Abstract
High-resolution transmission microscopy has been used to reveal the defect processes occurring during shot peening of a high-strength titanium aluminide alloy with a nearly lamellar microstructure. Deformation is characterised by intensive dislocation glide and mechanical twinning, involving all potential slip systems available in the α2(Ti3Al) and γ(TiAl) phases. The outermost surface layer consists of extremely fine crystals that are probably a contaminant titanium nitride phase, embedded into an amorphous phase. The mechanisms involved in this mechanically driven solid state transformation will be elucidated. Particular emphasis is paid on the thermodynamic and kinetic factors involved in the amorphisation reaction.
Acknowledgements
The author would like to thank St. Eggert, U. Lorenz, M. Oehring and J. Paul for their continuous support for all things intermetallic. Thanks are also due to Dr. J. Lindemann for performing the shot peening experiments. Financial support by the Deutsche Forschungsgemeinschaft (Projects AP 49/5 and AP 49/4-6) is gratefully acknowledged.