Affiliation:
1. Tomsk Polytechnic University
Abstract
It has been calculated that the introduction of nickel-aluminum additives leads to an increase in the heat effect and allows for the development of materials with the desired phase composition. A comparative analysis of the results of design and instrumentation experiments has shown a satisfactory agreement which allows us to speak about the correctness of the developed numerical model as well as the possibility of selecting optimal initial values of the heat energy source as a factor which allows for controlling the reaction of self-propagating high-temperature synthesis and eventually the phase composition of the final product.
Publisher
Trans Tech Publications, Ltd.
Reference6 articles.
1. A.G. Merzhanov, Self-propagating high-temperature synthesis: twenty years of search and findings, Combustion and plasma synthesis of high-temperature materials, VCH Publ., New York, (1990).
2. Z.A. Munir, U. Anselmi-Tamburini, Self-propagating exothermic reactions: The synthesis of high-temperature materials by combustion, Mater. Sci. Rep. 3, 7 (1989) 277-365.
3. A.T. Singanahally, A.S. Mukasyan, Combustion synthesis and nanomaterials, Current Opinion in Solid State and Mater. Sci. 12, 3 (2008) 44-50.
4. A.S. Mukasyan, P. Epstein, P. Dinka, Solution combustion synthesis of nanomaterials, Proc. of the Combustion Institute. 3, . 2 (2007) 1789-1795.
5. A. Makino, et al, Spontaneous ignition temperature for the compacted mixture of Ni–Al system: Experiment, theory, and comparisons, Proc. of the Combustion Institute. 34, 2 (2013) 2197-2204.