Stadler F, Kaschta J, Münstedt H, Becker F, Buback M (2009)
Publication Language: English
Publication Status: Published
Publication Type: Journal article, Review article
Publication year: 2009
Publisher: Springer Verlag (Germany)
Book Volume: 48
Pages Range: 479-490
Journal Issue: 5
DOI: 10.1007/s00397-008-0334-8
Low-density polyethylenes (LDPE) were synthesized in a laboratory-scale autoclave under high pressure. These samples were found to possess a high molar mass tail, resulting in a distinctly bimodal molar mass distribution and a lower concentration of long-chain branching than typical of commercial LDPEs. Rheological experiments in elongation showed that these samples exhibit a very pronounced strain hardening, which could be favorable for distinct processing operations. Although the samples have a rather high molar mass (M(w) = 2...4 x 10(6) g/mol), their zero shear-rate viscosities eta(0) and their shear thinning behavior are still in a range, where thermoplastic processing is possible. Aqualitative understanding of the experimental results is tried by the model of the Cayley tree.
APA:
Stadler, F., Kaschta, J., Münstedt, H., Becker, F., & Buback, M. (2009). Influence of molar mass distribution and long-chain branching on strain hardening of low density polyethylene. Rheologica Acta, 48(5), 479-490. https://doi.org/10.1007/s00397-008-0334-8
MLA:
Stadler, Florian, et al. "Influence of molar mass distribution and long-chain branching on strain hardening of low density polyethylene." Rheologica Acta 48.5 (2009): 479-490.
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