References

Agrawal, R., R. Uddanwadiker and P. Padole, 2014. Low cycle fatigue life prediction. Intl. J. Emerging Eng. Res. Technol., 2: 5-15.
Direct Link  |  

Campbell, F.C., 2008. Fatigue. In: Elements of Metallurgy and Engineering Alloys, Campbell, F.C. (Ed.). ASM International, Ohio, USA., ISBN:978-0-87170-867-0, pp: 243-264.

Cavaliere, P., E. Cerri and A. Squillace, 2005. Mechanical response of 2024-7075 aluminium alloys joined by Friction Stir Welding. J. Mater. Sci., 40: 3669-3676.
CrossRef  |  

D’Urso, G., C. Giardini, S. Lorenzi and T. Pastore, 2014. Fatigue crack growth in the welding nugget of FSW joints of a 6060 Aluminum alloy. J. Mater. Process. Technol., 214: 2075-2084.
Direct Link  |  

Hassanifard, S., M. Mohammadpour and H.A. Rashid, 2014. A novel method for improving fatigue life of friction stir spot welded joints using localized plasticity. Mater. Des., 53: 962-971.
Direct Link  |  

Lee, Y.L., J. Pan, R. Hathaway and M. Barkey, 2005. Fatigue Testing and Analysis: Theory and Practice. Butterworth-Heinemann, USA., ISBN-13:9780750677196, Pages: 402.

Minak, G., L. Ceschini, I. Boromei and M. Ponte, 2010. Fatigue properties of friction stir welded particulate reinforced Aluminium matrix composites. Intl. J. Fatigue, 32: 218-226.
Direct Link  |