Flax fiber‐reinforced polylactide stereocomplex composites with enhanced heat resistance and mechanical properties

Polylactide stereocomplex (sc‐PLA) prepared by blending equivalent proportion of poly( l ‐lactic acid)/poly( d ‐lactic acid) (PLLA/PDLA) and its composites reinforced with 10, 20, and 30% flax fibers were fabricated by melt compounding and followed by injection molding. The mechanical properties, crystallinity, cross‐section morphology, and heat resistance of sc‐PLA and flax/sc‐PLA composites were compared. The results showed that homocrystallites (hc) and stereocomplex crystallites (sc) were formed simultaneously in sc‐PLA and its composites, with a melting temperature at ∼170 and ∼210°C, respectively. The crystallinity and sc content of composite increased with the increasing content of the flax fibers. The sc content of 30% flax/sc‐PLA composite could reach 98.4%, 32% higher than that of sc‐PLA (66.4%). When compared with nonblended PLLA, heat resistance of sc‐PLA increased slightly, but at the expense of mechanical properties. By the addition of flax fibers, the mechanical properties of flax/sc‐PLA composite improved significantly. The highest tensile strength, Young's modulus, and notched Izod impact strength of flax/sc‐PLA composite were 52.90 MPa, 6.42 GPa, and 5.27 kJ/m 2 , respectively, improved by 54, 132, and 343% when compared with sc‐PLA. Moreover, the heat resistance of composite was also improved greatly by reinforcing with flax fibers. The Vicat softening temperature of 30% flax/sc‐PLA composite could achieve 162.5°C, nearly 100°C higher than that of PLLA. POLYM. COMPOS., 38:472–478, 2017. © 2015 Society of Plastics Engineers