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Purpose: Increasing oxidation resistance of TiAl intermetallic alloy by depositing aluminide coating by slurry method and investigation of the influence of Si addition on structure of obtained coatings. Design/methodology/approach: The structure of coatings was investigated by light scanning microscopy. The chemical composition of coatings was investigated by EDS method and XRD phase analysis was used as well. Findings: The investigation has showed that the thickness of the coatings was 40 micrometres. The structure of the silicon-modified aluminide coatings is as follows: - the outer zone consisting of TiAl3 phase and titanium silicides, - the middle zone consisting of columnar titanium silicides in phase TiAl3 matrix, - the inner zone consisting of TiAl2 phase. The analysis of the average chemical composition of the outer zone exhibited the gradual increase of the silicon content along with increase of this element in the slurry. Practical implications: The slurry method can be applied in aerospace and automotive industry as low-cost technology of producing of aluminide coatings on intermetallics. Originality/value: New method of depositing of Si modified aluminide coatings on TiAl alloys.
Wydawca
Rocznik
Tom
Strony
75--78
Opis fizyczny
Bibliogr. 16 poz., fot., rys., tab.
Twórcy
autor
autor
autor
autor
- Department of Materials Science, Silesian University of Technology, ul. Krasinskiego 8, 40-019 Katowice, Poland, m_goral@interia.pl
Bibliografia
- [1] E. Loria, Quo vadis gamma titanium aluminide, Inter-metallics Vol.: 9, Issue: 12, December, 2001, 997-1001.
- [2] M.T. Jovanovic, B. Dimcic, I. Bobic, S. Zec, V. Maksimovic, Microstructure and mechanical properties of precision cast TiAl turbocharger wheel Journal of Materials Processing Tech. Vol.: 167, Issue: 1, August 25, 2005, 14-21.
- [3] T. Tetsui, Gamma Ti aluminides for non-aerospace applications, Current Opinion in Solid State & Materials Science Vol.: 4, Issue: 3, June, 1999, 243-248.
- [4] R. Yang, Y.Y. Cui, L.M. Dong, Q. Jia, Alloy development and shell mould casting of gamma TiAl Journal of Materials Processing Technology Volume: 135, Issue: 2-3, April 20, 2003, 179-188.
- [5] S. Mridha, H.S. Ong, L.S. Poh, P. Cheang, Intermetallic coatings produced by TIG surface melting Journal of Materials Processing Technology Volume: 113, Issue: 1-3. June 15, 2001, 516-520.
- [6] K.A. Khor, Y. Murakoshi, M. Takahashi, T. Sano, Plasma Spraying of Titanium Aluminide Coatings: Process Parameters and Microstructure Journal of Materials Processing Technology Volume: 48, Issue: 1-4, January 15, 1995, 413-419.
- [7] Ch. Zhou, H. Xu, S. Gong, Y. Yang, K.Y. Kim, A study on aluminide and Cr-modified aluminide coatings on TiAl alloys by pack cementation method, Surface & Coatings Technology 132 (2000) 117-123.
- [8] J.K. Lee, H.N. Lee, H.K. Lee, M.H. Oh, D.M. Wee, Effects of Al-21Ti-23Cr coatings on oxidation and mechanical properties of TiAl alloy, Surface & Coatings Technology 155 (2002), 59-66.
- [9] Z. Tang, F.Wang, W. Wu, Effect of MCrAlY overlay coatings on oxidation resistance of TiAl Intermetallics, Surface & Coatings Technology 99 (1998) 248-252.
- [10] V. Gauthier, F. Dettenwanger, M. Schütze, V. Shemet, W.J. Quadakkers, Oxidation-Resistant Aluminide Coatings on γ-TiAl, Oxidation of Metals Volume: 59, Issue: 3-4, April 2003, 233-255.
- [11] Z. Tang, L. Niewolak, V. Shemet, L. Singheiser. W.J. Quadakkers, F. Wang, W. Wu, A. Gil, Development of oxidation resistant coatings for γ-TiAl based alloys Materials Science and Engineering: A Vol.: 328, Issue: 1-2. May, 2002, 297-301.
- [12] Gyo Jung, Hwan, Ju Jung, Dong, Kim, Kyoo, Young Effect of Cr addition on the properties of aluminide coating layers formed on TiAl alloys, Surface and Coatings Technology Vol.: 154, Issue: 1, May 1, 2002, 75-81.
- [13] Z.D. Xiang, S.R. Rose, P.K. Datta, Codeposition of Al and Si to form oxidation-resistant coatings on g-TiAl by the pack cementation process, Materials Chemistry and Physics Volume: 80, Issue: 2, May 26, 2003, 482-489.
- [14] Xiong, Hua-Ping; Mao, Wei; Xie, Yong-Hui; Ma, Wen-Li; Chen, Yun-Feng; Li, Xiao-Hong; Li, Jian-Ping; et. al. Liquid-phase siliconizing by Al-Si alloys at the surface of a TiAl-based alloy and improvement in oxidation resistance Acta Materialia Volume: 52, Issue: 9, May 17, 2004, 2605-2620.
- [15] X.Y.Li, S. Taniguchi, Y. Matsunaga, K. Nakagawa, K Fujita, Influence of siliconizing on the oxidation behavior of a γ-TiAl based alloy, Intermetallics, Volume: 11, Issue: 2. February, 2003, 143-150.
- [16] K.P. Rao, Y.J. Du, J.C.Y. Chung, K.C. Lau, In situ composite formation in TiAlSi ternary system Journal of Materials Processing Technology Volume: 89-90, May 19. 1999, 361-366.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS3-0016-0071