Otwarty dostęp

Preparation of SiO2 coating by sol-gel method, to improve high-temperature corrosion resistance of a γ-TiAl phase based alloy


Zacytuj

Kakare S.A., Toney J.B., Aswath P.B.: Oxidation of ductile particle reinforced Ti-48Al composite. Metallurgical and Materials Transactions 26A (1995), 1835-1845. 10.1007/BF02670771Search in Google Scholar

Chan K.S.: Developing Hydrogen Tolerant Microstructures for an Alpha-2 Titanium Aluminide Alloy. Metallurgical and Materials Transactions 23A (1992), 497-507. 10.1007/BF02801167Search in Google Scholar

Takasaki A., Furuya Y., Taneda Y.: Hydrogen uptake in titanium aluminides covered with oxide layers. Metallurgical and Materials Transactions 29 (1998), 307-314. Search in Google Scholar

Qu L.H., Zhou L., Wei Y.G., Zhao Y.Q.: 10th World Conference on Tutanium, Hamburg 2003, in Ti-2003 Science and Technology, edited by G. Luetjerung and J.Albrecht, IV (2004), 2449-2454. Search in Google Scholar

Yoshihara M., Kim Y.W.: Oxidation behaviour of gamma alloys designed for high temperature oxidation. Intermetallics 13 (2005), 952–958. Search in Google Scholar

Xiang Z.D., Rose S., Datta P.K.: Pack deposition of coherent aluminide coatings on γ-TiAl for enhancing its high temperature oxidation resistance. Surface and Coating Technology, 161 (2002), 286-292. Search in Google Scholar

Bettridge D.F., Wing R., Saunders S.R.J.: The exploration of protective coating and deposition processes for nickelbase alloys and gamma titanium aluminides. J.Lecomte-Beelceis, F. Schubert and P.J. Ennis [eds.], Materials for Advanced Power Engineering, Procedings Part II, (1998), 961-976. Search in Google Scholar

Tang Z., Wang F., Wu W.: Effect of MCrAlY overlay coatings on oxidation resistance of TiAl intermetallics, Surface and Coating Technology 99 (1998), 248-252. 10.1016/S0257-8972(97)00563-XSearch in Google Scholar

Tang Z., Niewolak L., Shemet V., Singheiser L., Quadakkers W.J., Wang F., Wu W., Gil A.: Development of oxidation resistant coatings for γ-TiAl based alloys. Materials Science and Engineering A 328 (2002), 297-301. Search in Google Scholar

Liu Z., Narita T.: The effect of water vapor on the oxidation behavior of γ-TiAl–Ag coatings at 1073 K in air. Intermetallics 11 (2003), 795-805. Search in Google Scholar

Taniguchi S., Shibata T., Yamada T., Liu X., Zou S.: High temperature oxidation resistance of TiAl improved be IBEDSi3N4 coating. ISIJ International, 33 (1993), 869-876. Search in Google Scholar

Zhu Y.-C., Zhang Y., Li X. Y., Fujita K., Iwamoto N.: The Influence of Magnetron-sputtered SiO2 Coatings on the Cyclic Oxidation Behavior of γ-TiAl Alloys. Materials Transactions 41 (2000), 1118-1120. Search in Google Scholar

Yoshimura M., Urushihara W., Yashima M., Kakihana M.: CaTiO3 coating on TiAl by hydrothermal-electrochemical technique. Intermetallics 3 (1995), 125-128. Search in Google Scholar

Hsu I.C., Wu S.K.: Oxidation improvement of Ti-48Al-2Cr-2Nb intermetallics by air plasma sprayed ZrO2-Ni-4.5wt.%Al coatings. Surface and Coating Technology 90 (1997), 6-13. Search in Google Scholar

Xiang Z.D., Rose S., Burnell-Gray J.S., Datta P.K.: Co-deposition of aluminide and silicide coatings on γ-TiAl by pack cementation process. Journal of Materials Science 38 (2003), 19-28. Search in Google Scholar

Xiang Z.D., Rose S., Datta P.K.: Vapour phase codeposition of Al and Si to form diffusion coatings on γ-TiAl. Materials Science and Engineering A 356 (2003), 181-189. Search in Google Scholar

Lugscheider E., Siry C.W., Saunders S.R.J.: The behaviour of PVD SiAlN type coatings deposited on TiAl. J.Lecomte-Beelceis, F. Schubert and P.J. Ennis [eds.], Materials for Advanced Power Engineering 1998, Proceedings Part II, 1319-1327. Search in Google Scholar

Scheaffer J.C., McCarron R.L.: High Temperature Coatings for Titanium Aluminides, WL-TR-95-4108, General Electric Co Cincinnati OH aircraft Engine Technical Div Final Report for 22 Jan.1991 -13Dec.1994. Search in Google Scholar

Małecka J.: Effect of an Al2O3 coating on the oxidation process of a γ-TiAl phase based alloy. Corrosion Science 63 (2012), 287-292. 10.1016/j.corsci.2012.06.009Search in Google Scholar

Małecka J., Grzesik W., Hernas A.: An investigation on oxidation wear mechanisms of Ti–46Al–7Nb–0.7Cr–0.1Si–0.2Ni intermetallic-based alloys. Corrosion Science 52 (2010), 263–272.Search in Google Scholar

eISSN:
2083-4799
ISSN:
1730-2439
Język:
Angielski
Częstotliwość wydawania:
4 razy w roku
Dziedziny czasopisma:
Materials Sciences, Functional and Smart Materials