A thermal kinetic model is used to study the processes that occur in the Ni–Al powder reaction system in contact melting. The effect of control parameters on the nature of these processes is examined through a computer experiment. The kinetic dependences and maximum temperatures developing in the system in the synthesis of equiatomic intermetallide (NiAl) are compared for two heat transfer cases: radiation and thermal conductivity.
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References
A. G. Merzhanov, “New combustion models of second type,” Dokl. Akad. Nauk SSSR, 223, No. 6, 1130–1133 (1977).
A. G. Merzhanov and E. N. Rumanov, “Physics of reaction waves,” Rev. Mod. Phys., 71, No. 4, 1173–1211 (1999).
A. G. Merzhanov, A. S. Mukhasian, A. S. Rogachev, et al., “Microstructure of the combustion front in heterogeneous gas-free systems (exemplified by combustion in the 5Ti + 3Si system),” Fiz. Goreniya Vzryva, 32, No. 6, 68–81 (1996).
K. G. Shkadinskii and A. N. Firsov, “Anisotropic characteristics of products behind the front of selfpropagating high-temperature synthesis,” Fiz. Goreniya Vzryva, 32, No. 6, 82–89 (1996).
V. P. Solntsev, V. V. Kartuzov, V. V. Skorokhod, and K. E. Rotmistrovksii, “Development of physical and chemical ideas on the nature of SHS based on the synergetic approach,” in: Applied Synergetics, Fractals, and Computer Modeling of Structures [in Russian], Tomsk Gos. Univ., Tomsk (2002), pp. 163–168.
V. P. Solntsev, V. V. Skorokhod, and K. M. Petrash, “Collective mechanisms and effect of the initiation temperature and the environment in SHS on the thermal kinetic behavior of the reaction system,” Sovr. Probl. Fiz. Materialoved., Issue 23, 155–159 (2014).
K. N. Petrash, V. P. Solntsev, and V. V. Skorokhod, “Thermal kinetics of interactions in the titanium– aluminum system near temperatures of hidden maximum,” in: Mathematical Models and Computational Experiment in Materials Science [in Russian], Inst. Probl. Materialoved. NAN Ukrainy, Kyiv (2015), Issue 17, pp. 96–102.
V. P. Solntsev, K. N. Petrash, T. A. Solntseva, and V. V. Skorokhod, “Theoretical and experimental studies on the thermal kinetics of intermetallide synthesis,” in: Proc. 14 th All-Ukr. Sci. Conf. Special Metallurgy: Yesterday, Today, Tomorrow (April 19, 2016, Kyiv), Kyiv (2016), pp. 926–932.
V. P. Solntsev, V. V. Skorokhod, K. M. Petrash, and T. A. Solntseva, “Thermal kinetics of reaction processes initiated by contact melting in powder metallic systems of nickel with aluminum,” Adgez. Raspl. Paika Mater., Issue 47, 25–34 (2014).
K. N. Petrash, V. P. Solntsev, V. V. Skorokhod, and T. A. Solntseva, “Analysis of potential options for the development of thermal kinetic interaction in the titanium–aluminum system in dynamic change in solvent concentration,” in: Mathematical Models and Computational Experiment in Materials Science [in Russian], Inst. Probl. Materialoved. NAN Ukrainy, Kyiv (2016), Issue 18, pp. 17–22.
V. P. Solntsev and T. A. Solntseva, “Generation and superposition of concentration and heat waves under exothermic reactions in powder system,” Powder Metall. Met. Ceram., 53, Nos. 5–6, 269–274 (2014).
Zhang Chuan-Hui, Huang Shuo, Shen Jiang, and Chen Nan-Xian “Chen’s lattice inversion embedded-atom method for Ni–Al alloy,” Chin. Phys. B, 21, No. 11, 13401-1–113401-7 (2012).
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V. V. Skorokhod is deceased.
Translated from Poroshkovaya Metallurgiya, Vol. 56, Nos. 7–8 (516), pp. 39–46, 2017.
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Petrash, K.M., Skorokhod, V.V., Solntsev, V.P. et al. The Role of Heat Transfer by Radiation in High-Temperature Reaction Synthesis of NiAl Intermetallide. Powder Metall Met Ceram 56, 393–398 (2017). https://doi.org/10.1007/s11106-017-9908-2
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DOI: https://doi.org/10.1007/s11106-017-9908-2