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Scission of flexible polymers in contraction flow: predicting the effects of multiple passages

When injected through a contraction, high molecular weight polymer solutions exhibit a sharp increase of apparent viscosity which originates from stretching polymer chains above a critical extension rate. This chain stretching can also induce polymer scission, which then decreases the extensional viscosity. In practice, the two phenomena are difficult to separate. Moreover, these phenomena are often observed in situation where flow instabilities appear. In order to disentangle the two effects we have measured the pressure-flux relation for polymer solutions passing through a hyperbolic contraction. The ratio of the pressure drop to that of the (Newtonian) solvent has a maximum due to the competition between polymer extension and scission. We find a geometry-dependent relation between the flow rates at which the maximum occurs for successive passages in a given contraction, which appears to be independent of molecular weight, concentration, solvent quality and viscosity, and can be used to predict the scission under successive passes.

preprint2019arXivOpen access
Sandeep GarrepallyStephane JouennePeter D. OlmstedFrancois Lequeux
physics.app-phphysics.flu-dyn
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Sandeep GarrepallyStephane JouennePeter D. OlmstedFrancois Lequeux

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