TY  - EJOU
AU  - Ghani, Muhd Azimin bin Ab 
AU  - Guan, Zhongwei 

TI  - Impact Response of Hybrid Laminates Made with GFRP, TPU and Rubber
T2  - The International Conference on Computational \& Experimental Engineering and Sciences

PY  - 2024
VL  - 31
IS  - 3
SN  - 1933-2815

AB  - Thermoplastic polyurethane (TPU) offers a superior impact and perforation resistance. This paper presents a study on manufacturing a range of hybrid laminated structures made of TPU, glass fibre reinforced plastic (GFRP), styrene-butadiene rubber (SBR) and metal mesh materials, and further on investigating the structural response of the TPU based composite sandwich laminated structures. These laminated structures were tested under quasi-static perforation and low velocity impact loading to determine their structural responses and energy absorption characteristics. It has been shown that three-layer and five-layer laminates with lay-ups of GFRP-TPU-GFRP or TPU-GFRP-TPU and GFRP-TPU-GFRP-TPU-GFRP or TPU-GFRP-TPU-GFRP-TPU subjected to quasi-static perforation indicate the increased peak load and stiffness with the core thickness from 1 mm to 4 mm. However, the TPU core laminates show a superior ductility in comparison to their GFRP core counterparts. The energy absorption values of the three-layer and five-layer TPU and GFRP based laminated structures under low velocity impact are higher than those under quasi-static loading due to strain-rate effect. However, the hybrid laminates with SBR and wire mesh as a core do not give much improvement on the impact resistance on the impact perforation resistance of the laminates with the different size of wire mesh, as metal mesh plays a less important role in the laminated structures. In overall, TPU-GFRP-TPU-GFRP-TPU structure with 4mm thick GFRP core produces the highest peak force, and the GFRP-TPU-GFRP-TPU-GFRP structure with 4mm thick TPU core provides the highest energy absorption.
KW  - Hybrid laminates; TPU; GFRP; styrene-butadiene rubber; impact

DO  - 10.32604/icces.2024.011074