13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- [2] Y. S. Sato, H. Takauchi, S. H. C. Park, H. Kokawa, Characteristics of the kissing-bond in friction stir welded Al alloy 1050. Mater. Sci. Eng., A405 (2005) 333-338. [3] S. Di, X. Yang, G. Luan, B. Jian, Comparative study on fatigue properties between AA2024-T4 friction stir welds and base materials. Mater. Sci. Eng., A435-436 (2006) 389-395. [4] H. B. Chen, K. Yan, T. Lin, S. B. Chen, C. Y. Jiang, Y. Zhao, The investigation of typical welding defects for 5456 aluminum alloy friction stir welds. Mater. Sci. Eng., A433 (2006) 64-69. [5] Y. Uematsu, K. Tokaji, H. Shibata, Y. Tozaki, T. Ohmune, Fatigue behaviour of friction stir welds without neither welding flash nor flaw in several aluminium alloys, Int. J. Fatigue, 31 (2009) 1443-1453. [6] L. Cui, X. Yang, G. Zhou, X. Xu, Z. Shen, Characteristics of defects and tensile behaviors on friction stir welded AA6061-T4 T-joints. Mater. Sci. Eng., A543 (2012) 58-68. [7] T. L. Dickerson, J. Przydatek, Fatigue of friction stir welds in aluminium alloys that contain root flaws. Int. J. Fatigue, 25 (2003) 1399-1409. [8] C. Zhou, X. Yang, G. Luan, Effect of root flaws on the fatigue property of friction stir welds in 2024-T3 aluminum alloys. Mater. Sci. Eng., A418 (2006) 155-160. [9] J. E. Barnes, J. Mc Michael, A. Reynolds, Effects of friction stir welding defects on 7075 joint strength and fatigue life, in: Proc. 6th Int. Symp. on Friction Stir Welding, Curran Associates, Inc., New York, 2006 (CD-ROM). [10] B. K. Christner, G. D. Sylva, Friction stir welding development for aerospace application, in: Int. Conf. on Advances in Welding Technology, Joining of High Performance Materials, Columbus, OH, 1996. [11] T. Le Jolu, T. F. Morgeneyer, A. Denquin, J. Besson, A. F. Gourgues-Lorenzon, Characterisation of internal welding defects and effect on the plastic behaviour of FSW joints of AA2198 Al-Cu-Li alloy, to be submitted to Mater. Sci. Eng. A (2013). [12] A. Denquin, D. Allehaux, G. Lapasset, H. Ostersehlte, Microstructural phenomena of FSW joints; friction stir welding behaviour of 2098 type alloys and resulting weld properties, in: G. Gottstein, J. Hirsch, B. Skrotzki (Eds.), 11th Int. Conf. on aluminium alloys, Wiley, 2008, pp. 1939-1944. [13] H. J. Liu, H. Fujii, M. Maeda, and K. Nogi, Tensile properties and fracture locations of friction-stir-welded joints of 2017-T351 aluminum alloy. J. Mater. Proc. Technol., 142 (2006) 692-696. [14] K. Kumar and S. V. Kailas, Positional dependence of material flow in friction stir welding: analysis of joint line remnant and its relevance to dissimilar metal welding. Sci. Technol. Welding Joining, 15 (2010) 305-311. [15] P. Cavaliere, A. De Santis, F. Panella, A. Squillace, Effect of anisotropy on fatigue properties of 2198 Al-Li plates joined by friction stir welding. Eng. Failure Analysis, 16, (2009) 1856-1865. [16] C. Z. Zhou, X. Q. Yang, G. H. Luan, Effect of kissing bond on fatigue behavior of friction stir welds on Al 5083 alloy. J. Mater. Sci., 41 (2006) 2771-2777. [17] C.Z. Zhou, X. Q. Yang, G. H. Luan, Effect of oxide array on the fatigue property of friction stir welds. Scr. Mater., 54 (2006) 1515-1520. [18] S. Di, X. Yang, D. Fang, G. Luan, The influence of zigzag-curve defect on the fatigue properties of friction stir welds in 7075-T6 Al alloy. Mater. Chem. Phys., 104 (2007) 244-248. [19] H. Tada, P. C. Paris, G. R. Irwin, The stress analysis of cracks handbook. Del Research Corp. Saint Louis, 1973. [20] S. Richard, Fatigue cracking of third generation aluminium-lithium alloys, PhD dissertation, http://tel.archives-ouvertes.fr/docs/00/60/54/26/PDF/ThA_se_SA_bastien_RICHARD_2011.pdf, ENSMA, Poitiers, France (in French). [21] Y. E. Ma, P. E. Irving, T. Fisher, X. Zhang, G. Servetti, Effects of residual stresses on fatigue crack propagation in friction stir welded 2198-T8 and 2195-T8 Al-Li alloy joints, in: 12th International Conference on Fracture, Curran Associates, Inc., New York 2010, 1797-1806.
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