Z. Asghar, G. Requena, and E. Boller, 3D rigid multiphase networks providing high-temperature strength to cast AlSi10Cu5Ni1-2 piston alloys, Acta Mater, vol.59, pp.6420-6432, 2011.

G. Requena, G. Garcés, Z. Asghar, E. Marks, P. Staron et al., The Effect of Connectivity of Rigid Phases on Strength of Al-Si Alloys, Adv. Eng. Mater, vol.13, pp.674-684, 2011.

A. M. Mohamed and F. H. Samuel, A Review on the Heat Treatment of Al-Si-Cu/Mg Casting Alloys. INTEC 2012

P. Y. Zhu, Q. Y. Liu, and T. X. Hou, Spheroidization of eutectic Silicon in Aluminum-Silicon Alloys, AFS Trans, vol.93, pp.609-614, 1985.

R. Kone?ná, S. Fintová, G. Nicoletto, and E. Riva, High temperature fatigue strength and quantitative metallography of an eutectic Al-Si alloy for piston application, Key Eng. Mater, pp.592-593, 2014.

S. G. Shabestari and H. Moemeni, Effect of copper and solidification conditions on the microstructure and mechanical properties of Al-Si-Mg alloys, J. Mater. Process. Technol, pp.193-198, 2004.

M. N. Efzan, H. J. Kong, and C. K. Kok, Review: Effect of Alloying Element on Al-Si alloys, Adv. Mater. Res, vol.845, pp.355-359, 2014.

C. Jeong, Effect of Alloying elements on high temperature mechanical properties for piston alloy, Mater. Trans. 2012, vol.53, pp.234-239

W. D. Zhang, J. Yang, J. Z. Dang, Y. Liu, H. Xu et al., Cu and Mg on the high temperature mechanical properties of Al-Si-Cu-Mg alloy, Adv. Mater. Res, pp.1030-1034, 2013.

F. S. Silva, Fatigue on engine pistons-A compendium of case studies, Eng. Fail. Anal, vol.13, pp.480-492, 2006.

Z. Asghar, G. Requena, and F. Kubel, The role of Ni and Fe aluminides on the elevated temperature strength of an AlSi12 alloy, Mater. Sci. Eng. A, vol.527, pp.5691-5698, 2010.

Z. Asghar, G. Requena, H. P. Degischer, and P. Cloetens, Three-dimensional study of Ni aluminides in an AlSi12 alloy by means of light optical and synchrotron microtomography, Acta Mater, vol.57, pp.4125-4132, 2009.

G. Requena and H. P. Degischer, Three-Dimensional Architecture of Engineering Multiphase Metals, Ann. Rev. Mater. Res, vol.42, pp.145-161, 2012.

Z. Asghar, G. Requena, and G. H. Zahid, Effect of thermally stable Cu-and Mg-rich aluminides on the high temperature strength of an AlSi12CuMgNi alloy, Mater. Charact, vol.88, pp.80-85, 2014.

Z. Asghar, G. Requena, H. P. Degischer, and E. Boller, Influence of Internal Architectures of Cast AlSi10Cu5Ni1-2 on High Temperature Strength, Proceedings of the 12th International Conference on Aluminium Alloys, pp.1285-1290, 2010.

K. Bugelnig, F. Sket, H. Germann, T. Steffens, R. Koos et al., Influence of 3D connectivity of rigid phases on damage evolution during tensile deformation of an AlSi12Cu4Ni2 piston alloy, Mater. Sci. Eng. A, vol.709, pp.193-202, 2018.

A. Kruglova, M. Engstler, G. Gaiselmann, O. Stenzel, V. Schmidt et al., 3D connectivity of eutectic Si as key property defining strength of Al-Si alloys, Comput. Mater. Sci, vol.120, pp.90-107, 2016.

Y. Cho, Y. Im, S. Kwon, and H. C. Lee, The Effect of Alloying Elements on the Microstructure and Mechanical Properties of Al-12Si Cast Alloys, Mater. Sci. Forum, pp.339-344, 2003.

F. Stadler, H. Antrekowitsch, W. Fragner, H. Kaufmann, and P. J. Uggowitzer, The effect of Ni on the high-temperature strength of Al-Si cast alloys, Mater. Sci. Forum, vol.690, pp.274-277, 2011.

R. Kone?ná, G. Nicoletto, L. Kunz, M. Svoboda, and A. Ba?a, Fatigue strength degradation of AlSi12cuNiMg alloy due to high temperature exposure: A structural investigation, Procedia Eng, vol.74, pp.43-46, 2014.

Y. Li, Y. Yang, Y. Wu, and X. Liu, Quantitative comparison of three Ni-containing phases to the elevated-temperature properties of Al-Si piston alloys, Mater. Sci. Eng. A, vol.527, pp.7132-7137, 2010.

