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A Quantitative Study on Branching Density Dependent Behavior of Polylactide Melt Strength

Fengna Fang, Deyu Niu, Pengwu Xu, Tianxi Liu, Weijun Yang, Zhenyu Wang, Xiaona Li, Piming Ma

2023Macromolecular Rapid Communications17 citationsDOI

Abstract

Abstract Polymer melt strength (MS) is strongly correlated with its molecular structure, while their relationship is not very clear yet. In this work, designable long‐chain branched polylactide (LCB‐PLA) is prepared in situ by using a tailor‐made (methyl methacrylate)‐ co ‐(glycidyl methacrylate) copolymer (MG) with accurate number of reactive sites. A new concept of branching density ( φ ) in the LCB‐PLA system is defined to quantitively study their relationship. Importantly, a critical point of φ c = 5.5 mol/10 4 mol C is revealed for the first time, below which the zero‐shear viscosity ( η 0 ) corresponding to MS increases slowly with a slope of Δ η 0 /Δ φ = 1400, while it increases sharply above this critical point due to entanglement of neighboring LCB‐PLA chains. Consequently, the MS of PLA increased by >100 times by optimizing the LCB structures while maintaining processibility. Therefore, this work provides a deeper understanding and feasible route in quantitative design of polymers with high(er) melt strength for some specialty applications.

Topics & Concepts

Branching (polymer chemistry)CopolymerGlycidyl methacrylatePolymerMaterials scienceMethacrylatePolymer chemistryComposite materialChemical engineeringEngineeringbiodegradable polymer synthesis and propertiesPolymer Foaming and CompositesPolymer crystallization and properties
A Quantitative Study on Branching Density Dependent Behavior of Polylactide Melt Strength | Litcius