 63(3), pp. 292–304.

26. Partyko, E.G., Kosovich, A.A., Deev, V.B., Belyaev, S.V.Melt sampling for hydrogen analysis optimized with the help of computer simulation // Tsvetnye Metally, 2022, 2022(8), pp. 67–71.

27. Dudareva N.Yu., Kolomeichenko A.V., Deev V.B., Sitdikov V.M. Porosity of Oxide Ceramic Coatings Formed by Micro-Arc Oxidation on High-Silicon Aluminum Alloys. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2022, Vol. 16, No. 6, pp. 1308–1314.

28. Dudareva N.Yu., Gallyamova R.F., Deev V.B., Kolomeichenko A.V. Features of Coating Formation by Micro-Arc Oxidation on High-Silicon Aluminum Alloy.Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2022, Vol. 16, No. 6, pp. 1301–1307.

29. Kolomeichenko A.V., Logachev V.N., Deev V.B., Dudareva N.Yu. Properties of Coatings Obtained by Supersonic Arc Spraying with Aerosol Fluxing. Steel in Translation, 2022, Vol. 52, No. 9, pp. 839–843.

30. Prusov E.S., Kechin V.A., Deev V.B., ShurkinP.K. Thermodynamics of the Effect of Alloying of Phase Formation during Crystallization of Aluminum Matrix Composites with Exogenous Reinforcement. Russian Journal of Non-Ferrous Metals, 2022, 63(6), pp. 631–640.

31. Prusov E.S., Deev V.B., Aborkin A.V., Panfilov A.A., Kireev A.V.Formation of the Structure and Phase Composition of Cast Aluminum Matrix Composites during Multiple Remelting. Russian Journal of Non-Ferrous Metals, 2022, 63(6), pp. 624–630.

32. Deev, V.B., Ri, E.K., Prusov, E.S., Ermakov, M.A., Kim, E.D.Influence of Parameters of Melt Processing by Nanosecond Electromagnetic Pulses on the Structure Formation of Cast Aluminum Matrix Composites. Russian Journal of Non-Ferrous Metals, 2022, 63(4), pp. 392–399.

33. Prusov, E.S., Deev, V.B., Aborkin, A.V., Bokaryov, D.V., Kireev, A.V.Metallurgical Processes at the Recycling of Aluminum Matrix Composites Via Direct Remelting. Metallurgist, 2022, 66(7-8), pp. 989–1000.

34. Deev, V.B., Prusov, E.S., Ri E.H.Microstructural modification of in-situ aluminum matrix composites via pulsed electromagnetic processing of crystallizing melt // Non-ferrous Metals, 2023, 54(1), PP. 36–40. DOI: 10.17580/nfm.2023.01.06.

35. Aborkin A.V., Prusov E.S., Deev, V.B., Bokaryov D.V.The influence of mechanical processing of chip waste from cast Al – Si – B4C composites on the structure and properties of consolidated billets // Non-ferrous Metals, 2023, 55(2), PP. 41–46. DOI: 10.17580/nfm.2023.02.07.

36. Dudareva, N.Yu., Kolomeychenko, A.V., Deev, V.B., Zaynullina, L.I.Effect of the chemical composition of aluminium alloys on the structure and properties of micro-arc oxidation coatings. Tsvetnye Metally, 2023, 2023(11), C. 62–67.

37. Deev, V.B., Arapov, S.L., Kosovich, A.A., Lesiv, E.M.Determination of rational heat treatment modes for new high-manganese austenitic steel using thermodynamic modeling. ChernyeMetally, 2023, 2023(11), C. 75–80.

38. Dudareva, N.Y., Kolomeychenko, A.V., Deev, V.B., Sitdikov, V.M.Corrosion resistance of oxide layers formed by micro-arc oxidation on hypereutectic aluminum alloy. Tsvetnye Metally, 2023, 2023(10), C. 56–61.

39. Deev, V.B., Ri, E.H., Prusov, E.S., Ermakov, M.A.Structure of pseudobinary hypoeutectic aluminium alloys altered under the influence of electromagnetic pulses. TsvetnyeMetally, 2023, 2023(6), C. 84–90.

