Studies on the influence of through-the-thickness reinforcement on low-velocity and high strain rate response of woven S2-glass/vinyl ester composites

Due to their inherent weakness in the thickness direction, laminated fiber reinforced composites are susceptible to undergo large delamination damage as well as splitting when subjected to transverse loading and microbuckling under in-plane compressive loading. In the current work, an effort is made to improve the transverse strength by providing discrete 3D reinforcement in the form of pins and stitching the laminate in the thickness direction. The effectiveness of the 3D reinforcement is compared with 2D plain laminates. The laminates were made of 15 layers of 2 x 2 twill weave S2-glass fabric and vinyl ester C-50 resin system. Specimens of size 75 x 100 mm were subjected to low-velocity impact loading at energy levels of 20, 30, and 40 joules. The effectiveness of 3D-reinforcement to in-plane dynamic loading was studied using a Compression Split Hopkinson's Pressure Bar at three different strain rates of 327/s, 436/s and 544/s using cubic samples of size 6.0 mm. The stitched samples were subjected to high strain rate loading in two configurations. The results of the study indicate that, reinforcement using stitching confines the delamination growth under low-velocity impact loading. (Author)