Modification of synthetic diamond grinding powders and compacts based on cBN micron powders with thermally stable oxides and hlorides using the method of liquid-phase deposition

  • V. G. Poltoratskii V. N. Bakul Institute for superhard materials of NAS of Ukraine
  • О. О. Bochechka V. N. Bakul Institute for superhard materials of NAS of Ukraine
  • V. I. Lavrynenko V. N. Bakul Institute for superhard materials of NAS of Ukraine
  • V. N. Tkach V. N. Bakul Institute for superhard materials of NAS of Ukraine
  • G. A. Petasiuk V. N. Bakul Institute for superhard materials of NAS of Ukraine
  • V. A. Bilochenko V. N. Bakul Institute for superhard materials NAS of Ukraine
  • O. V. Leshchenko V. N. Bakul Institute for superhard materials NAS of Ukraine
  • G. S. Grishchenko V. N. Bakul Institute for superhard materials NAS of Ukraine
Keywords: modification, method of liquid-phase deposition, thermal stability, synthetic diamond, cubic boron nitride, compacts, grinding powders.

Abstract

The process of modifying the surface of grains of synthetic diamond grinding powders and compacts based on cBN micron powders with thermally stable oxides and  chlorides of metals and non-metals using the method of liquid-phase deposition is studied. The structural and morphological characteristics of the external structure were studied and the quantitative elemental composition of the surface of modified powders was determined.

Published
2019-09-04
Section
Instrumental, structural and functional materials based on diamond and cubic bor