Fitness analysis of experimental results and finite element simulation results about bullet velocity based on ABAQUS simulation for impact of three dimensional woven reinforced composite

Abstract

Four layers of glass fiber filaments with the fineness of 2400 tex were used as warp yarns, five layers of glass filaments with the fineness of 600 tex were used as weft yarns 110 tex and aramid fibers were used as Z yarns to process a three-dimensional woven reinforcement. Then, 307-3 unsaturated polyester resin was used as the matrix, and the three-dimensional woven reinforced composite was prepared by the VARTM method (resin transfer molding method). The bullet impact composite was modeled by ABAQUS (Finite element software). The starting conditions of the bullet incidence and the actual conditions were set consistently to analyze the change of the remaining velocity and acceleration of the bullet and the worth energy loss after the bullet impact. The results showed that the theoretical and experimental values of bullet incidence velocity and residual bullet velocity were linearly related. When the impact velocity of bullet incidence was higher, the slope of the straight line of the initial phase of bullet velocity decrease was larger, and the peak of the absolute value of acceleration after bullet impact was larger. The calculated value of energy loss after bullet impact simulation is basically consistent with the experimental value, This also fully proved that the bullet impact composite material model established was correct and effective.