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Toughening of Biodegradable Poly(3-hydroxybutyrate-<i>co</i>-3-hydroxyvalerate)/Poly(ε-caprolactone) Blends by In Situ Reactive Compatibilization

Peter Zytner, Feng Wu, Manjusri Misra, Amar K. Mohanty

2020ACS Omega65 citationsDOIOpen Access PDF

Abstract

)-trione (TAIC) and peroxide. The compatibility between the two biodegradable polymers was significantly improved only when TAIC and peroxide work together, as evidenced by the decreased PCL particle size and blurred interfacial gap between the PHBV and PCL. The mechanical, thermal, morphological, and rheological properties of the compatibilized blends were studied and compared to the blends without TAIC and peroxide. At the optimal TAIC content (1 phr), the elongation at break of the compatibilized blends was 380% that of the PHBV/PCL blend without any additives and 700% that of neat PHBV. The improved interfacial compatibility, decreased PCL particle size, and uniform PHBV crystals are all factors that contribute to improving the toughness of the blend. Through Fourier transform infrared (FTIR) and rheological studies, the reaction mechanism is discussed. The study shows that PHBV and PCL are cross-linked by TAIC, resulting in the formation of a PHBV-PCL co-polymer, which improves the compatibility of the blend. The biodegradable polymer blends with high crystallinity and improved toughness prepared in this study are proposed to be used in sustainable packaging or other applications.

Topics & Concepts

CompatibilizationMaterials scienceReactive extrusionCrystallinityCaprolactoneToughnessFourier transform infrared spectroscopyPolymer blendPolymerCompatibility (geochemistry)Particle sizeComposite materialPolymer chemistryChemical engineeringPolymerizationCopolymerEngineeringbiodegradable polymer synthesis and propertiesMicroplastics and Plastic PollutionPolymer crystallization and properties
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