Русская версия
| Vladimir Uglov | Viktor Anishchik | Poliak Natallia | Nikolai Cherenda | Shymanski Vitaliy I | Sergey Zlotski | Liudmila Baran | Kuleshov Andrej Konstantinovich | Rusalsky Dmitry Petrovich |
Фотография

Nikolai Cherenda

Position:Associate professor
Degree:Ph.D.
Contacts: :Room 113   Phone 2265834     e-mail Cherenda@bsu.by
Teaching:Introduction to Solid State Physics

Construction Materials of Nuclear Reactors

Fuel Material of Nuclear Reactors

Techniques of Mechanical Tests
Research:Interaction of ions and plasma with solids. Materials science
Main papers:Books:

N.N. Cherenda, V.V. Uglov. Modification of Steels Microhardness by Compression Plasma Flows. In: Handbook of Material Science Research. Editors: Charles Rene and Eugene Turcotte, Nova Science Publishers, NY, 2010, pp. 125-172.



Articles:

1. Uglov V. V., Khodasevich V. V., Cherenda N. N., Kasko I. V., Kutsanov V. A., Tribological properties of ion-implanted high-chromium steel, Surface and Coating Technology, 66 (1994) 283-287 p.

2. V.V. Uglov, A.P. Laskovnev, N.N. Cherenda, V.V. Khodasevich, The effect of nitrogen implantation on the tribological properties of composite aluminium alloys, Surface and Coatings Technology 83 (1996) 296-300

3. V.V. Uglov, N.N. Cherenda, A. Koeniger, W. Brueckner, B. Rauschenbach, V.V. Khodasevich, Structure and phase composition of low friction carbon coatings deposited on aluminium surface, Surface and Coatings Technology 97 (1997) 322-325

4. V.V. Uglov, N.N. Cherenda, V.V. Khodasevich, A.L.Danilyuk, A. Wenzel, J. Gerlach, B. Rauschenbach. Successive implantation of aluminium by carbon and nitrogen ions. Surface and Coatings Technology 103-104 (1998) 312-316

5. A.L. Danilyuk, V.V. Uglov, N.N. Cherenda. Effect of Oxygen Ion Implantation on the Properties of Al and Si. Inorganic Materials. Vol. 34, No 8, 1998, p.783-786.

6. V.V. Uglov, N.N. Cherenda, V.V. Khodasevich, B. Rauschenbach, I.Hartmann. Rutherford backscattering analysis of the element composition of aluminium implanted by carbon and nitrogen ions. Surface Investigations, 1998, Vol. 13, pp. 355-359.

7. V.V. Uglov, N.N. Cherenda, V.V. Khodasevich, V.A. Sokol, I.I. Abramov, A.L. Danilyuk, A. Wenzel, J. Gerlach, B. Rauschenbach, Formation of complex Al-N-C layer in aluminium by successive carbon and nitrogen implantation, Nuclear Instruments and Methods in Physics Research, B147 (1999) 332-336.

8. V.V. Uglov, N.N. Cherenda, A.L. Danilyuk, B. Rauschenbach. Structural and phase composition changes in aluminium induced by carbon implantation. Surface and coatings technology 128-129 (2000) 358-363.

9. N.N. Cherenda, V.V. Uglov, G.V. Litvinovich, A.L. Danilyuk. The effect of Ti ions implantation on the structure of anodic alumina films. Nuclear Instruments and Methods in Physics Research, B 211 (2003) p.219-226.

10. N.N. Cherenda, V.V. Uglov, G.V. Litvinovich, A.L. Danilyuk. Ion-beam induced modification of pores array in anodic alumina. Nuclear Inst. and Methods in Physics Research, B, Vol 216, 2004, pp 340-345

11. V.V. Uglov, V.M. Anishchik, V.V. Astashynski, E.K. Stalmoshenok, D.P. Rusalsky, N.N. Cherenda, I.N. Rumyanceva, V.V. Askerko, A.M. Kuz’mitski. Structure-phase transformation of high speed steel by various high intensity ion-plasma treatments. Surface and Coatings Technology Vol. 180-181, 2004, pp. 108-112

12. V.M.Astashynski, S.I.Ananin, V.V.Askerko, E.A.Kostyukevich, A.M.Kuzmitski, V.V.Uglov, V.M.Anishchik, N.N.Cherenda, Yu.V.Sveshnikov, N.T.Kvasov, A.L.Danilyuk, A.V.Punko. Nanostructured formations and coatings created on the surface of materials exposed to compression plasma flows // Problems of Atomic Science and Technology. Series: Plasma Physics (10). 2005, N 1, pp. 166-168.

