Abstract

The shear thickening fluid (STF) impregnated Kevlar fabric coating glass fiber reinforced plastic (GFRP) composite structure has both wearing comfort and high protective ability, which will provide guidance for the development of new protective products. In this study, STF with SiO2 mass fraction of 34% was prepared, the quasi-static/dynamic mechanical behavior of STF, Kevlar and STF impregnated Kevlar fabric coating GFRP were carried out by the high-speed impact experiments, respectively. At the same time, the damage characteristics and energy absorption properties of the composite structure are analyzed by integrating experimental data with numerical simulation. The results showed that the composite structure makes the energy absorption capacity of GFRP improved. STF impregnated 4 layers of Kevlar fabric coating GFRP composite structure was impacted by the projectile at a speed of 244 m/s, and the composite structure consumes 1.54 times the energy of single GFRP laminates. The resistance of composite structures can be improved by placing more layers of Kevlar fabric behind GFRP laminates. The evaluation of the target’s bullet resistance cannot solely rely on the energy consumed by the projectile. A portion of the energy is transferred to the obstacle that impedes the target’s motion.

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