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Combustion Science and Technology Volume 185, 2013 - Issue 7
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Original Articles

A Numerical Model for the Combustion Synthesis of Titanium Aluminide in the Self-Propagating Mode

M. Adeli Center of Excellence for High Strength Alloys Technology (CEHAT), School of Metallurgy and Materials Engineering, Iran University of Science and Technology (IUST), Narmak, Tehran, IranCorrespondence[email protected]
,
S. H. Seyedein Center of Excellence for High Strength Alloys Technology (CEHAT), School of Metallurgy and Materials Engineering, Iran University of Science and Technology (IUST), Narmak, Tehran, Iran
&
M. R. Aboutalebi Center of Excellence for High Strength Alloys Technology (CEHAT), School of Metallurgy and Materials Engineering, Iran University of Science and Technology (IUST), Narmak, Tehran, Iran
Pages 1118-1131 | Received 01 Oct 2012, Accepted 26 Feb 2013, Published online: 26 Jun 2013
 
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Abstract

A numerical model was developed for the self-propagating high-temperature synthesis (SHS) of titanium aluminide from starting elemental powders. The energy equation coupled with the reaction kinetic equation was numerically solved. The calculated temperature-time results were in good agreement with available experimental data. The effect of such parameters as preheating temperature, green density of powder compact, titanium particle size, and effective duration of applying the ignition source on the process behavior was estimated by the model. The optimum value of process parameters to gain a self-sustaining reaction was determined under certain circumstances of the present study. Once properly modified, the model is applicable to predict the conditions suitable to utilize the SHS process for the synthesizing of other types of compounds with similar mechanism of formation.

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