13. V.M. Astashynski, I.G. Gimro, A.M. Kuzmitski, E.A. Kostyukevich, A.V. Kovyazo, A.A. Mishchuk, V.V. Uglov, V.M. Anishchik, N.N. Cherenda, E.K. Stalmashonak. Modification of coating-substrate systems under the action of compression plasma flow // Problems of Atomic Science and Technology. Series: Plasma Physics (11). 2005, N 2, p.p. 217-219.

14. N. N. Cherenda, V.V. Uglov, V.M. Anishchik, A.K. Stalmashonak, V.M. Astashinski. Structure-phase transformations in high-speed steel treated by compression plasma flow. Vacuum. Vol. 78/2-4, 2005, pp. 483-487.

15. V.M.Astashynski, S.I.Ananin, V.V.Askerko, E.A.Kostyukevich, A.M.Kuzmitski, V.V.Uglov, N.N.Cherenda, V.M.Anishchik, Yu.V.Sveshnikov, V.V.Astashynski, N.T.Kvasov, A.L.Danilyuk, A.V.Punko. Deposition of nanostructured metal coatings on the modified silicon surfaces in the magnetoplasma compressor. Vacuum. Vol. 78/2-4, 2005, pp. 157-160

16. V.V. Uglov, V.M. Anishchik, N.N. Cherenda, A.K. Stalmashonak, V.M. Astashinski, A.M. Kuzmickii, E.A. Kostyukevich, A.V. Kovyazo. Mixing of chromium/carbon steel by compressive plasma flows. Vacuum. Vol. 78/2-4, 2005, pp. 489-493

17. V.V. Uglov, V.M. Anishchik, N.N. Cherenda, Yu. V. Sveshnikov, V.M. Astashynski, E.A. Kostyukevich, A.M. Kuzmitski, V.V. Askerko, G. Thorwath, B. Stritzker, N.T. Kvasov and L.A. Danilyuk. The formation of low-dimensional structures by compressive plasma flows. Surface & Coatings Technology. Vol. 200, 2005, pp. 297-300.

18. V.V. Uglov, V.M. Anishchik, V.M. Astashynski, N.N. Cherenda, I.G. Gimro and A.V. Kovyazo. Modification of WC hard alloy by compressive plasma flow. Surface & Coatings Technology. Vol. 200, 2005, pp. 245-249.

19. N.N. Cherenda, V.V. Uglov, V.M. Anishchik, A.K. Stalmashonak, V.M. Astashinski, A.M. Kuzmickii, A.V. Punko, G. Thorwath, B. Stritzker. Modification of high-speed steels by nitrogen compression plasma flow: structure, element composition, tribological properties. Surface & Coatings Technology. Volume/Issue 200/18-19, 2006, pp. 5334-5342.

20. N.N. Cherenda, V.V. Uglov, V.M. Anishchik, A.K. Stalmashonak, V.M. Astashinski, A.M. Kuzmitski, G. Thorwarth, B. Stritzker. Modification of AISI M2 steel tribological properties by means of plasma mixing // Vacuum 81 (2007) 1337–1340

21. V.V. Uglov, N. N. Cherenda, V.M. Anishchik, A.K. Stalmashonak, V.M. Astashinski, A.A. Mishchuk. Formation of alloying layers in a carbon steel by compression plasma flows // Vacuum 81 (2007) 1341–1344

22. V.V. Uglov, N.N. Cherenda, V.M. Anishchik, A.K. Stalmashonak, A.G. Kononov, Yu. A. Petuhov, V.M. Astashynski and A.M. Kuzmitski. "Surface alloying of metals using a quasi-stationary plasma accelerator". Journal of High Temperature Material Processes, An International Quarterly of High Technology Plasma Processes. 2007, Vol. 11, issue 3, pp 383 – 392.

23. V.M. Astashynski, S.I. Ananin, E.A. Kostyukevich, A.M. Kuzmitski, V.V. Uglov, V.M. Anishchik, N.N. Cherenda, A.K. Stalmashonak, Yu.V. Sveshnikov, N.T. Kvasov, A.L. Danilyuk and A.V. Punko. Comprehensive modification of semiconductors and metals providing new structural features of surface layers subjected to compression plasma flows. Journal of High Temperature Material Processes, An International Quarterly of High Technology Plasma Processes, 2007, volume 11, issue 4, pp 536 – 548.

