Grafting of wheat straw fibers with poly (ε-caprolactone) via ring-opening polymerization for poly(lactic acid) reinforcement

The use of natural materials has grown in the last years in the plastics industry. Natural lignocellulose fibers derived from agricultural waste present potential to be used as a replacement for glass fibers for polymer reinforcement, leading to lower CO₂ footprint products. This work focuses on the modification of the cellulose fibers in order to improve the compatibility with poly(lactic acid) (PLA). The scoured wheat straw fibers were grafted with polycaprolactone (PCL) through ring opening polymerization. Thermal stability of the wheat straw fibers improved after chemical modifications enabling higher processing temperatures. Flexural and tensile moduli were improved by 23% and 15%, respectively, compared with neat PLA, using 20 wt% modified fibers. An improvement of 20% in the impact strength was obtained using PCL grafted fibers because of entanglements and molecular interactions between PCL grafted on the wheat straw fibers and PLA molecules.