A novel approach to PLA toughening is proposed in this study. Poly(lactic acid) (PLA) is toughened using poly(ethylene-n-butylene-acrylate-co-glycydyl methacrylate) (EBA-GMA) as a reactive compatibilizer with the aid of an epoxy-based chain extender. It is found that the toughening effect of EBA-GMA in the binary blend investigated is strongly influenced by blending temperature. Blending at high temperatures which are non-typical for PLA processing (over 250 degrees C) allows toughness to be increased by an order of magnitude when compared to the toughness of blends prepared at low temperatures (below 200 degrees C). This effect is attributed to a combination of factors, namely an increasing rate of reactive bonding between PLA and EBA-GMA at elevated temperatures and enhanced interfacial adhesion between PLA and EBA-GMA phases. DSC studies show that PLA/EBA-GMA bonding on the interface acts as an efficient nucleator for PLA. The nucleation ability of the PLA/EBA-GMA interface strongly depends on blend processing temperature and gradually increases with increasing blending temperature. The PLA/EBA-GMA interface shows its highest nucleation ability at 250 degrees C.

• 出版日期2016-12-8