PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

The experimental resistance parameter for TiN coating to cavitation action

Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A series of cavitation erosion tests were carried out to investigate the resistance of the TiN coatings to cavitation action. The TiN coatings were deposited at various deposition parameters on austenitic stainless steel, X6CrNiTi18-10, and with various thickness by means of the cathodic arc evaporation method (ARC PVD). Investigations were performed in a cavitation tunnel with a slot cavitator. The investigations show that hardness, Young’s modulus, adhesion and coating thickness have an influence on coating endurance to cavitation degradation. The obtained parameter H•LC2/E•h1/2 shows very good fitting to date points (R2=0.96). With the increase of the H•LC2/E•h1/2 parameter the mass loss decreases indicating a continuous improvement in the cavitation erosion resistance.
Rocznik
Strony
4--18
Opis fizyczny
Bibliogr. 22 poz., rys., fot., tab.
Twórcy
autor
  • The Szewalski Institute of Fluid-Flow Machinery, Polish Academy of Sciences, Cavitation Group, ul. Fiszera 14, 80-231 Gdansk, Poland
Bibliografia
  • 1. Brennen Ch.E., Cavitation and bubble dynamics, The Oxford Engineering Science Series 44, Oxford University Press (1995).
  • 2. Knapp R.T., Resent Investigations of cavitation and cavitation damage, Trans. ASME 77 (1955) 1045-1054.
  • 3. Philipp A., Lauterborn W., Cavitation erosion by single laser-produced bubbles, J.Fluid Mech. 361 (1998) 75-116.
  • 4. Bourne N.K., On the collapse of cavities, Shock Waves 11 (2002) 447-455.
  • 5. Tabor D.: A theory of static and dynamic hardness. Engineering 165 (1948) 289-292.
  • 6. Bourne N.K., Millett J.C.F., Gray III G.T., On the shock compression of polycrystalline metals, J. Mater. Sci. 44 (2009) 3319-3343.
  • 7. Krella A., Influence of cavitation intensity on X6CrNiTi18-10 stainless steel performance in the incubation period. Wear 258 (2005) 1723-1731.
  • 8. Iwai Y., Honda T., Yamaa H., Matsumura T., Larsson M., Hogmark S.: Evaluation of wear resistance of thin hard coatings by a new solid particle impact test. Wear (2001),pp. 861-867.
  • 9. Yoon S.Y., Yoon S.Y., Chung W.S., Kim K.H.: Impact-wear behaviors of TiN and Ti-Al-N coatings na AISI D2 steel and WC-Co substrates. Surface and Coating Technology 177-178 (2004), pp.645-650.
  • 10. Voevodin A.A., Bantle R., Matthews A.: Dynamic impact wear of TiCxNy and Ti-DLC composite coatings. Wear 185 (1995), pp.151-157.
  • 11. Cairney J.M., Tsukano R., Hoffman M.J., Yang M.: Degradation of TiN coating under cyclic loading. Acta Materialia 52 (2004), pp. 3229-3237.
  • 12. Ma L.W., Cairney J.M., Hoffman M., Munroe P.R.: Deformation mechanisms operating nanoindentation of TiN coatings on steel substrates. Surface & Coatings Technology 192 (2005), pp.11-18.
  • 13. Münsterer S., Kohlhof K.: Cavitation protection by low temperature TiCN coatings. Surface and Coatings Technology 74-75 (1995), pp. 642-647
  • 14. Marynin V.H.: Erosion of vacuum-arc Ti-N coatings. Materials Science 39 (2003), pp. 447-451
  • 15. Krella A., Czyżniewski A.: Influence of the substrate hardness on cavitation erosion resistance of TiN coating. Wear 263 (2007), pp. 395-401.
  • 16. Krella A., Czyżniewski A.: Investigation concerning the cavitation resistance of TiN coatings deposited on austenitic stainless steel at various temperatures. Wear 265 (2008), pp. 72-80.
  • 17. Leyland A., Matthews A.: On the significance of the H/E ratio in wear control: a nanocomposite coating approach to optimized tribological behaviour. Wear 246 (2000), pp. 1-11.
  • 18. Krella A., The influence of TiN coatings properties on cavitation erosion resistance, Surface & Coatings Technology 204 (2009) pp. 263–270.
  • 19. Han S., Lin J.H., Kuo J.J., He J.L., Shih H.C.: The cavitation-erosion phenomenon of chromium nitride coatings deposited using cathodic arc plasma deposition on steel. Surface and Coating Technology 161 (2002), pp. 20-25.
  • 20. Oliver W.C., Pharr G.M.: An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments. J Mater Res 7 (1992), pp. 1564-1583.
  • 21. Batista C.A., Godoy C., Matthews A., Impact testing of duplex and non-duplex (TiN, Al)N and Cr–N PVD coatings, Surface and Coatings Technology 163–164 (2003), pp. 353–361.
  • 22. Krella A.: Cavitation resistance of TiN nanocrystalline coatings with various thickness, Advances in Materials Science. Vol. 9, No. 2 (20), June 2009, pp.12-24.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0020-0038
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.