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An Electron Microscope Study of Mechanical Twinning in a Precipitation–Hardened TiAl Alloy

Published online by Cambridge University Press:  26 February 2011

Fritz Appel*
Affiliation:
Institute for Materials Research, GKSS Research Centre Geesthacht, Geesthacht, D-21502, Germany
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Abstract

The high temperature capability of TiAl alloys can be significantly improved by the implementation of precipitation reactions. From the engineering viewpoint the challenge is to establish the hardening mechanism without compromising desirable low temperature properties such as ductility and toughness. With this perspective in mind, twin structures were investigated in a TiAl alloy containing Ti3AlC carbides, in order to identify mitigation strategies for overcoming precipitation induced embrittlement. The study is focussed on the nucleation and immobilization of twins at precipitates. The results are discussed in the context of the plastic anisotropy and fracture behaviour of TiAl alloys.

Type
Research Article
Copyright
Copyright © Materials Research Society 2005

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References

REFERENCES

1. Chen, S., Beaven, P.A. and Wagner, R., Scripta Metall. 26, 1205 (1992).Google Scholar
2. Tian, W.H., Sano, T. and Nemoto, M., Phil. Mag. A 68, 965 (1993).Google Scholar
3. Christoph, U., Appel, F. and Wagner, R., Mater. Sci. Engng. A 239–240, 39 (1997).Google Scholar
4. Yoo, M.H. and Fu, C.L., Metall. Mater. Trans. A 29, 49 (1998).Google Scholar
5. Appel, F. and Wagner, R., Mater. Sci. Engng. R 22, 187 (1998).Google Scholar
6. Sleeswyk, A. W., Acta Metall. 10, 803 (1962).Google Scholar
6. Mahajan, S. and Chin, G.Y., Acta Metall. 22, 1113 (1974).Google Scholar
7. Hirth, J.P. and Balluffi, R.W., Acta Metall. 21, 929 (1973).Google Scholar
8. Mahajan, S. and Chin, G.Y., Acta Metall. 22, 1113 (1974).Google Scholar
9. Frank, F.C. and VAN DER Merve, J.H., Proc. R. Soc. A 198, 216 (1949).Google Scholar
10. Appel, F., Phil. Mag., in print.Google Scholar
11. Hug, G., Loiseau, A., and Lasalmonie, A., Phil. Mag. A 54, 47 (1986).Google Scholar
12. Court, S.A., Vasudevan, V.K. and Fraser, H.L., Phil. Mag. A 61, 141 (1990).Google Scholar
13. Greenberg, B.A., Scripta Metall. 23, 631 (1989).Google Scholar
14. Goo, E., Scripta Mater. 38, 1711 (1998).Google Scholar
15. Appel, F., Paul, J.D.H., Oehring, M., Fröbel, U., and Lorenz, U., Metall. Mater. Trans. A 34, 2149 (2003).Google Scholar