[Wagner L. and Luetjering G.: Influence of Shot Peening on the Fatigue Behavior of Ti-Alloys. Shot Peening A. Niku-Lari [ed.], Pergamon Press, 1982, p. 453.]Search in Google Scholar
[Gray H., Wagner L. and Lütjering G.: Influence of Shot Peening Induced Surface Roughness, Residual Macrostresses and Dislocation Density on the Elevated Temperature HCF-Properties of Ti-Alloys. Shot Peening, DGM, 1987. p. 447.]Search in Google Scholar
[Peters M., Luetjering G. and Jaffee R. I.: Mechanical Properties of a Titanium Blading Alloy. EPRI-Report CS-2933, Electric Power Research Institute, Palo Alto, CA, USA, 1983.]Search in Google Scholar
[Wagner L.: Mechanical Surface Treatments on Titanium Alloys: Fundamental Mechanisms. Gregory J. K., Rack H. J. and Eylon D. [eds.] TMS-AIME, 1996.]Search in Google Scholar
[Kocan M., Rack H. J. and Wagner L.: Considering Environmental and Mean Stress Effects in Understanding the Fatigue Performance of Shot Peened Titanium Alloys. 11th World Conf. on Titanium, Kyoto, Japan, 2007. (in press)]Search in Google Scholar
[Schulze V.: Modern Mechanical Surface Treatments. Wiley-VCH, 2004.10.1002/3527607811]Search in Google Scholar
[Mueller J., Rack H. J. and L. Wagner.: Effects of Supra- and Subtransus Heat Treatments on HCF Performance of Ti-6Al-4V. 11th World Conf. on Titanium, Kyoto, Japan, 2007. (in press)]Search in Google Scholar
[Mueller J., Rack H. J., Ludian T. and Wagner L.: Microstructural and Mean Stress Effects in Fatigue Performance of Shot Peened Ti-6Al-4V, 11th World Conf. on Titanium, Kyoto, Japan, 2007. (in press)]Search in Google Scholar
