Home > Publications database > Effect of the salt-induced micellar microstructure on the nonlinear shear flow behavior of ionic cetylpyridinium chloride surfactant solutions > print

001     828071
005     20240619091641.0
024 7 _ |a 10.1103/PhysRevE.95.032603
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100 1 _ |a Gaudino, D.
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245 _ _ |a Effect of the salt-induced micellar microstructure on the nonlinear shear flow behavior of ionic cetylpyridinium chloride surfactant solutions
260 _ _ |a Woodbury, NY
|c 2017
|b Inst.
264 _ 1 |3 online
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|b American Physical Society (APS)
|c 2017-03-07
264 _ 1 |3 print
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|b American Physical Society (APS)
|c 2017-03-01
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520 _ _ |a The shear flow dynamics of linear and branched wormlike micellar systems based on cetylpyridinium chloride and sodium salicylate in brine solution is investigated through rheometric and scattering techniques. In particular, the flow and the structural flow response are explored via velocimetry measurements and rheological and rheometric small-angle neutron scattering (SANS) experiments, respectively. Although all micellar solutions display a similar shear thinning behavior in the nonlinear regime, the experimental results show that shear banding sets in only when the micelle contour length ¯¯¯L is sufficiently long, independent of the nature of the micellar connections (either linear or branched micelles). Using rheometric SANS, we observe that the shear banding systems both show very similar orientational ordering as a function of Weissenberg number, while the short branched micelles manifest an unexpected increase of ordering at very low Weissenberg numbers. This suggests the presence of an additional flow-induced relaxation process that is peculiar for branched systems.
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773 _ _ |a 10.1103/PhysRevE.95.032603
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