Abstract
In this paper, site preference, phase stability and elastic parameters of MoSi2 for Al and Nb addition are studied using first-principles calculation. The results show that alloying elements can cause MoSi2 to change from C11b to C40 phase and the phase transition is due to the activated 1/2[[Formula: see text]11](110) slip system for C11b. [Formula: see text] ratio reveals that the ductility is enhanced after phase transition. Ductile factor [Formula: see text] based on competitive processes between micro-crack opening and dislocations emission is defined to assess the ductility of MoSi2. Interestingly, the increased ductility is due to the activated dislocation emission but suppressed crack propagation. Finally, charge density and DOS indicate that the improved ductility is due to the weakened Mo-4d and Si-3p covalent interactions.
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