Medium amplitude parallel superposition (MAPS) rheology of a wormlike micellar solution
Author(s)
Lennon, Kyle R.; McKinley, Gareth H.; Swan, James W.
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Abstract
The weakly nonlinear rheology of a surfactant solution of wormlike micelles is investigated from both a modeling and experimental perspective using the framework of medium amplitude parallel superposition (MAPS) rheology. MAPS rheology defines material functions, such as the third-order complex compliance, which span the entire weakly nonlinear response space of viscoelastic materials to simple shear deformations. Three-tone oscillatory shear deformations are applied to obtain feature-rich data characterizing the third-order complex compliance with high data throughput. Here, data for a CPyCl solution are compared to the analytical solution for the MAPS response of a reptation-reaction constitutive model, which treats micelles as linear polymers that can break apart and recombine in solution. Regression of the data to the model predictions provides new insight into how these breakage and recombination processes are affected by shear, and demonstrates the importance of using information-rich data to infer precise estimates of model parameters.
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Date issued
2021-09Department
Massachusetts Institute of Technology. Department of Chemical Engineering; Massachusetts Institute of Technology. Department of Mechanical Engineering; Hatsopoulos Microfluids Laboratory (Massachusetts Institute of Technology)Journal
Rheologica Acta
Publisher
Springer Berlin Heidelberg
Citation
Lennon, Kyle R., McKinley, Gareth H. and Swan, James W. 2021. "Medium amplitude parallel superposition (MAPS) rheology of a wormlike micellar solution."
Version: Author's final manuscript
ISSN
1435-1528
0035-4511