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A cavitation degradation process and fatigue phenomenon were described. Similarly to fatigue phenomenon, cavitation pulses division into three fractions was suggested. The action of each fraction was respectively compared to low-cycle fatigue, high-cycle fatigue and low-amplitude fatigue. The action of each fraction was described separately. Detailed analysis of the influence of each fraction on the degradation process shows that besides mechanical loading also thermal loading occurs. The cavitation erosion is assumed to be the sum of degradation of each fraction. Thus, the model of PVD coatings degradation under action of cavitation pulses include variable-amplitude and variable-temperature fatigue.
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Czasopismo
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Strony
27--36
Opis fizyczny
Bibliogr. 14 poz., rys.
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. Bourne N.K., On the collapse of cavities, Shock Waves 11 (2002) 447-455.
- 3. Momber A. W., Cavitation damage to geomaterials in a flowing system, Journal of Materials Science 38 (2003) 747 – 757.
- 4. Krella A., Czyżniewski A., Cavitation erosion resistance of nanocrystalline TiN coating deposited on stainless steel, Wear 265 (2008) 963-970.
- 5. Knapp R.T., Resent Investigations of cavitation and cavitation damage, Trans. ASME 77 (1955) 1045-1054.
- 6. Philipp A., Lauterborn W., Cavitation erosion by single laser-produced bubbles, J.Fluid Mech. 361 (1998) 75-116.
- 7. Schijve J., Fatigue of structures and materials in the 20th century and the state of the art, International Journal of Fatigue 25 (2003) 679-702.
- 8. Kocańda S., Szala J., Podstawy obliczeń zmęczeniowych, PWN, Warszawa 1997.
- 9. Ma L.W., Cairney J.M., Hoffman M., Munroe P.R., Deformation mechanisms operating during nanoindentation of TiN coatings on steel substrates, Surface and Coatings Technology 192 (2005) 11–18.
- 10. Strawbridge A., Evans H.E., Mechanical failure of thin brittle coatings, Eng. Failure Analysis 2 (1995) 85-103.
- 11. Cairney J.M., Tsukano R., Hoffman M.J., Yang M., Degradation of TiN coating under cyclic loading, Acta Materialia 52 (2004) 3229-3237.
- 12. Wyrzykowski J.W., Pleszakow E., Sieniawski J., Odkształcenie i pękanie metali, WNT, Warszawa 1999.
- 13. Krella A., Influence of cavitation intensity on X6CrNiTi18-10 stainless steel performance in the incubation period. Wear 258 (2005) 1723-1731.
- 14. Louchet F., From individual dislocation motion to collective behaviour, Journal of Materials Science 41 (2006) 2641 – 2646.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0035-0045