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  PUBLICATIONS

Books:

Yu. Meshkov, S. Kotrechko, A. Shiyan. Mechanical stability of metals and alloys. Kyiv. Naukova Dumka. 2014.p. 266 (in Russian).

S. Kotrechko, Yu. Meshkov. Limiting strength. Crystals, metals and structures. Kyiv. Naukova Dumka. 2008.p. 295 (in Russian).

Articles:

  1. S. Kotrechko, O. Ovsjannikov, N. Stetsenko, I. Mikhailovskij, T. Mazilova & M. Starostenkov.  Yield strength temperature dependence of tungsten nanosized crystals: experiment and simulation. Philosophical Magazine. 2016 Volume 96, Issue 5, pages 473-485.
  2. Relation between the strength and dimensionality of defect-free carbon crystals Sergiy Kotrechko, Andrey Timoshevskii, Eugene Kolyvoshko and Yuriy Matviychuk, Nanoscale research letters, desember 2015
  3. A. Timoshevskii, S. Kotrechko, and Yu. Matviychuk Atomic structure and mechanical properties of carbyne. Phys. Rev. B 2015, 91: 45434- 10.
  4. Kotrechko S., I.Mikhailovskij, T.Mazilova, E.Sadanov, A.Timoshevskii, N.Stetsenko,Y. Matviychuk. Mechanical properties of carbyne: experiment and simulations. Nanoscale Research Letters. 2015, 10:24. doi:10.1186/s11671-015-0761-2. 
  5. Kotrechko S. Timoshevskii, I. Mikhailovskij, T. Mazilova, N. Stetsenko, O. Ovsijannikov, V. Lidych Atomic mechanisms governing upper limit on the strength of nanosized crystals Engineering Fracture Mechanics, . 2015, 150, p.184-196.
  6. Kotrechko S., Timoshevskij A., S. Yablonovskii S., Mikhailovskij I., Mazilova T., Lidych V. The absolute upper limit of material strength and ways to reach it. Procedia Materials Science, Vol. 3 (2014), pp 391 – 396.
  7. Kotrechko S., Mikhailovskij I., Mazilova T., Ovsjannikov O. Strength hierarchy for nano-sized crystals. Key Engineering Materials, Vols. 592-593 (2014), pp 301-306.
  8. Mikhailovskij I., Sadanov E., Kotrechko S., Ksenofontov V., Mazilova T. Measurement of the inherent strength of carbon atomic chains. Physical review B 87, 045410 (2013).
  9. Yu. Ya. MeshkovS. A. KotrechkoA. V. Shiyan Assessing structural steel in terms of its strength  Steel in Translation, 2013, vol.43, no 12, pp 846-849
  10. An approach to predicting the limiting state of reactor pressure vessel metal on the basis of the mechanical stability concept  Strength of Materials, Vol. 44, No 3, May 2012,  Kotrechko S., Meshkov Yu
  11. High-field formation of multipoint field-electron emitters T. I. MazilovaS. A. KotrechkoA. A. MazilovN. I. Maslov Technical physics letters, 2012, vol.38, No 4 p 340-343
  12. Quality assessment of structural steels Yu. Ya. MeshkovS. A. KotrechkoA. V. ShiyanV. I. Bol’shakov  Steel in Translation, 2012, vol.42, no 8, pp 663-668
  13. Experimental determination of the mechanical strength of monatomic carbon chains S. A. KotrechkoA. A. MazilovT. I. MazilovaE. V. Sadanov   Technical Physics Letters  20012, Vol.38, no 2, pp 132-134
  14. Kotrechko S., Mamedov S., Dlouhy I., Kozak V. Use of Local Approach for Prediction of the Irradiation Effect on Fracture Toughness of Pressure Vessel Steel. Key Engineering Material, Vol. 465 (2011), pp 568-573.
  15. Bakai A., Shpak A, Wanderka N., Kotrechko S., Mazilova T., Mikhailovskij I. Inherent strength of zirconium-based bulk metallic glass. Journal of Non-Crystalline Solids, Vol. 356 (2010), pp 1310–1314.
  16. Mazilova T., Kotrechko S., Sadanov E., Ksenofontov V., Mikhailovskij I. High-field formation of linear carbon chains and atomic clusters. International Journal of Nanoscience, Vol. 9, No. 3 (2010), pp 151–157.
  17. Ductility and cold resistance of structural steels S. A. KotrechkoYu. Ya. MeshkovA. V. Shiyan  Strength of Materials, Vol. 42, No 1, 2010
  18. Dubinko V., Klepikov V., Kotrechko S. Irradiation hardening of reactor pressure vessel steels due to the dislocation loop evolution. Radiation Effects and Defects in Solids, Vol. 164, Issue 10 (2009), pp 647 – 655.
