Preparation, characterization and properties of shear thickening fluid impregnated fabric composites

Abstract

Shear thickening is a non-Newtonian flow behavior characterized by the increase of viscosity with the increase in applied shear rate. Due to this remarkable property of shear thickening fluid (STF), it has received extensively attention in armor protection fields. Through a process of impregnation, the STF in body armor has allowed further enhancement without hindering the flexibility of fabrics, which has led to the development of the concept of liquid body armor. In this paper, the STFs were prepared by mechanical stirring of silica nanoparticles dispersed in liquid polyethylene glycol. The rheological properties of as-prepared STFs were tested. Aramid and ultra-high molecular weight polyethylene fabrics were soaked in STF/ethanol solution to make STF/fabric composites. Knife quasi-static penetration tests were performed on the neat fabrics and STF/fabric composite targets for engineered knife on areal density basis. The results showed that compared with the neat fabrics, the STF impregnated fabrics exhibited better penetration resistance without affecting the fabric flexibility.