24. V.V. Uglov, V.M. Anishchik, N.N. Cherenda, Yu.V. Sveshnikov, V.M. Astashynski, E.A. Kostyukevich, A.M. Kuzmitski, V.V. Askerko. The formation of a tungsten containing surface layer in a carbon steel by compression plasma flow. Surface & Coatings Technology 202 (2008) 2439–2442.

25. N. N. Cherenda, V.V. Uglov, M.G. Poluyanova, V.M. Astashynski, A.M. Kuzmitski, A.D. Pogrebnjak, B. Stritzker. The influence of the coating thickness on the phase and element composition of a “Ti coating / steel” system surface layer treated by a compression plasma flow. Plasma Processes and Polymers. No. 6, 2009, S178-S182.

26. N.N. Cherenda, V.V. Uglov, V.I. Shymanski, V.M. Astashynski, A.M. Kuzmitski. Modification of chromium/titanium system phase composition and mechanical properties by compression plasma flows. Journal of Optoelectronics and Advanced Materials. Vol. 12, No. 3, 2010, p. 749 – 753.

27. V. V. Uglov, N. N. Cherenda, E. K. Stal’moshenok, M. G. Poluyanova, V. M. Astashinskii, and A. M. Kuz’mitskii. Effect of Titanium Concentration on the Structural-Phase State of the Surface Layer of Carbon Steel Alloyed under the Action of Compression Plasma Flows. Inorganic Materials: Applied Research, 2010, Vol. 1, No. 2, pp. 155–161.

28. N. N. Cherenda, V. V. Uglov, N. V. Bibik, S. V. Gusakova, V. M. Astashinskii, A. M. Kuzmitskii, and V. A. Ukhov. Modification of Structure and Mechanical Properties of High_Speed Steel P18 at Combined Plasma and Thermal Treatment. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 2011, Vol. 5, No. 2, pp. 305–309

29. N. S. Tarasyuk, V. V. Uglov, N. N. Cherenda, and V. A. Ukhov. Alloying of Structural Steel with Molybdenum and Titanium under the Action of Compression Plasma. Inorganic Materials: Applied Research, 2011, Vol. 2, No. 5, pp. 540–544.

30. N. N. Koval, Yu. F. Ivanov, A. P. Laskovnev, V. V. Uglov, N. N. Cherenda, Yu. A. Kolubaeva, Ye. А. Markova, A. D. Teresov, and P. V. Moskvin. Structure and properties of the surface alloy formed by irradiating a film/substrate system with a high-intensity electron beam. Russian Physics Journal, Vol. 54, No. 9, 2012. p. 1024-1033

31. N.N. Cherenda, V. I. Shimanskii, V. V. Uglov, V. M. Astashinskii, and V. A. Ukhov Nitriding of Steel and Titanium Surface Layers under the Action of Compression Plasma Flows Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 2012, Vol. 6, No. 2, p. 319-325

32. N. N. Cherenda, V. I. Shymanski, V. V. Uglov, V. M. Astashinskii, A. M. Kuz’mitskii, N. N. Koval’, Yu. F. Ivanov, A. D. Teresov. Formation of Zirconium–Titanium Solid Solutions under the Action of Compression Plasma Flows and High-Current Electron Beams. Inorganic Materials: Applied Research, 2012, Vol. 3, No. 5, pp. 365–370.

33. V. M. Astashynski, A. Ya. Leyvi, K. A. Talala, V. V. Uglov, N. N. Cherenda, and A. P. Yalovets. Change in the Relief of a Target Surface Treated by Compression Plasma Flows. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 2013, Vol. 7, No. 5, pp. 1005–1012.

34. V. V. Uglov, V. I. Shymanski, N. N. Cherenda, V. A. Lyushkevich, V. M. Astashinskii, M. V. Astashinskaya, and O. V. Reva. Formation of Titanium Nickelide Surface Alloy under Impact of Compressive Plasma Flows on the Nickel–Titanium System. Inorganic Materials: Applied Research, 2013, Vol. 4, No. 5, pp. 475–480.

35. Ivanov Yurii, Petrikova Elizaveta, Cherenda Nikolay, Teresov Anton. Hardening of the Surface Layer of Silumin by Electron Beam. Advanced Materials Research Vol. 872 (2014) pp 162-166.

36. N.N. Cherenda, V.V. Uglov, V. V. Kvasnitski, and V. F. Kvasnitski. Elemental Composition of the Surface Layer of a Heat-Resistant Nickel Alloy Doped with Zirconium Atoms under the Action of Compression Plasma Flows. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 2014, Vol. 8, No. 1, pp. 164–168.

