AI Article Synopsis
- The study investigates how the molecular properties of flexible, semiflexible, and rigid oligomers impact shear-thinning behavior in polymer melts through coarse-grained simulations.
- The researchers find that changes in chain stiffness and the resulting entanglements significantly affect viscosity at low shear rates, while high shear rates lead to chain alignment and disentanglement, promoting shear-thinning.
- Microscopic simulations and macroscopic channel flow models demonstrate that molecular structure details, like chain flexibility, greatly influence the flow characteristics of short polymers in non-Newtonian fluids.
Article Abstract
We investigate the molecular origin of shear-thinning in melts of flexible, semiflexible and rigid oligomers with coarse-grained simulations of a sheared melt. Entanglements, alignment, stretching and tumbling modes or suppression of the latter all contribute to understanding how macroscopic flow properties emerge from the molecular level. In particular, we identify the rise and decline of entanglements with increasing chain stiffness as the major cause for the non-monotonic behaviour of the viscosity in equilibrium and at low shear rates, even for rather small oligomeric systems. At higher shear rates, chains align and disentangle, contributing to shear-thinning. By performing simulations of single chains in shear flow, we identify which of these phenomena are of collective nature and arise through interchain interactions and which are already present in dilute systems. Building upon these microscopic simulations, we identify by means of the Irving-Kirkwood formula the corresponding macroscopic stress tensor for a non-Newtonian polymer fluid. Shear-thinning effects in oligomer melts are also demonstrated by macroscopic simulations of channel flows. The latter have been obtained by the discontinuous Galerkin method approximating macroscopic polymer flows. Our study confirms the influence of microscopic details in the molecular structure of short polymers such as chain flexibility on macroscopic polymer flows.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8399857 | PMC |
| http://dx.doi.org/10.3390/polym13162806 | DOI Listing |
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