Tag: sulphidation

The kinetics of scale growth on Ti-25Al-12.5Nb alloy suring high temperature oxidation in 9%O2+0.2%HCl+0.08%SO2+N2 atmosphere

Czasopismo : Advances in Materials Science
Tytuł artykułu : The kinetics of scale growth on Ti-25Al-12.5Nb alloy suring high temperature oxidation in 9%O2+0.2%HCl+0.08%SO2+N2 atmosphere

Autorzy :
Mierzejewska, Ż. A.
Bialystok University of Technology, Faculty of Mechanical Engineering, Department of Materials Science and Biomedical Engineering, ul. Wiejska 45C, 15-351 Bialystok, Poland, a.mierzejewska@doktoranci.pb.edu.pl,
Małecka, J.
Opole University of Technology, Faculty of Mechanical Engineering, Department of Manufacturing Engineering and Automation, Poland, j.malecka@po.opole.pl,
Abstrakty : The paper presents research results of isothermal oxidation of Ti-25Al-12.5Nb alloy. Oxidation was carried out in 9%O2+0,2%HCl+0,08%SO2+N2atmosphere at the temperature of 700 and 750ºC.

Słowa kluczowe : high temperature corrosion, oxidation, sulphidation,
Wydawnictwo : Politechnika Gdańska
Rocznik : 2015
Numer : Vol.15, nr 2(44)
Strony : 14 – 21
Bibliografia : 1. Shemet V., Tyagi A.K., Becker J.S., Lersch P., Singheiser L., Quadakkers W.J.: The formation of protective alumina-based scales during high-temperature air oxidation of γ -TiAl alloys. Oxidation of Metals, 54 (2000), 211-235.
2. Shen Y., Ding X., Wang F.: High temperature oxidation behaviour of Ti-Al-Nb ternary alloys. Journal of Materials Science, 39 (2004), 6583-6589.
3. Małecka J., Grzesik W., Hernas A.: An investigation on oxidation wear mechanisms of Ti-46Al-7Nb-0.7Cr-0.1Si-0.2Ni. Corrosion Science, 52 (2010), 263-272.
4. Chang S.Y.: The isothermal and cyclic oxidation behavior of a titanium aluminide alloy at elevated temperature. Journal of Materials Engineering and Performance, 16 (2007), 508-514.
5. Godlewska E., Mitoraj M., Leszczynska K.: Hot corrosion of Ti-46Al-8Ta (at.%) intermetallic alloy. Corrosion Science, 78 (2014), 63-70.
6. Banerjee D., Gogia A.K., Nandy T.K., Joshi V.A.: A new ordered orthorhombic phase in a Ti3Al2Nb alloy. Acta Metallurgica, A36 (1988), 871-882.
7. Becker S., Rahmel A., Schorr M, Schütze M.: Mechanism of isothermal oxidation of the intermetallic TiAl and of TiAl alloys. Oxidation of Metals, 5/6 (1992), 425-464.
8. Mrowec S., Werber T.: Gaseous corrosion, Publishing house “Silesia”, Katowice, 1965 (in Polish).
9. Hernas A., Dobrzański J.: Durability and destruction of the elements of boilers and turbines, Silesian University of Gliwice 2003 (in Polish).
10. Małecka J.: Investigation of the oxidation behavior of orthorhombic Ti2AlNb alloy, Journal of Materials Engineering and Performance, 10.1007/s11665-015-1449-6
DOI :
Cytuj : Mierzejewska, Ż. A. ,Małecka, J. , The kinetics of scale growth on Ti-25Al-12.5Nb alloy suring high temperature oxidation in 9%O2+0.2%HCl+0.08%SO2+N2 atmosphere. Advances in Materials Science Vol.15, nr 2(44)/2015

Journal : Advances in Materials Science
Article : The kinetics of scale growth on Ti-25Al-12.5Nb alloy suring high temperature oxidation in 9%O2+0.2%HCl+0.08%SO2+N2 atmosphere

Authors :
Mierzejewska, Ż. A.
Bialystok University of Technology, Faculty of Mechanical Engineering, Department of Materials Science and Biomedical Engineering, ul. Wiejska 45C, 15-351 Bialystok, Poland, a.mierzejewska@doktoranci.pb.edu.pl,
Małecka, J.
Opole University of Technology, Faculty of Mechanical Engineering, Department of Manufacturing Engineering and Automation, Poland, j.malecka@po.opole.pl,
Abstract : The paper presents research results of isothermal oxidation of Ti-25Al-12.5Nb alloy. Oxidation was carried out in 9%O2+0,2%HCl+0,08%SO2+N2atmosphere at the temperature of 700 and 750ºC.

Keywords : high temperature corrosion, oxidation, sulphidation,
Publishing house : Politechnika Gdańska
Publication date : 2015
Number : Vol.15, nr 2(44)
Page : 14 – 21

Bibliography
: 1. Shemet V., Tyagi A.K., Becker J.S., Lersch P., Singheiser L., Quadakkers W.J.: The formation of protective alumina-based scales during high-temperature air oxidation of γ -TiAl alloys. Oxidation of Metals, 54 (2000), 211-235.
2. Shen Y., Ding X., Wang F.: High temperature oxidation behaviour of Ti-Al-Nb ternary alloys. Journal of Materials Science, 39 (2004), 6583-6589.
3. Małecka J., Grzesik W., Hernas A.: An investigation on oxidation wear mechanisms of Ti-46Al-7Nb-0.7Cr-0.1Si-0.2Ni. Corrosion Science, 52 (2010), 263-272.
4. Chang S.Y.: The isothermal and cyclic oxidation behavior of a titanium aluminide alloy at elevated temperature. Journal of Materials Engineering and Performance, 16 (2007), 508-514.
5. Godlewska E., Mitoraj M., Leszczynska K.: Hot corrosion of Ti-46Al-8Ta (at.%) intermetallic alloy. Corrosion Science, 78 (2014), 63-70.
6. Banerjee D., Gogia A.K., Nandy T.K., Joshi V.A.: A new ordered orthorhombic phase in a Ti3Al2Nb alloy. Acta Metallurgica, A36 (1988), 871-882.
7. Becker S., Rahmel A., Schorr M, Schütze M.: Mechanism of isothermal oxidation of the intermetallic TiAl and of TiAl alloys. Oxidation of Metals, 5/6 (1992), 425-464.
8. Mrowec S., Werber T.: Gaseous corrosion, Publishing house “Silesia”, Katowice, 1965 (in Polish).
9. Hernas A., Dobrzański J.: Durability and destruction of the elements of boilers and turbines, Silesian University of Gliwice 2003 (in Polish).
10. Małecka J.: Investigation of the oxidation behavior of orthorhombic Ti2AlNb alloy, Journal of Materials Engineering and Performance, 10.1007/s11665-015-1449-6
DOI :
Qute : Mierzejewska, Ż. A. ,Małecka, J. ,Małecka, J. , The kinetics of scale growth on Ti-25Al-12.5Nb alloy suring high temperature oxidation in 9%O2+0.2%HCl+0.08%SO2+N2 atmosphere. Advances in Materials Science Vol.15, nr 2(44)/2015
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