PSI - Issue 2_A

Zaidao Li et al. / Procedia Structural Integrity 2 (2016) 3415–3422 Zaidao.Li/ Structural Integrity Procedia 00 (2016) 000–000

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Acknowledgements The authors wish to thank the ANR (Agence Nationale de la Recherche) MatetPro project INDiANA (ANR 12RMNP-0011) for funding the study on Al-Si alloys. Pierre OSMOND from PSA Peugeot Citroën is greatly acknowledged for providing material to the project. References Albonetti, R. 2001. Porosity and intermetallic formation in lost foam casting of 356 alloy, Master thesis, National Library of Canada, Bibliothèque nationale du Canada. Buffière, J.-Y., Savelli, S., Jouneau, P.-H., Maire, E., Fougeres, R. 2001. Experimental study of porosity and its relation to fatigue mechanisms of model Al–Si7–Mg0. 3 cast Al alloys. Materials Science and Engineering: A, 316 , 115-126. Dietrich, L., Radziejewska, J. 2011. The fatigue damage development in a cast Al–Si–Cu alloy. Materials,Design, 32 , 322-329. Gall, K., Horstemeyer, M. F., Degner, B. W., McDowell, D. L., Fan, J. 2001. On the driving force for fatigue crack formation from inclusions and voids in a cast A356 aluminum alloy. International Journal of Fracture, 108 , 207-233. Ji, S., Yang, W., Gao, F., Watson, D.,Fan, Z. 2013. Effect of iron on the microstructure and mechanical property of Al–Mg–Si–Mn and Al–Mg– Si diecast alloys. Materials Science and Engineering: A, 564 , 130-139. Kaufman, J. G.,Rooy, E. L. 2004. Aluminum alloy castings: properties, processes, and applications, ASM International. Li, Z., Samuel, A., Samuel, F., Ravindran, C., Doty, H.,Valtierra, S. 2004. Parameters controlling the performance of AA319-type alloys: Part II. Impact properties and fractography. Materials Science and Engineering: A, 367 , 111-122. Limodin, N., El Bartali, A., Wang, L., Lachambre, J., Buffiere, J.-Y.,Charkaluk, E. 2014. Application of X-ray microtomography to study the influence of the casting microstructure upon the tensile behaviour of an Al–Si alloy. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 324 , 57-62. Ma, Z., Samuel, A., Doty, H., Valtierra, S.,Samuel, F. 2014. Effect of Fe content on the fracture behaviour of Al–Si–Cu cast alloys. Materials,Design, 57 , 366-373. Mayer, H., Papakyriacou, M., Zettl, B.,Stanzl-Tschegg, S. 2003. Influence of porosity on the fatigue limit of die cast magnesium and aluminium alloys. International journal of fatigue, 25 , 245-256. Petzow, G. 1999. Metallographic etching: techniques for metallography, ceramography, plastography, ASM international. Seghir, R., Witz, J. F.,Coudert, S. YaDICs - Digital Image Correlation 2/3D software [Online]. Available: http://www.yadics.univ-lille1.fr. Seifeddine, S.,Svensson, I. L. 2013. The influence of Fe and Mn content and cooling rate on the microstructure and mechanical properties of A380-die casting alloys. Metallurgical Science and Tecnology, 27. Sutton, M. A., McNeill, S. R., Helm, J. D.,Chao, Y. J. 2000. Advances in Two-Dimensional and Three-Dimensional Computer Vision. In: Rastogi, P. K. (ed.) Photomechanics. Berlin, Heidelberg: Springer Berlin Heidelberg. Wang, Q., Apelian, D.,Lados, D. 2001. Fatigue behavior of A356-T6 aluminum cast alloys. Part I. Effect of casting defects. Journal of Light Metals, 1 , 73-84. Zeng, L., Sakamoto, J., Fujii, A.,Noguchi, H. 2014. Role of eutectic silicon particles in fatigue crack initiation and propagation and fatigue strength characteristics of cast aluminum alloy A356. Engineering Fracture Mechanics, 115 , 1-12. Zwieg, T. 2003. Specimen preparation for high edge retention of aluminum alloys. Industrial heating, 70 , 43-45.