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The paper presents the results of examinations of the structure and properties of the x-A12O3+A14C3+Ti3A1 composite layer produced on the Ti6A12Mo2Cr titanium alloy by the PAMOCVD method with the participation of trimethylaluminum vapors. Compared to the material in the starting state, the layer has a high surface hardness of about 38GPa (under the load of 300mN), and good beat and frictional wear resistance. In order to find the correlation between the structure of the composite layer and their properties, the following examinations have been executed: phase analysis by XRD, analysis of microstructure by optical and scanning electron microscopes as well as x-ray microanalyser, measurements of micro-hardness, and beat and frictional wear resistance.
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Tom
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94--102
Opis fizyczny
Bibliogr. 16 poz., rys.
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autor
autor
autor
autor
autor
- Faculty of Materials Science and Engineering Warsaw University of Technology Warszawa, Poland
Bibliografia
- 1. Smith B.: The development of the Boeing 777 was made possible by the development of breakthrough materials that allowed reductions in structural weight while maintaining affordability, Advanced Materials & Processes, (2003), pp. 41-44
- 2. Wierzchoń T., Czarnowska E., Krupa D.: Inżynieria powierzchni w wytwarzaniu biomateriałów tytanowych, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa, 2004 (in Polish)
- 3. Landor I., Vavrik P., Sosna A., Jahoda D., Hahn H., Daniel M.: Hydroxyapatite porous coating and the osteointegration of the total hip replacement, Arch Orthop Trauma Surg, 127, (2007), pp. 81-89
- 4. Lutjering G., Wiliams J.G.: Titanium Springer-Verlag, Berlin Heidelberg, (2003)
- 5. Kubiak K., Sieniawski J.: Efek tof forging conditions and annealing temperature on fatigue strength of two-phase titanium alloys, Materials and design, vo1.18, no 4/6, (1997), pp. 365-367
- 6. Zhecheva A., Sha W., Malinov S., Long A.: Enhancing the microstructure and properties of titanium alloys through nitriding and other surface engineering methods, Surface & Coatings Technology, 200, (2005), pp. 2192-2207
- 7. Danielewski M., Gil A., Wendler B., Żurek Z.: Powłoki hybrydowe dziś i jutro, Inżynieria Materiałowa, 6, (2003), pp.439-441 (in Polish)
- 8. Ossowski M., kurek Z., Gil A., Stawiarski A., Wierzchoń T.: Odporność korozyjna kompozytowych warstw ochronnych wytworzonych na stopie Ti6A12Mo2Cr metodą multipleksową, Ochrona przed Korozją, Nr 11 s/A, (2004), pp. 146-151 (in Polish)
- 9. Mrowec S.: Kinetyka i mechanizm utleniania metali, Wydawnictwo, „Śląsk", Katowice 1982 (in Polish)
- 10. Beele W, Marijnissen G, Lieshout van A.: The evolution of thermal barrier coatings status and upcoming solutions for today's key issues, Surface and Coatings Technology, 120-121, (1999), pp. 61-67
- 11. Johnson C.A., Ruuda J.A., Bruce R., Wortman D.: Relationships between residual stress, microstructure and mechanical properties of electron beam physical vapor deposition thermal barrier coatings, Surface and Coatings Technology, 108-109, (1998), pp. 80-85
- 12. Wilk G. D., Wallace R. M., Anthony J. M.: High-k gate dielectrics: Current status and materials properties considerations, Journal of Applied Physics, 89, (10), (2001), pp. 5243-5275
- 13. Stolarz S.: Wysokotopliwe związki i fazy, Wydawnictwo „Śląsk", Katowice 1974 (in Polish)
- 14. Pradhan Ś,. Reucroft P., Ko Y.: Crystallinity of A1z03 films deposited by metalorganic chemical vapor deposition", Surface and Coatings Technology, 176, (2004), pp. 382-384
- 15. Ruppi S.: Deposition microstructure and properties of texture-controlled CVD α-Al2O3 coatings, International Journal of Refractory Metals & Hard Materials, 23, (2005), pp. 306-316
- 16. Bobzin K., Lugscheider E., Maes M., Pińero C.: Relation of hardness and oxygen flow of A1203 coatings deposited by reactive bipolar pulsed magnetron sputtering, Thin Solid Films, 494, (2006), pp. 255 - 262.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG4-0028-0031