Field-activated combustion synthesis of titanium aluminides

The feasibility of synthesizing the titanium aluminides Ti3Al and TiAl thro ugh field-activated, self-propagating combustion synthesis is demonstrated, A self-sustaining combustion wave can be initiated only when the imposed f ield is above a threshold value for each of these two aluminides. At the th reshold values, wave propagation resulted in an incomplete reaction between the metals and the products, which contained several phases in addition to the desired one. As the field strength was increased, the reaction approac hed completion and the amounts of the secondary phases decreased. At a suff iciently high field, a single-phase product was obtained in the case of Ti3 Al, but, in the case of TiAl, the product contained Ti3Al as a secondary ph ase even with the highest imposed field. The effect of reactant compact den sity was investigated for the case of Ti3Al synthesis. At a fixed value of imposed field, the degree of reaction completion and the conversion to the desired phase increased as the relative density decreased. These observatio ns are discussed in light of the role of the electric field in activating t he self-propagating combustion synthesis reactions and the effect of relati ve density on this activation. The results show that the synthesis by self- propagating high-temperature synthesis (SHS) can be optimized by the combin ation of field strength and relative density.