40. Prikhodko, O.G., Deev, V.B., Kutsenko, A.I., Prusov, E.S.Analysis of the Solidification Process of Castings Depending on Their Configuration and Material of the Mold. CIS Iron and Steel Review, 2023, 25, C. 31–38.

41. Deev, V.B., Prusov, E.S., Ree, E.Kh., Kim, E.D.Influence of treatment of melts by nanosecond electromagnetic pulses on the distribution of elements in the structure of cast aluminum matrix composites. Tsvetnye Metally, 2023, 2023(7), C. 64–69.

42. Deev, V.B., Prusov, E.S., Ri, E.K., Shabaldin, I.V.Structure and properties of cast in-situ metal matrix composites with strontium addition. Non-ferrous Metals, 2024, 56(1), pp. 35–40.

43. Deev, V.B., Prusov, E.S., Ri, E.K.Structural optimization of cast in-situ aluminum matrix composites: Challenges and opportunities. Non-ferrous Metals, 2024, 56(1), pp. 41–48.

44. Dudareva, N.Yu., Kolomeichenko, A.V., Deev, V.B.Corrosion resistance of ceramic coatings formed by microarc oxidation on aluminium alloy AK4-1. Tsvetnye Metally, 2024, 2024(3), pp. 26–33.

45. Deev, V.B., Prusov, E.S., Ri, E.K., Shabaldin, I.V.Modification of cast aluminum matrix composite materials with barium. Tsvetnye Metally, 2024, 2024(4), pp. 15–20.

46. Deev, V.B., Prusov, E.S., Ri, E.K., Shabaldin, I.V.Influence of sodium on the structure and properties of aluminum matrix composite materials based on pseudobinary eutectic. Tsvetnye Metally, 2024, 2024(5), pp. 50–56.

47. Aborkin, A.V., Prusov, E.S., Deev, V.B., Ryabkova, V.V.The influence of iron on mechanical properties of aluminum matrix composites of the al – si – sic system during solid-phase recycling of chips. Tsvetnye Metally, 2024, 2024(7), pp. 67–73.

48. Prusov, E.S., Deev, V.B., Shabaldin, I.V., Aborkin, A.V.Refining of metal matrix composite melts with exogeneous carbide phases. Tsvetnye Metally, 2024, 2024(8), pp. 76–81.

49. Prusov, E.S., Deev, V.B., Aborkin, A.V.Interaction of aluminium-silicon melts with boron carbide during multiple remelts of composite materials. Tsvetnye Metally, 2024, 2024(1), pp. 50–56.

50. Aborkin, A.V., Prusov, E.S., Deev, V.B., Bokaryov D.V., Babin, D.M., Vilkov, I.V.Solid-phase recycling of non-compact waste of cast metal-matrix composites. Metallurgist, 2024, 67(11-12), С. 1705–1714.

51. Aborkin, A., Prusov, E., Deev, V., Babin, D., Bokaryov, D., Ryabkova, V. Structure and mechanical properties of consolidated billets from recycled chip wastes of cast metal matrix composites of the Al-Si-SiC system. Journal of Alloys and Compounds, 1010 (2025) 177059. DOI: 10.1016/j.jallcom.2024.177059.

Выступления:

1. Deev V. B., Prikhodko O. G., Ponomareva K. V., (...), Kh. Ri. E., Smetanyuk S. V. Simulation of crystallization parameters of casting alloys during modifying treatment by physical impact. IOP Conference Series: Materials Science and Engineering, 2018, 411(1), 012026.

2. Deev V., Ri E., Prusov E. Effect of aluminum melt treatment by nanosecond electromagnetic pulses on structure and properties of castings. 73rd World Foundry Congress “Creative Foundry”, WFC 2018 – Proceedings. с. 155-156.

3. Ri E., Ri K., Deev V., Prusov E. Microalloying of Al-5%Cu aluminum alloy with nickel aluminides and rare-earth metals. 73rd World Foundry Congress “Creative Foundry”, WFC 2018 – Proceedings. с. 159-160

4. Deev V., Ri E., Prusov E. Mechanism of influence of nanosecond electromagnetic pulses on crystallization behavior of aluminum alloys. METAL 2018 - 27th International Conference on Metallurgy and Materials, Conference Proceedings. с. 1363-1368.

