Abstract
To overcome the inherent brittleness of polylactide (PLA), a dynamic vulcanization toughening method is adopted in this study. With the presence of hexamethylene diisocyanate (HDI) as a crosslink agent, crosslinked hydrogenated C36 dimer acid (HDA)-based polyamide (HPA) and the reactive compatibilization between PLA and HPA are established during the melt blending. The coalescence of HPA led to the formation of different phase morphologies of the PLA/HPA blends, including “island-sea”, “quasi-co-continuous” and “co-continuous” structures. With HAP content of more than 20 wt%, benefited from the genuine continuous HPA network-like morphology, meanwhile, the elongation-at-break exceeding 400% and an equilibrium Izod impact strength over 128 kJ/m2. Thus, this work provides a feasible strategy for preparing super-tough PLA-based blends, which can be potentially used in wide industrial applications.
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