Geometrical Simulation of Optimized Vacuum-Condensation Spraying Technology for Titanium Nitride on Structural Steel

  • O. GumenEmail author
  • I. Bilyk
  • M. Kruzhkova
Conference paper
Part of the Lecture Notes in Civil Engineering book series (LNCE, volume 47)


The work is aimed at studying and solving the problems of vacuum-condensation spraying for titanium nitride. The nature of the work is applicable because the proposed advanced technology can be applied to the production of any parts with coating. The applied technology will reduce a cost of manufacturing wear-resistant parts and therefore tends to save energy. The promise of the advanced vacuum-condensation spray technology is due to a decrease in the number of defects on the surface of the spray product. The novelty of the work is to improve the coating properties by reducing the defects of the structure.


Vacuum-condensation spray Droplet phase Titanium nitride Structural steel Linear parameters Geometrical simulation 


  1. Krechmar E (1966) Dusting of metals, ceramics and plastics. Mashinostroenie, 234 pGoogle Scholar
  2. Linnik V, Pekshev P (1985) Modern gas thermal coating technology. Mashinostroenie, 85 pGoogle Scholar
  3. Lakhtin YuM, Moiteev VA (1974) Metal studies. Mashinostroenie, 116 pGoogle Scholar
  4. Ulyanov VA, Magazinnikov VP (1985) Recommendations for the restoration of crankshafts of automobile engines by flame spraying. GOSNIITI, 32 pGoogle Scholar
  5. Paton BE (1979) The technology of electric welding of metals and alloys by melting. Mashinostroenie, 203 pGoogle Scholar
  6. Vinokurov VA (1979) Welding in mechanical engineering. Mashinostroenie, 327 pGoogle Scholar
  7. Dubovoy AN, Khachaturov EB, Loy SA (1986) Technology of applying gas-thermal powder coatings. NKI, Nikolaev, p 43Google Scholar
  8. Lisnikov VN, Ukrainian VS, Bogatyrev GF (1985) Plasma spraying of coatings in the manufacture of products in electronic technology. SSU, Saratov, p 132Google Scholar
  9. Runkov MN (1966) Reference master surfacing site. Mashinostroenie, 200 pGoogle Scholar
  10. Denisova NE, Shorin VA, Gontar IN (2006) Tribotechnical materials science and tribotechnology. Penza PSU, 248 pGoogle Scholar
  11. Poltaev NK (1980) Labor protection in engineering. Higher School, 340 pGoogle Scholar
  12. Dubovoy AN (1980) Textbook for students. NCI, Nikolaev, p 56Google Scholar
  13. Runge Y (ed) (1984) Welding technology. Metallurgy, 549 pGoogle Scholar
  14. Sytnik KM, Brion AV (1987) Biosphere, ecology, nature conservation. Naukova Dumka, 522 pGoogle Scholar
  15. Kudinov VV, Ivanov VM (1981) Plasma spraying of refractory coatings. Mashinostroenie, 192 pGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  1. 1.National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”KievUkraine

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