5. Prusov E., Deev V., Rakhuba E. Effect of superheat melt treatment on structure and mechanical properties of in-situ aluminum matrix composites. METAL 2018-27^th International Conference on Metallurgy and Materials, Conference Proceedings. с. 1358-1362.

6. Deev V.B., Prusov E.S., Shunqi M., Ri E.H., Bazlova T.A., Temlyantsev M.V., Smetanyuk S.V., Ponomareva S.V., Vdovin K.N. The influence of the melt cooling rate on shrinkage behaviour during solidification of aluminum alloys. IOP Conf. Series: Materials Science and Engineering. 537 (2019) 022080. DOI: 10.1088/1757-899X/537/2/022080.

7. Deev, V.B., Prikhodko, O.G., Prusov, E.S., Protopopov, E.V., Temlyantsev, M.V., Kutsenko, A.I., Mei, Shunqi, Ri, E.K., Smetanyuk, S.V., Ponomareva, K.V., Gavrilov, G.N. Development of a method for calculating time and solidification coefficient of castings in sand-clay molds. IOP Conference Series: Materials Science and Engineering. 2020. 866(1), 012011. DOI: 10.1088/1757-899X/866/1/012011.

8. Deev, V.B., Prikhodko, O.G., Prusov, E.S., Protopopov, E.V., Temlyantsev, M.V., Kutsenko, A.I., Mei, Shunqi, Ri, E.K., Bazlova, T.A., Smetanyuk, S.V., Sokorev, A.A. Development of methods for calculating the solidification time of castings and ingots in metal mold. IOP Conference Series: Materials Science and Engineering. 2020. 866(1), 012012. DOI: 10.1088/1757-899X/866/1/012012.

9. Prusov, E.S., Deev, V.B., Panfilov, A.A., Temlyantsev, M.V. Features of the structure formation in the process of obtaining cast aluminum matrix nanocomposites using ultrasonic melt treatment. IOP Conference Series: Materials Science and Engineering. 2020. 866(1), 012055. DOI: 10.1088/1757-899X/866/1/012055.

10. Nikitin, K.V., D'yachkov, V.N., Nikitin, V.I., Barinov, A. Yu., Deev, V.B. Influence of temperature conditions on the shrinkage of wax patterns for investment casting. IOP Conference Series: Materials Science and Engineering. 2020. 919 (2). 022041. DOI:10.1088/1757-899X/919/2/022041.

11. Deev, V.B., Prusov, E.S., Ri, E.H., Smetanyuk, S.V., Feoktistov, A.V. Improving the wear resistance of cast aluminum alloys by the melt thermal-rate treatment. Journal of Physics:Conference Series:2020. 1679, 052011. DOI: 10.1088/1742-6596/1679/5/052011.

12. Deev, V., Ri, E., Prusov, E., Ermakov, M., Slavinskaya, N. Structure formation of cast Al-Mg-Si alloys during the melts irradiation with nanosecond electromagnetic pulses. IOP Conference Series: Materials Science and Engineering. 2020, 1001(1), 012054. DOI: 10.1088/1757-899X/1001/1/012054.

13. Prusov, E., Deev, V., Kechin, V. Selection of reinforcing phases for aluminum matrix composites using thermodynamic stability criterion // METAL 2020 - 29th International Conference on Metallurgy and Materials, Conference Proceedings, May 20-22, 2020, Brno, Czech Republic, EU. pp. 1067–1072. DOI: 10.37904/metal.2020.3609.

14. Deev, V.B., Prihodko, O.G., Prusov, E.S., Kutsenko, A.I., Shunqi, M., Aksenov, A.A., Bazlova, T.A. Calculations of some thermo-physical properties of aluminum alloys using data of thermal analysis. IOP Conference Series: Materials Science and Engineering. 2020. 734(1), 012076. DOI: 10.1088/1757-899X/734/1/012076.

15. Prusov, E.S., Shabaldin, I.V., Deev, V.B. Quantitative characterization of the microstructure of in situ aluminum matrix composites. Journal of Physics: ConferenceSeries, 2021, 2131(4), 042040.

Место работы: Владимирский государственный университет имени А.Г. и Н.Г. Столетовых, НИТУ МИСИС

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