Fatigue crack growth titanium alloys

In common with many of the alloy-environment systems described so far, if the alloy is not susceptible to stress-corrosion cracking under constant stress or stress intensity, then little or no effect of environment on fatigue crack growth is observed. In these cases, frequency, R ratio and potential within the passive or cathodically protected ranges for titanium have no effect on growth rates. 

Zirconium alloys have been much less thoroughly studied than titanium alloys. The main application of interest has been for nuclear reactor components where good corrosion resistance combined with a low neutron capture cross-section has been required. Corrosion fatigue crack growth in these alloys in high temperature (260-290°C) aqueous environments typical of... 

Key words Friction stir welding, tensile properties, titanium alloys, fatigue crack growth... 

D.B. Dawson and R.M. Pelloux, Corrosion Fatigue Crack Growth of Titanium Alloys in Aqueous Environments, Metall. Trans., Vol 5, 1974, p 723-731... 

Environmentally Enhanced Fatigue Crack Growth in Titanium Alloys [6]... 

For hydride-forming alloys, such as titanium alloys, the crack growth response may exhibit strong temperature and frequency dependence that is also a function of K level. This dependence reflects the influence of strain, strain rate, and temperature on hydride formation and rupture [7,8]. Support for this response is provided by the early fatigue crack growth data on Ti-6Al-4V(Ti64) alloy in 0.6 M NaCl... 

J. K. Gregory Fatigue crack growth of titanium alloys. In S. R. Lampman (editor) Fatigue and Fracture, volume 19 of asm Handbook, pages 845-853. ASM International, 1996. 

Brown, C.W., Hicks, M.A. A study of short fatigue crack growth behavior in titanium alloy IMI 685. Fatigue Eng. Mater. Struct. 6, 46-67 (1983)... 

Dawson, D.B., Pelloux, R.M. Corrosion fatigue crack growth of titanium alloys in aqueous environments. Metall. Trans. A 5A, 723-731 (1974)... 

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