Litcius/Paper detail

Strategies for improving the strength, toughness, and winding properties of sisal fiber/polyethylene pre-preg tape

Mengyuan Dun, Weihong Wang, Haitao Fu, Jianxiu Hao

2025Journal of Materials Research and Technology6 citationsDOIOpen Access PDF

Abstract

Natural fibers are renewable and environmentally friendly materials that deliver impressive performance, and can be used to reinforce pre-preg tapes for filament winding. In this study, we design a matrix structure (the LLDPE with a low melting point was arranged in the shell, while the matrix of the core layer was a mixture of the LLDPE and HDPE) to prepare a continuous sisal fiber/polyethylene pre-preg tape by considering its toughness and winding properties. We significantly improved the strength and fracture toughness of the pre-preg by “customizing” the flexible interface between the sisal fiber and the polyethylene matrix. The results of experiments showed that under the optimal dosage of 50 wt% sisal fiber, the capability of the pre-preg tape to withstand the winding-induced tension when the ratio of the LLDPE/HDPE matrix was 1:4 (50SF/40HDPE/10LLDPE) increased by 126.05 % compared with that of the 50SF/50HDPE pre-preg, due to the difference in the melting temperature between the shell and the core matrix. The elongation at break and impact strength of the pre-preg tape increased by 88.90 % and 31.72 %, respectively. The tensile strength and fracture toughness of the FMm-50SF/40HDPE/10LLDPE pre-preg tape increased by 79.40 % and 284.85 %, respectively, due to the presence of the phase with a flexible interface, and it exhibited satisfactory interlayer fusion. Its average annular tensile strength, short-term hydrostatic strength and ring stiffness were 101.52 MPa, 11.88 MPa, and 34.96 kN/m 2 , respectively. The work here widens the scope of application of sisal fiber/polyethylene pre-preg tapes in filament winding.

Topics & Concepts

Materials scienceComposite materialToughnessFiberSISALPolyethyleneNatural Fiber Reinforced CompositesTextile materials and evaluationsMechanical Engineering and Vibrations Research