Blended elemental powders with the nominal compositions (mole fraction, %) of Ti 54 Al 46 , Ti 52 Al 48 and Ti 50 Al 50 were mechanically alloyed in a planetary ball milling system for up to 100h.The structure evolution in these powders was characterized by scanning electron microscope, X ray diffraction and differential thermal analysis techniques. It was found that elemental powders were progressively transformed into nanocrystalline Ti(Al) supersaturated solid solution, then into amorphous phase. With increasing Al content, the formation of a fully Ti(Al) supersaturated solid solution and amorphous phase were accelerated, which are attributed to the fine grain size. And the grain size condition for formation of amorphous phase in this system is ≤16?nm. Blended elemental powders with the nominal compositions (mole fraction,%) of Ti 54 Al 46, Ti 52 Al 48 and Ti 50 Al 50 were mechanically alloyed in a planetary ball milling system for up to 100h. Structure evolution in these powders was characterized by scanning electron microscope, X-ray diffraction and differential thermal analysis techniques. It was found that elemental powders were progressively transformed into nanocrystalline Ti (Al) supersaturated solid solution, then into amorphous phase. With increasing Al content, the formation of a fully Ti Al) supersaturated solid solution and amorphous phase were accelerated, which are attributed to the fine grain size. And the grain size condition for formation of amorphous phase in this system is ≦ 16 nm.