Preparation of biodegradable poly(lactic acid)/poly[(butylene diglycolate)‐<scp><i>co</i></scp>‐furandicarboxylate] blends with excellent toughness and gas barrier performance

Yang, Yong; Shen, Jing; Hu, Erxun; Fang, Yajin; Xu, Zhibo; Li, Juan

doi:10.1002/pi.6692

Polymer International

2024

DOI: 10.1002/pi.6692

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Preparation of biodegradable poly(lactic acid)/poly[(butylene diglycolate)‐co‐furandicarboxylate] blends with excellent toughness and gas barrier performance

Yong Yang,

Jing Shen,

Erxun Hu

et al.

Abstract: Poly(lactic acid) (PLA) is known as one of the most promising biodegradable polyesters, while inherent brittleness and insufficient gas barrier performance limit its potential application as a film material. Herein, poly[(butylene diglycolate)‐co‐furandicarboxylate] (PBDF) with excellent flexibility and good gas barrier properties was synthesized and then melt‐blended with PLA. Compared with neat PLA, the elongation at break of the PLA/PBDF20 blend increased more than 40 times and reached over 176.7%. In addit… Show more

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Enhancement of toughness and gas barrier properties of PLA‐based films through bio‐based isosorbide dioctate: Synthesis, characterization, and application

Zhang,

Wang,

Wang

et al. 2024

Polymer Engineering & Sci

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Polylactic acid (PLA), as a bio‐based biodegradable material, has high tensile strength and modulus, but its low flexibility and poor barrier properties limit its application in packaging. In this study, Pullulan polysaccharide (Pullulan) and chain extenders (ADR4468) were selected to improve the properties of PLA‐based films. The ratio of PLA/Pullulan/ADR4468 was optimized by studying the mechanical and barrier properties of films. Then isosorbide dioctate (SDO), a kind of bio‐based plasticizer, was synthesized and added into PLA/Pullulan (4 wt%)/ADR4468 (0.8 wt%) system to study the effect of SDO content on the properties of films. A film with 15 wt% SDO showed elongation at a break of 79.7% while retaining a tensile strength of 30.6 MPa. With 20 wt% SDO, water vapor permeability and oxygen permeability of PLA/Pullulan/ADR/SDO film were reduced by 12.7% (2.95 × 10−14 kg m/(m2 s Pa)) and by 20.6% (1.95 × 10−3 cm3 m/ (m2 d Pa)), respectively, compared with that of PLA/Pullulan/ADR films. This study fills the research gap between PLA and Pullulan blends, broadens the application scenarios of new bio‐based plasticizers, and provides a method for improving the toughness and barrier properties of PLA. The films prepared in this study have potential applications in the green‐packaging field.Highlights The synthesis and characterization of isosorbide dioctate. The modified compatibility of PLA and Pullulan by ADR 4468. The optimization of the content of PLA/Pullulan/ADR 4468 film. The improvement of toughness and barrier properties of film by SDO.

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Enhancement of toughness and gas barrier properties of PLA‐based films through bio‐based isosorbide dioctate: Synthesis, characterization, and application

Zhang,

Wang,

Wang

et al. 2024

Polymer Engineering & Sci

View full text Add to dashboard Cite

show abstract

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Preparation of biodegradable poly(lactic acid)/poly[(butylene diglycolate)‐co‐furandicarboxylate] blends with excellent toughness and gas barrier performance

Cited by 1 publication

References 38 publications

Enhancement of toughness and gas barrier properties of PLA‐based films through bio‐based isosorbide dioctate: Synthesis, characterization, and application

Enhancement of toughness and gas barrier properties of PLA‐based films through bio‐based isosorbide dioctate: Synthesis, characterization, and application

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