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Blending PLA with Polyesters Based on 2,5-Furan Dicarboxylic Acid: Evaluation of Physicochemical and Nanomechanical Properties

Zoi Terzopoulou, Alexandra Zamboulis, Lazaros Papadopoulos, Maria‐Eirini Grigora, Konstantinos Tsongas, Dimitrios Tzetzis, Dimitrios Ν. Bikiaris, George Z. Papageorgiou

2022Polymers12 citationsDOIOpen Access PDF

Abstract

Poly(lactic acid) (PLA) is a readily available, compostable biobased polyester with high strength and toughness, and it is excellent for 3D printing applications. Polymer blending is an economic and easy way to improve its properties, such as its slow degradation and crystallization rates and its small elongation, and thus, make it more versatile. In this work, the effects of different 2,5-furan dicarboxylic acid (FDCA)-based polyesters on the physicochemical and mechanical properties of PLA were studied. Poly(butylene furan 2,5-dicarboxylate) (PBF) and its copolymers with poly(butylene adipate) (PBAd) were synthesized in various comonomer ratios and were blended with 70 wt% PLA using melt compounding. The thermal, morphological and mechanical properties of the blends are investigated. All blends were immiscible, and the presence of the dispersed phases improved the crystallization ability of PLA. Mechanical testing revealed the plasticization of PLA after blending, and a small but measurable mass loss after burying in soil for 7 months. Reactive blending was evaluated as a compatibilizer-free method to improve miscibility, and it was found that when the thermal stability of the blend components allowed it, some transesterification reactions occurred between the PLA matrix and the FDCA-based dispersed phase after 20 min at 250 °C.

Topics & Concepts

Materials sciencePolyesterMiscibilityAdipateTransesterificationPolylactic acidThermal stabilityComonomerPlasticizerCrystallizationChemical engineeringCopolymerIzod impact strength testCompoundingBiodegradationPolymer chemistryPolymerComposite materialOrganic chemistryUltimate tensile strengthChemistryCatalysisEngineeringbiodegradable polymer synthesis and propertiesCarbon dioxide utilization in catalysisCatalysis for Biomass Conversion
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