[1]Pramod, S. L. Bakshi, S.R. and Murty, B.S. "Aluminum-based cast in situ composites: a review." Journal of Materials Engineering and Performance, Vol. 24, 2185-2207, 2015..
[2]Ashnagar, M. Mashreghi, A.R. Kalantar, M., "Production of Al/ (Al2O3+Alxvy) Composite", Iranian Journal of Science and Ceramic Engineering, Vol. 2, No 3, pp. 57-72, 2014.
[3]Koczak, M.J. Premkumar, M.K., "Emerging technologies for the in-situ production of MMCs", Jom, Vol. 45, pp. 44–48, 1993.
[4]Mamnooni, S., Borhani, E., Bovand, D., "In - Situ Synthesis of Aluminum Matrix Composite from Al – NiO System by Mechanical Alloying", Metals and Materials International, Accepted, 2019.
[5]Alizadeh, A., Geraei, M., & Mahoodi, M. R., "In situ fabrication of Al-Al2O3-TiB2 hybrid nanocomposite; Evaluating the effect of TiO2 and B2O3 mechanical milling time on properties of composite created through vortex casting", Materials Research Express, Accepted, 2018.
[6]Chen, C., Lin, C., "In-situ dispersed La oxides of Al6061 composites by mechanical alloying Depa", Journal of Alloys and Compounds, Vol. 775, pp. 1156-1163, 2019.
[7]Caballero, E. et al., "In Situ Synthesis of Al-Based MMCs Reinforced with AlN by Mechanical Alloying under NH 3 Gas", materials, Vol. 11 (823), pp. 1–9, 2018.
[8]Alipour, M. and Eslami-Farsani, R., “Investigation of the microstructure and hardness of cast AA7068 nanocomposite reinforced with SiC nanoparticles”, In Persian, Journal of Science and Technology of Composites, Vol. 5, No. 4, pp. 461-468, 2019
[9]Arik, H., "Production and characterization of in situ Al4C3 reinforced aluminum-based composite produced by mechanical alloying technique", Materials & Design, Vol. 25, pp. 31–40, 2004.
[10]Jawalkar, C.S. Verma, A.S. and Suri, N.M., "Fabrication of Aluminium Metal Matrix Composites with Particulate Reinforcement: A Review", Materials Today: Proceedings, Vol. 4, pp. 2927–2936, 2017.
[11]Singla, A. Garg, R. Saxena, M., "Microstructure and wear behavior of Al-Al2O3 in situ composites fabricated by the reaction of V2O5 particles in pure aluminum", Green Processing and Synthesis, Vol. 4, pp. 487–497, 2015.
[12]Ashnagar, M. "Study on effectiveparameters in combustion synthesis process and properties of fabricated compositesin an Al-V2O5 system", MSc Thesis, Yazd University, Iran, 2013.
[13]Ren, S. He, X. Qu, X., Humail, I.S. Li, Y., "Effect of Mg and Si in the aluminum on the thermo-mechanical properties of pressureless infiltrated SiCp/Al composites", Composites Science and Technology, Vol. 67, pp. 2103 -2113, 2007.
[14]Mirarabshahi, F. Mashreghi, A.R., "Fabrication and phases study in Al/(Al2O3 + AlxVy + AlaNib) in situ composite", Iranian Journal of Sience and Technology, Vol. 4, pp. 303–310, 2017.
[15]Yazdian, N. Karimzadeh, F. Enayati, M.H., "In-situ fabrication of Al3V/Al2O3 nanocomposite through mechanochemical synthesis and evaluation of its mechanism", Advanced Powder Technology, Vol. 24, pp. 106–112, 2013.
[16]Anvari, S.Z. Karimzadeh, F. Enayati, M.H., "Synthesis and characterisation of nanostructured Al–Al3V and Al–(Al3V–Al2O3) composites by powder metallurgy", Materials Science and Technology, Vol. 0836, pp. 1–12, 2017.
[17]Holland, T.B. Anselmi-Tamburini, U. Mukherjee, A.K., "Electric fields and the future of scalability in spark plasma sintering", Scripta Materialia, Vol. 69, pp. 117–121, 2013.
[18]Sulima, I. Putyra, P. Hyjek, P. Tokarski, T., "Effect of SPS parameters on densification and properties of steel matrix composites", Advanced Powder Technology, Vol. 26, pp. 1152–1161, 2015.
[19]Zhang, Z. Shen, X. Wang, F. Wei, S. Li, S. Cai, H., "Microstructure characteristics and mechanical properties of TiB/Ti-1.5Fe-2.25Mo composites synthesized in situ using SPS process", Transactions of Nonferrous Metals Society of China, Vol. 23, pp. 2598–2604, 2013.
[20]Zhang, J. Hu, W. Zhang, F. Fu, Z., "(AlN)xMo1−x (x=0.5) composite fabricated by spark plasma sintering (SPS)", International Journal of Refractory Metals and Hard Materials, Vol. 54, pp. 378–382, 2016.
[21]Yang, H. McCormick, P.G., "Mechanochemical reduction of V2O5", journal of solid state chemistry, Vol. 110, pp. 136–141, 1994.
[22]Zhang, D.L. Adam, G. Langdon, A.G., "Phase and microstructural evolution during heating of mechanically milled Al/V205 composite powders", Materials science and technology, Vol. 18, pp. 901–907, 2002.
[23]Omran, A.N.M., "Fabrication and characterization of Al-based in situ composites reinforced by Al3V intermetallic compounds", E3 J. Sci. Res, Vol. 2, pp. 26–34, 2014.
[24]Habashi, F.,“Principle of Extractive Metallurgy”, New York, vol. 3, p. 1479, 1997.
[25]Wagman, D.D. et al., The NBS Tables of Chemical Thermodynamic Properties Selected values for inorganic and C1 and C2 organic substances in SI units, Journal of physical and chemical reference data 1982.
[26]Murray, J.L., "AI-V ( Aluminum-Vanadium )", Bulletin of Alloy Phase Diagrams, Vol. 10, pp. 351–357, 1989.
[27]Klancnik, G. Medved, J. Mrvar, P., "Differential thermal analysis ( DTA ) and differential scanning calorimetry ( DSC ) as a method of material investigation", Materials and Geoenvironmentent, Vol. 57, pp. 127–142, 2010.