1. Kalita, V.I. and Komlev, D.I., Plazmennye pokrytiya s nanokristallicheskoi i amorfnoi strukturoi (Plasma Coatings with Nanocrystalline and Amorphous Structure), Moscow, Biblioteka, 2008.
2. Garcia-Alonso, D., Serres, N., Demian, C., Costil, S., Langlade, C., and Coddet, C., Pre-during-post-aser processes to enhance the adhesion and mechanical properties of thermal-sprayed coatings with a reduced environmental impact, J. Therm. Spray Technol., 2001, vol. 20, pp. 719–735.
3. Karl-Heinz, F. and Agnes, O., Oberflachenfeinwalzen plazmagespritzter Metallschichten, Schweiss und Schneid, 1996, vol. 6, pp. 331–333.
4. Tillmann, W., Vogli, E., Krebs, B., Tekkaya, A.E., Brosius, A., and Franzen, V., Densification of atmospheric plasma sprayed wear resistant coatings, in Proc. Int. Thermal Spray Conf. May 4–7, 2009, Las Vegas, USA. Eds. B. Marple, M. Hyland. ASM, 2009, pp. 1045–1051.
5. Pribytkov, G.A., Durakov, V.G., Polev, I.V., and Vagner, M.I., Structure–abrasion wear resistivity relationship of titanium carbide–metal matrix cermets, produced by sintering and by electron-beam facing, Friction Wear, 1999, vol. 20, pp. 393–399.