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Articles

Vol. 8 (2021)

Part 2 Composition Materials With Metal Matrix Condensed from the Vapor Phase

DOI
https://doi.org/10.31875/2410-4701.2021.08.4
Submitted
November 30, 2021
Published
2021-11-30

Abstract

In this article, the present-day problems of microporous condensed materials obtained from the vapor phase are discussed. The pore sizes are regulated by the amount of the second phase concentration and the deposition temperature.

The oxides, fluorides, and sulfides can be used as the second phase and non-removable inclusions. The open porosity can be regulated from 0% to 50 %of the porosity and with average porose sizes of 0.1 to 8 µm. The condensed micro-porous materials can be deposited in coating form or the form of massive bulk sheet materials with a thickness of up to 6 mm and a diameter of 1m.

References

  1. Vytrianuk VK, Ordenko VB. "Method classification and manufacturing technology of high porous Metallo-ceramics materials." Information 1, Powder metallurgy, 1967; N9: 10-17 p.
  2. Vytrianuk VK, Ordenko VB. "Method classification and manufacturing technology of high porous Metallo-ceramics materials." Information 2, Powder metallurgy, 1968; N1: 28-36 p.
  3. Andreevskyi RA. "Porous Metalo-ceramic materials, M, Metallurgy, 1964; 186 p
  4. SB. Belov "Porous materials in the machine industry", M, Machine-Building, 1976; 184 p
  5. Grechnuyk NI, Dabiga EB. "Wetting of thick vacuum condensate of Al2O3 by alloys on Nikel base" Problems of Special Electrical Metallurgy, 1977, N6, 56-58 p.
  6. Grechanuyk NI. " Studding of the properties of metallo-ceramic and ceramic coatings obtained by methods of electron-beam evaporation." Referat of Dissertation of Candidate of Technical Science, Kyiv, 1979; 20 p.
  7. Patent N 762452 USSR , Paton BE, Movchan BA, Grechanyuk NI, Demchishin AV. "The methods of composite coatings obtaining." 16 May 1980.
  8. Naidich YV. "Contact phenomena in metallic melts." Kyiv, Naukova Dumka, 1972; 196 p.
  9. Samsonov GV, Metallurgy M, 1978, 471 p.
  10. Cherbitski VV, Grechanyuk NI. "Porous composite coating of NiCrAlTi-Al2O3" Special Electrical Metallurgy, 1979; N40: 85-89 p.
  11. Grechanyuk NI, Mushegian VO, Movchan BA. "Properties and Structure of NiCr- Al2O3 porous condensate." Special Electrical Metallurgy 1981; N47: 84-90 p.
  12. Grechanyuk NI, Mushegian VO, Movchan BA. "Properties and Structure studying of NiCr- Al2O3 porous condensate." Special Electrical Metallurgy 1984; N56: 74-84 p.
  13. Grechanyuk NI, Mushegian VO, Movchan BA. "Properties and Structure of NiCrY- Al2O3 porous condensate." Special Electrical Metallurgy 1985; N58: 63-68 p.
  14. Grechanyuk NI, Mushegian VO, Movchan BA. "Properties and Structure of NiCrAl- ZrO2 porous condensate." Special Electrical Metallurgy 1981; N46: 67-72 p.
  15. Grechanyuk NI. "New Construction materials obtained from the vapor phase for new technical parts" Dissertation of Doctor of Technical Science, Kyiv, 1988; 520 p.
  16. Grechanyuk NI, Osokin VO, Afanasiev IB, Grechanyuk IM, Piuk Patent EL. 46855 of Ukraine "The method of porous materials obtaining "BI 2002, N6 NP. Lyakishev, YL. Pluner, L. Lapko "Allys and steels with titanium." M, Metall