The mechanical alloying (MA) effect in $sigma$-VFe intermetallic compound was studied by neutron and X-ray diffraction. The structure of MA $sigma$-VFe powders were characterized by the X- ray diffraction with Cu- $Kalpha$ radiation and neutron diffraction with monochromatic neutrons of $1.835AA$ using a high resolution powder diffractometer (HRPD). Mechanical alloying of $sigma$-VFe compound gives rise to a dramatic structural change. After 60 hours of MA, the Fe-Fe distribution of the $sigma$- phase VFe tetragonal structure with 30 atoms in a unit cell is found to change into that of the $sigma$-(V,Fe) solid solution with bcc structure, which is a stable phase at elevated temperature above $1200^{circ}C$. A comparison of X-ray diffraction data for the $alpha$-phase has been also made with the corresponding neutron diffraction data. The (101) and (111) diffraction peaks of the $sigma$-phase was clearly observed only in neutron diffraction pattern, which is believed to be a characteristic feature due to the chemical atomic ordering of $sigma$- VFe phase.