Polskiy V.I.

Polskiy Valeriy I.

Degree: Candidate of Sciences (PhD) in Physics and Mathematics

Associate Professor

Division of Nuclear Physics and Technologies, Office of Academic Programs (411) / Institute of Nuclear Physics and Engineering

Deputy Head of a Division

Institute of Nuclear Physics and Technology: Education Division / Institute of Nuclear Physics and Engineering
Works at MEPhI since 1976
Work Experience: 18 years

Education

1976 — National Research Nuclear University MEPhI

Courses

1. Compatibility, Corrosion and Protection of Materials
2. Fusion Reactor Materials
3. Industry Workshop (Scientific Research Work): Application of Experimental, Theoretical and Computational Methods of Materials Research in the Field Of Energy
4. Materials for Fusion Reactors
5. Materials Science: Environmental Issues
6. Practical Training (Research Work)
7. Professional Practice (Academic Research on Application of Experimental, Theoretical and Calculation Methods in the Field of Elementary Particles and Cosmology)
8. Scientific Research Work
9. Special Issues of Material Fusion Reactor
10. Thermonuclear Experimental Reactor Materials

Publication activity

3
h-index (Web of Science)
4
h-index (Scopus)
  1. Article
    Web of Science & Scopus
    Applying Scanning Contact Potentiometry for Monitoring Incipient Cracks in Steels // Russian Journal of Nondestructive Testing, 2019 Vol. 55, No. 1 pp. 59-67 doi
  2. Article
    Web of Science & Scopus
    Experimental investigation of the failure of steel AISI 316 by the methods of structural analyses // Letters on Materials, 2019 Vol. 9, No. 1 pp. 33-38 doi
  3. Article
    Web of Science & Scopus
    Direct metal laser deposition of titanium powder Ti-6Al-4V // Journal of Physics: Conference Series, 2018 Vol. 941, No. 1 doi
  4. Article
    Web of Science & Scopus
    Investigation of microstructure and thermal stability of pulsed plasma processed chromium ferritic-martensitic steels // IOP Conference Series: Materials Science and Engineering, 2016 Vol. 130, No. 1 doi
  5. Article
    Web of Science & Scopus
    Increasing corrosion resistance of carbon steels by surface laser cladding // IOP Conference Series: Materials Science and Engineering, 2016 Vol. 130, No. 1 doi
  6. Article
    Web of Science & Scopus
    Influence of the pulsed plasma treatment on the corrosion resistance of the low-alloy steel plated by Ni-based alloy // IOP Conference Series: Materials Science and Engineering, 2016 Vol. 130, No. 1 doi
  7. Article
    Web of Science & Scopus
    Properties of multilayer coatings produced by coaxial laser cladding // Journal of Physics: Conference Series, 2016 Vol. 747, No. 1 doi
  8. Article
    Web of Science & Scopus
    Analysis of microstructure and properties of multilayer coatings produced by laser cladding // Journal of Physics: Conference Series, 2016 Vol. 691, No. 1 doi
  9. Article
    Web of Science & Scopus
    Development of the recovery technology for nickel superalloy blades of the aircraft engine by laser cladding // Journal of Physics: Conference Series, 2016 Vol. 747, No. 1 doi
  10. Article
    Web of Science & Scopus
    Surface hardening of construction materials by method of laser cladding of heat-resistant nickel alloys // Tsvetnye Metally, 2015 Vol. 2015, No. 3, Q3 pp. 31-36 doi
  11. Article
    Web of Science & Scopus
    Influence of additions of nanoparticles TaC on a microstructure laser cladding // Journal of Physics: Conference Series, 2015 Vol. 594, No. 1 doi
  12. Article
    Web of Science & Scopus
    Surface hardening of structural materials by laser cladding with nickel alloys // Non-ferrous Metals, 2015 Vol. 2015, No. 1, Q4 pp. 50-55 doi
  13. Article
    Web of Science & Scopus
    Change of phase composition of metals by the radiation of the fiber laser for management of their magnetic characteristics // Journal of Physics: Conference Series, 2015 Vol. 594, No. 1 doi
  14. Article
    Web of Science & Scopus
    Modification of the structural-phase state of titanium alloys by concentrated energy flows // Tsvetnye Metally, 2015 Vol. 2015, No. 11, Q3 pp. 57-62 doi
  15. Article
    Web of Science & Scopus
    Structure formation and properties of weld overlay produced by laser cladding under the influence of nanoparticles of high-melting compounds // Physics Procedia, 2015 Vol. 71 pp. 202-206 doi
  16. Article
    Web of Science & Scopus
    Formation of multilayer claddings using high-power fiber laser radiation // Physics Procedia, 2015 Vol. 71 pp. 227-231 doi
  17. Article
    MEPhI publication
    Influence of Additions of TaC Nanoparticles on a Microstructure of Laser Claddings // Nuclear Physics and Engineering, 2014 Vol. Т. 5, No. N 1 pp. 49-56
  18. Article
    MEPhI publication
    Specific Features of Laser Welding of a Molybdenum Alloy and Metallographic Studies of Welded Connections // Nuclear Physics and Engineering, 2014 Vol. Т. 5, No. N 3 pp. 264-269
  19. Article
    Web of Science & Scopus
    Surface alloying of thin-walled metallic tube fragments using pulsed gas plasma flows // Russian Metallurgy (Metally), 2014 Vol. 2014, No. 7, Q3 pp. 561-568 doi
  20. Article
    Web of Science & Scopus
    Processing Features of Laser Facing Structure Formation Using Powerful Fiber Laser Radiation // Metal Science and Heat Treatment, 2014 Q3 doi

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