Issue 9, 2018

Branching and molar mass analysis of low density polyethylene using the multiple preparative fractionation concept

Abstract

Despite being a homopolymer, low density polyethylene (LDPE) exhibits a complex molecular structure that is determined by multiple molar mass and branching distributions. For a comprehensive microstructural analysis, preparative fractionation methods are combined with multiple advanced analysis techniques. Preparative temperature rising elution fractionation (pTREF) and preparative molar mass fractionation (pMMF) are used to fractionate three LDPE resins with different melt flow indexes into fractions with narrower branching and molar mass distributions, respectively. The chain structures of the bulk resins and their corresponding pTREF and pMMF fractions are further analyzed using size exclusion chromatography, crystallization analysis fractionation, differential scanning calorimetry, high-temperature solvent gradient interactive chromatography and SEC coupled to molar mass sensitive detectors to provide detailed information particularly on long chain branching and its correlation to molar mass. It is shown that the multiple fractionation concept is a powerful approach to generate LDPE sample libraries that may constitute fractions (samples) of comparable molar masses and different branching structures or alternatively have comparable branching but different molar masses. Cross-fractionation of these library samples with advanced analytical techniques provides in-depth information on the molecular heterogeneity of these samples as compared to bulk sample analysis.

Graphical abstract: Branching and molar mass analysis of low density polyethylene using the multiple preparative fractionation concept

Article information

Article type
Paper
Submitted
14 Dec 2017
Accepted
07 Feb 2018
First published
08 Feb 2018

Polym. Chem., 2018,9, 1116-1131

Branching and molar mass analysis of low density polyethylene using the multiple preparative fractionation concept

P. S. Eselem Bungu and H. Pasch, Polym. Chem., 2018, 9, 1116 DOI: 10.1039/C7PY02076G

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