Biodegradable PHB-Rubber Copolymer Toughened PLA Green Composites with Ultrahigh Extensibility

The sustainable biopolymer, poly(lactide) (PLA), has been intensely researched over the past decades because of its excellent biodegradability, renewability, and sustainability. The boundless potential of this sustainable biopolymer could resolve the adverse negative impact caused by the petroleum-based polymers. However, the inherent drawback of PLA such as brittleness, low heat distortion temperature, and slow recrystallization rate narrowed the broad applications in biomedical, automotive, and structural fields. In this study, we successfully synthesized a PHB-based filler (PHB-di-rub) displaying synergetic functions of (1) effective nucleation and (2) extreme toughening of the PLA matrix at only 5% (1.5 wt % PHB content). Remarkably, the storage modulus improves by 15%; tensile elongation extends by 57-fold (300% strain) and toughness by 38-fold while maintaining its original strength and stiffness. Likewise, 10% of PHB-di-rub (3 wt % PHB content) has an even higher improvement with a storage modulus ...