Abstract: The ballistic impact experiments for composite armor system, which combined with aluminum ahead and FRP behind,were carried out by 7.62 mm caliber uniform firearms. Experimental results and ballistic-resistance mechanism of aluminum target and FRP laminates were analyzed, and the affection of penetration angle and the ballistic-resistance ability for different kinds of reinforced-fiber (including T750, T750/S2 and Spectra900) were discussed. The resistance of aluminum alloy structure with composite armor to small-bore weapon impact was evaluated. Results show that 1.7 T/(100m2) is needed for Dyneema900 FRP and 2.7 T/(100m2) for S/T hybrid FRP to defense 7.62 mm caliber uniform firearms attacking.