Polymer rheology predictions from first principles using the slip-link model
Document Type
Article
Publication Date
9-1-2020
Abstract
The discrete slip-link theory is a hierarchy of strongly connected models that have great success predicting the linear and nonlinear rheology of high-molecular-weight polymers. Three of the four parameters of the most-detailed model, which can be extracted from primitive-path analysis, give quantitative agreement with experimental data for all examined chemistries (polystyrene, polyisoprene, polybutadiene, and polyethylene). Here, we attempt to extract the remaining friction parameter from atomistic simulations. In particular, an available quantum chemistry-based force field for polyethylene oxide (PEO) was used to perform molecular-dynamics simulations of a 12 kDa melt. The Kuhn friction is obtained from the mean-squared displacement of the center-of-mass of the chains (MSD of COM) in the melt. The result is also corroborated using the relaxation modulus calculated through the Green-Kubo formula. Once the four parameters are determined for any chemistry, all parameters for all members of the slip-link hierarchy are determined. Then, using a coarser member of the hierarchy, the dynamic modulus of a 256 kDa PEO melt was predicted. The predictions are compared to experimental measurements performed at the same temperature. Unfortunately, the extracted friction is about 30% larger than the one observed in the experiment. However, two fundamentally different methods, one utilizing the MSD of COM and the other the relaxation modulus, gave consistent results for the extracted Kuhn friction. Therefore, the discrepancy presumably arises from insufficient accuracy in the force field. Nonetheless, the work demonstrates that theory predictions without adjustable parameters should be possible.
Identifier
85088506583 (Scopus)
Publication Title
Journal of Rheology
External Full Text Location
https://doi.org/10.1122/8.0000040
e-ISSN
15208516
ISSN
01486055
First Page
1035
Last Page
1043
Issue
5
Volume
64
Grant
11170056
Fund Ref
Comisión Nacional de Investigación Científica y Tecnológica
Recommended Citation
Becerra, Diego; Córdoba, Andrés; Katzarova, Maria; Andreev, Marat; Venerus, David C.; and Schieber, Jay D., "Polymer rheology predictions from first principles using the slip-link model" (2020). Faculty Publications. 5061.
https://digitalcommons.njit.edu/fac_pubs/5061
