We have examined the structural and mechanical properties of Fe-Al
alloys at various Al concentrations with or without a small amount of
Mn. For each disordered Fe-Al alloy, we considered sundry disordered
configurations to determine the equilibrium structure. It was found
that the disordered Fe-Al alloy with high Al content (~25 at%) becomes
less stable and more brittle than its ordered counterpart
DO3 second phase. To predict the ductility of Fe-Al alloys,
we estimated Pugh's constant defined by the ratio between bulk and
shear moduli and apply the Pugh's criterion. We found that an addition
of a small amount of Mn may stabilize disordered solid solutions over
the DO3 second phase. Moreover, the Mn addition also
improves its mechanical properties making the disordered Fe-Al alloy
more ductile than DO3.