Workability and aging behavior of Mg-Li-Al alloys hate been investigated with variation of Li and Al contents. It was found that ${alpha}$(HCP) + ${eta}$(BCC) two phase structure reveals better workability than ${alpha}$(HCP) single phase structure. Increase of workability is attributed to the additional slip on pyramidal and prism planes besides the slip on basal plane of HCP Mg. Workability of ${alpha}$+${eta}$ two phase structure is improved with increased amount of Al. Among alloys studied in the present study, reduction limit up to 62 % was obtained for Mg-8.08Li-4.26Al. MgL$i_2$Al(${ heta}$) aging precipitation was observed in ${alpha}$+ ${eta}$ two phase structure, while it was not in a single phase structure. Result of microhardness reveals peak hardness for ${alpha}$ +${eta}$ two phase structure due to $ heta$ precipitate in ${ heta}$ phase. In ${alpha}$+${eta}$ two phase Mg-Li-Al alloys, hardness increased with increasing amount of Al. It is believed that addition of Al raised the amount Al partition in u phase and ${ heta}$ precipitation in ${eta}$ phase.