J. Toriwaki and T. Yonekura, Euler Number and Connectivity Indexes of a Three Dimensional Digital Picture, vol.17, pp.183-209, 2002.

D. B. Aydogan and J. Hyttinen, Characterization of microstructures using contour tree connectivity for fluid flow analysis, vol.11, 2014.

M. J. Silva and L. J. Gibson, The effect of non-periodic microstructure and defects on the compressive strength of two-dimensional cellular solids, Int. J. Mech. Sci, vol.39, pp.549-563, 1997.

. Id19-microtomography and . Beamline, , 2018.

J. Schindelin, I. Arganda-carreras, E. Frise, and . Fiji, An open-source platform for biological-image analysis, Nat. Methods, vol.9, pp.676-682, 2012.
URL : https://hal.archives-ouvertes.fr/pasteur-02616466

G. C. Requena, P. Degischer, E. D. Marks, and E. Boller, Microtomographic study of the evolution of microstructure during creep of an AlSiCuMgNi alloy reinforced with Al2O3 short fibres, Mater. Sci. Eng. A, vol.487, pp.99-107, 2008.

M. Zeren, Effect of copper and silicon content on mechanical properties in Al-Cu-Si-Mg alloys, J. Mater. Process. Technol, vol.169, pp.292-298, 2005.

N. A. Belov, D. G. Eskin, and N. N. Avxentieva, Constituent phase diagrams of the Al-Cu-Fe-Mg-Ni-Si system and their application to the analysis of aluminium piston alloys, Acta Mater, vol.53, pp.4709-4722, 2005.

A. Farkoosh, M. Javidani, M. Hoseini, D. Larouche, and M. Pekguleryuz, Phase formation in as-solidified and heat-treated Al-Si-Cu-Mg-Ni alloys, Thermodynamic assessment and experimental investigation for alloy design, J. Alloy Compd, vol.551, pp.596-606, 2013.

L. Ceschini, I. Boromei, A. Morri, S. Seifeddine, I. L. Svensson et al., tensile and fatigue properties of the Al-10%Si-12%Cu alloy with different Fe and Mn content under controlled conditions, J. Mater. Process. Technol, vol.209, pp.5669-5679, 2009.

M. Zamani, S. Seifeddine, and A. E. Jarfors, High Temperature tensile deformation and failure mechanisms of an Al-Si-Cu-Mg cast alloy-The microstructural scale effect, Mater. Des, vol.86, pp.361-370, 2015.

J. F. Su, X. Nie, and V. Stoilov, Characterization of fracture and debonding of Si particles in AlSi Alloys, Mater. Sci. Eng. A, vol.527, pp.7168-7175, 2010.

M. Lebyodkin, A. Deschamps, and Y. Bréchet, Influence of second phase morphology and topology on mechanical and fracture properties of Al-Si alloys, Mater. Sci. Eng. A, pp.481-484, 1997.

K. Gall, M. Horstemeyer, D. L. Mcdowell, and J. Fan, Finite element analysis of the stress distributions near damaged Si particle clusters in cast Al-Si alloys, Mech. Mater, vol.32, pp.277-301, 2000.

R. Morgenstern and S. Kenningley, Transient microstructural thermomechanical fatigue and deformation characteristics under superimposed mechanical and thermal loading, in AlSi based automotive diesel pistons, The Minerals, Metals & Materials Series, 2013.

B. A. Sadler and E. Springer, , pp.397-403, 2016.

L. F. Mondolfo, Aluminium Alloys: Structure and Properties

. Butterworth-&-co and . Ltd, , 1976.

M. R. Joyce, C. M. Styles, and P. A. Reed, Elevated temperature short crack fatigue behaviour in near eutectic Al-Si alloys, Int. J. Fatigue, vol.25, pp.863-869, 2003.

G. Zhang, J. Zhang, B. Li, and W. Cai, Characterization of tensile fracture in heavily alloyed Al-Si piston alloy, Progress in Natural Science. Mater. Int, vol.21, pp.380-385, 2011.

M. Wang, J. Pang, Y. Qiu, H. Liu, S. Li et al., Tensile Strength Evolution and Damage Mechanisms of Al-Si Piston Alloy at Different Temperatures, Adv. Eng. Mater, 2018.

P. T. Summers, Y. Chen, C. M. Rippe, B. Allen, A. P. Mouritz et al., Overview of aluminum alloy mechanical properties during and after fires, Fire Sci. Rev, vol.4, issue.3, 2015.

C. L. Chen, A. Richter, and R. C. Thomson, Investigation of mechanical properties of intermetallic phases in multi-component Al-Si using hot-stage nanointendation, Intermetallics, vol.18, pp.499-508, 2010.