37. V. M. Astashinski, A. Ya. Leyvi, V. V. Uglov, N. N. Cherenda, and A. P. Yalovets. Formation of Relief on a Metallic Target Surface under the Action of Compression Plasma Flows. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 2014, Vol. 8, No. 3, pp. 519–523.

38. N.N. Cherenda, A.A. Smilgin, V.V. Uglov, V.M. Astashynski, A.M. Kuzmitski, G.E. Remnev. Cleaning of steel surface from scale by compression plasma flows. Surface & Coatings Technology 255 (2014) 79–83.

39. A. H. Sari, V. M. Astashynski, Siarhei Ananin, E. A. Kostyukevich, A. M. Kuzmitski, V. V. Uglov, Nikolai N. Cherenda. Alloying of carbon steel surface by tantalum using compression plasma flow. High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes. Vol. 17, 2013 Issue 1, p. 47-73.

40. N. N. Cherenda, V. V. Uglov, A. P. Laskovnev, S. V. Gusakova, V. M. Astashynski, A. M. Kuzmicki. Modification of Al–20%Si Hypereutectic alloy Structure by compression plasma flow treatment. High Temperature Material Processes 17(2–3), (2013), 91–99

41. V. I. Shymanski, N. N. Cherenda, V. V. Uglov, V. M. Astashynski, N. N. Koval, and Y. F. Ivanov. Phase composition modification of the Cr/Ti system by compression plasma flows and high-current electron beams. High Temperature Material Processes 17(2–3), (2013), 101–115

42. N. N. Cherenda, N. V. Bibik, V. V. Uglov, V. M. Astashynski, A. M. Kuzmitski. Synthesis of surface layers hardened by metal trialuminide compound in Al–Si alloy under compression plasma flows impact. High Temperature Material Processes 18(1–2), 1–13 (2014)

43. A.H. Sari, V.M. Astashynski, E.A. Kostyukevich, V.V. Uglov, N.N. Cherenda. Alloying of austenitic steel surface with zirconium using nitrogen compression plasma flow. Vacuum, 115 (2015) 39-45

44. N. N. Cherenda, A. P. Laskovnev, A. V. Basalai, V. V. Uglov, V. M. Astashynski, and A. M. Kuzmitski. Erosion of Materials under the Effect of Compression Plasma Flows. Inorganic Materials: Applied Research, 2015, Vol. 6, No. 2, pp. 114–120.

45. V.I. Shymanski, N.N. Cherenda, V.V. Uglov, V.M. Astashynski, A.M. Kuzmitski. Structure and phase composition of Nb/Ti system subjected to compression plasma flow impact. Surface & Coatings Technology 278 (2015) 183–189

46. Yu. F. Ivanov, A. P. Laskovnev, A. D. Teresov, N. N. Cherenda, V. V. Uglov, E. A. Petrikova, M. V. Astashynskaya, N. N. Koval. Modification of hypereutectic silumin surface layer by a high-intensity pulse electron beam. High Temperature Material Processes 19(1), (2015), 85–91


Other:Was born in Minsk, Belarus on the 19th of April 1970. In 1987 finished school #103 (Minsk) with profound study of English. The same year entered the physics faculty of the Belarusian State University. In 1988-1989 served in the Army.





Education



- 1993: graduated from the Physics Faculty of the Belarusian State University with the first class honours degree. The diploma paper “The change of the physico-mechanical properties of ion-implanted steel X12M”.

- 1993 – 1995: a post-graduate student, the Department of Solid State Physics of the Belarusian State University.

- 1999: got the PhD degree at the Belarusian State University, the PhD thesis: “The structural and phase changes in aluminium during successive implantation of carbon and nitrogen ions”.



Professional career:



1995 – 1999: an Engineer, the Department of Solid State Physics of the Belarusian State University (Minsk, Republic of Belarus

1999 – 2000: an Assistant lecturer, the Department of Solid State Physics of the Belarusian State University.

2000 – 2001: a Senior lecturer, the Department of Solid State Physics of the Belarusian State University.

2001 – 2003: a Senior researcher, the Research Laboratory “Physics of ion-plasma modification of solids”, the Department of Solid State Physics of the Belarusian State University.

2003 – 2006: a Senior lecturer, the Department of Solid State Physics of the Belarusian State University.

2004 – 2005 a young scientist fellowship grant of INTAS (EU): research work at Augsburg University, the Institute of Experimental Physics IV (Augsburg, Germany).

2006 – hither to: an Associate Professor, the Department of Solid State Physics of the Belarusian State University



Awarded by an honour diploma of the Belarusian State University
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