[1] Chawla, K. K., “Metal Matrix Composites“ in: Composite Materials, Eds., pp. 197-248: Springer, 2012.
[2] Sedighi, M., Shakibaei Nasab, M. and Jabbari Mostahsan, A., “Fabrication of Fgm Sheet of Aluminum Matrix Composite Using Powder Metallurgy and Hot-Rolling Processes“ Journal of Science and Technology of Composites, Vol. 6, No. 1, pp. 69-78, 2019.
[3] Miyamoto, Y., Kaysser, W., Rabin, B., Kawasaki, A. and Ford, R. G., “Functionally Graded Materials: Design, Processing and Applications“, Springer Science & Business Media, 2013.
[4] Watanabe, Y., Hattori, Y. and Sato, H. J. J. o. M. P. T., “Distribution of Microstructure and Cooling Rate in Al–Al2cu Functionally Graded Materials Fabricated by a Centrifugal Method“, Vol. 221, pp. 197-204, 2015.
[5] Watanabe, Y., Zhou, Q., Sato, H., Fujii, T. and Inamura, T. J. J. J. o. A. P., “Microstructures of Al–Al3ti Functionally Graded Materials Fabricated by Centrifugal Solid-Particle Method and Centrifugal in Situ Method“, Vol. 56, No. 1S, pp. 01AG01, 2016.
[6] Tamura, D., Nagai, R., Sugimoto, K., Udono, H., Kikuma, I., Tajima, H. and Ohsugi, I. J. J. T. S. F., “Melt Growth and Characterization of Mg2si Bulk Crystals“, Vol. 515, No. 22, pp. 8272-8276, 2007.
[7] Zhang, J., Fan, Z., Wang, Y., Zhou, B. J. M. S. and A, E., “Microstructural Development of Al–15wt.% Mg2si in Situ Composite with Mischmetal Addition“, Vol. 281, No. 1-2, pp. 104-112, 2000.
[8] Nasiri, N., Emamy, M., Malekan, A., Norouzi, M. J. M. S. and A, E., “Microstructure and Tensile Properties of Cast Al–15% Mg2si Composite: Effects of Phosphorous Addition and Heat Treatment“, Vol. 556, pp. 446-453, 2012.
[9] Lin, X., Liu, C. and Xiao, H. J. C. P. B. E., “Fabrication of Al–Si–Mg Functionally Graded Materials Tube Reinforced with in Situ Si/Mg2si Particles by Centrifugal Casting“, Vol. 45, No. 1, pp. 8-21, 2013.
[10] Ahmed, A., El-Hadad, S., Reda, R. and Dawood, O. J. I. J. o. C. M. R., “Microstructure Control in Functionally Graded Al-Si Castings“, Vol. 32, No. 2, pp. 67-77, 2019.
[11] Ram, S., Chattopadhyay, K., Chakrabarty, I. J. J. o. A. and Compounds, “High Temperature Tensile Properties of Centrifugally Cast in-Situ Al-Mg2si Functionally Graded Composites for Automotive Cylinder Block Liners“, Vol. 724, pp. 84-97, 2017.
[12] Xie, Y., Liu, C., Zhai, Y., Wang, K. and Ling, X. J. R. m., “Centrifugal Casting Processes of Manufacturing in Situ Functionally Gradient Composite Materials of Al-19si-5mg Alloy“, Vol. 28, No. 4, pp. 405-411, 2009.
[13] Malekan, A., Emamy, M., Rassizadehghani, J., Emami, A. J. M. and Design, “The Effect of Solution Temperature on the Microstructure and Tensile Properties of Al–15% Mg2si Composite“, Vol. 32, No. 5, pp. 2701-2709, 2011.
[14] Samadi, A. and Ghayebloo, M. J. P., Journal of Advanced Materials in Engineering, “Effect of Al-5ti-B Inoculant Addition on the Graded Microstructure of Centrifugally Cast Al-13.8 Wt.% Mg2si Composite“, Vol. 34, No. 2, pp. 49-59, 2015.
[15] Rahvard, M. M., Tamizifar, M., Boutorabi, S. M. A., Shiri, S. G. J. M. and Design, “Characterization of the Graded Distribution of Primary Particles and Wear Behavior in the A390 Alloy Ring with Various Mg Contents Fabricated by Centrifugal Casting“, Vol. 56, pp. 105-114, 2014.
[16] Chirita, G., Soares, D., Silva, F. J. M. and Design, “Advantages of the Centrifugal Casting Technique for the Production of Structural Components with Al–Si Alloys“, Vol. 29, No. 1, pp. 20-27, 2008.
[17] Li, Z., Li, C., Liu, Y., Yu, L., Guo, Q., Li, H. J. J. o. A. and Compounds, “Effect of Heat Treatment on Microstructure and Mechanical Property of Al–10% Mg2si Alloy“, Vol. 663, pp. 16-19, 2016.