| We present detailed results on the effect of chain branching on the topological properties of entangled polymer melts via an advanced connectivity-altering Monte Carlo (MC) algorithm. Eleven representative model linear, short-chain branched (SCB), and long-chain branched (LCB) polyethylene (PE) melts were employed, based on the total chain length and/or the longest linear chain dimension. Directly analyzing the entanglement [or the primitive path (PP)] network of the system via the Z-code, we quantified several important topological measures: (a) the PP contour length Lpp, (b) the number of entanglements Zes per chain, (c) the end-to-end length of an entanglement strand des, (d) the number of carbon atoms per entanglement strand Nes, and (e) the probability distribution for each of these quantities. The results show that the SCB polymer melts have significantly more compact overall chain conformations compared to the linear polymers, exhibiting, relative to the corresponding linear analogues, (a) ∼20% smaller values of 〈Lpp〉 (the statistical average of Lpp), (b) ∼30% smaller values of 〈Zes〉, (c) ∼20% larger values of 〈des〉, and (d) ∼50% larger values of 〈Nes〉. In contrast, despite the intrinsically smaller overall chain dimensions than those of the linear analogues, the LCB (H-shaped and A3AA3 multiarm) PE melts exhibit relatively (a) 7–8% larger values of 〈Lpp〉, (b) 6–11% larger values of 〈Zes〉 for the H-shaped melt and ∼2% smaller values of 〈Zes〉 for the A3AA3 multiarm, (c) 2–5% smaller values of 〈des〉, and (d) 7–11% smaller values of 〈Nes〉. Several interesting features were also found in the results of the probability distribution functions P for each topological measure.
for LaTeX users @article{SHJeong2016-12,
author = {S. H. Jeong and J. M. Kim and J. Yoon and C. Tzoumanekas and M. Kr\"oger and C. Baig},
title = {Influence of molecular architecture on the entanglement network: topological analysis of entangled linear, long- and short-chain branched polyethylene melts via Monte Carlo simulation},
journal = {Soft Matter},
volume = {12},
pages = {3770-3786},
year = {2016}
}
\bibitem{SHJeong2016-12} S.H. Jeong, J.M. Kim, J. Yoon, C. Tzoumanekas, M. Kr\"oger, C. Baig,
Influence of molecular architecture on the entanglement network: topological analysis of entangled linear, long- and short-chain branched polyethylene melts via Monte Carlo simulation,
Soft Matter {\bf 12} (2016) 3770-3786.SHJeong2016-12
S.H. Jeong, J.M. Kim, J. Yoon, C. Tzoumanekas, M. Kr\"oger, C. Baig
Influence of molecular architecture on the entanglement network: topological analysis of entangled linear, long- and short-chain branched polyethylene melts via Monte Carlo simulation
Soft Matter,12,2016,3770-3786 |
mk@mat.ethz.ch
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