  19. Kotrechko S., Ovsjannikov A. Temperature dependence of the yield stress of metallic nano-size crystals. Philosophical magazine, Vol. 89, No 33 (2009), pp 3049-3058.
  20. Shpak A., Kotrechko S., Mazilova T., Mikhailovskij I. Inherent tensile strength of molybdenum nanocrystals. Sci. Technol. Adv. Mater. 10, 045004 (2009), pp 1-9.
  21. Local approach to fracture-based prediction of reactor pressure vessel lifetime. Kotrechko S., Meshkov Yu. Strength of Materials, Vol. 41, No 1, May 2009
  22. A concept of mechanical stability of structural steels. S. A. KotrechkoYu. Ya. Meshkov    Strength of Materials   Vol 41, no 2, 2009
  23. Kotrechko S., Meshkov Yu. A new approach to estimate irradiation embrittlement of pressure vessel steels. Int. J. Press. Vessel Piping, Vol. 85, Issue 5 (2008), pp 336-343.
  24. Kotrechko S., Strnadel B., Dlouhy I. Fracture toughness of cast ferritic steel applying local approach. Theoretical and Applied Fracture Mechanics, 47 (2007), pp 171–181.
  25. Kotrechko S., Filatov A., Ovsjannikov A. Peculiarities of plastic deformation and failure of nanoparticles of b.c.c. transition metals. Materials Science Forum, Vols. 567-568 (2007), pp. 65-68.
  26. The phenomenon of anisotropy of the resistance to microcleavage for a carbon steel prestrained in compression S. A. KotrechkoA. V. KucherYu. A. PolushkinG. S. Mettus Strength of Materials, Vol. 39, No 6, 2007
  27. Kotrechko S., Filatov A., Ovsjannikov A. Molecular dynamics simulation of deformation and failure of nanocrystals of bcc metals. Theoretical and applied fracture mechanics, 45 (2006), pp. 92-99.
  28. Effect of the size of martensite laths and carbide particles on the “brittle” strength of low-carbon martensitic steels S. A. KotrechkoYu. Ya. MeshkovR. V. Televich   Metal Science and Heat Treatment Vol. 48, Nos.9-10, 2006
  29. Kotrechko S., Krasovsky A., Meshkov Yu., Torop V. Long-term service effect on the toughness of pipeline steel 17GS. International Journal of Fracture, Vol. 128 (2004), pp 171-182.
  30. Kotrechko S., Stetsenko N., Shevchenko S. Effect of texture smearing on the anisotropy of cleavage-stress of metals and alloys. Theoretical and Applied Fracture Mechanics, 42 (2004), pp 89-98.
  31. Dnieprenko V., Kotrechko S. Nucleation of micro-cracks for polycrystalline metal with anisotropy: micro-stress evaluation. Theoretical and Applied Fracture Mechanics, 403 (2003), ðp 271-277.
  32. A Local Approach to Brittle Fracture Analysis and Its Physical Interpretation S. A. Kotrechko  Strength of Materials Vol. 35, no 4, 2003
  33. Effect of the Characteristics of Low-Temperature Plastic Deformation of Metals with bcc Lattice on the Stress-Strain State at the Tip of a Macrocrack S. A. KotrechkoV. A. Popovich   Strength of Materials, Vol. 34, No 5, 2002
  34. Kotrechko S. Physical Fundamentals of Local Approach to Analysis of Cleavage Fracture. Transferability of Fracture Mechanical Characteristic. I. Dlouhy (ed), NATO Science Series. Series II, Vol. 78 (2002), pp.135-150.
  35. Physical Fundamentals of Local Approach to Analysis of Cleavage Fracture  Kotrechko S., Transferability of Fracture Mechanical Characteristics pp. 135-150
  36. Kotrechko S., Meshkov Yu., Dlouhy I. Computer simulation of effect of grain size distribution on Weibull parameters. Theoretical and applied fracture mechanics, Vol. 35 (2001), pp 255-260.
  37. Physical Fundamentals of a Local Approach to Analysis of Brittle Fracture of Metals and Alloys  Kotrechko S., Meshkov Yu Strength of Materials, Vol. 37, No 4,  2001
  38. Physical Interpretation of Fracture Characteristics Determined in Testing Charpy Specimens by Impact Bending  Kotrechko S., Meshkov Yu  Strength of Materials, Vol. 33, No 4,  2001

© G.V. Kurdyumov Institute for Metal Physics, N.A.S.U., 2024