2014
DOI: 10.1122/1.4897965
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Elongational deformation of wormlike micellar solutions

Abstract: We have investigated the uniaxial elongation behavior of six different wormlike micelle systems covering a broad range of surfactant concentrations cs and salt/surfactant ratios R using the capillary breakup elongational rheometry (CaBER). In the fast-breaking limit (high cs and R), filament lifetime tfil is controlled by the equilibrium shear modulus G0 and the breakage time λbr obtained from small oscillatory shear according to tfil/G0∝λbr2/3 and relaxation time ratios λe/λs≈1 are found. When reptation domin… Show more

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Cited by 48 publications
(60 citation statements)
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“…Finally, elongational flow is found to induce structures at low surfactant concentrations whether the micelles are branched or linear. These studies demonstrate that extensional flow can discriminate between branched and linear, entangled micellar solutions, but not unambiguously due to the possibility of extensional-induced structures [52]. The nature of these extensionalinduced structures and their relationship to branching topology are at present, unresolved.…”
Section: Extensional Rheologymentioning
confidence: 86%
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“…Finally, elongational flow is found to induce structures at low surfactant concentrations whether the micelles are branched or linear. These studies demonstrate that extensional flow can discriminate between branched and linear, entangled micellar solutions, but not unambiguously due to the possibility of extensional-induced structures [52]. The nature of these extensionalinduced structures and their relationship to branching topology are at present, unresolved.…”
Section: Extensional Rheologymentioning
confidence: 86%
“…The mechanism for this reduction is proposed to be the same branch-sliding mechanism proposed for the reduction in the shear viscosity. Using similar methods, Sachsenheimer et al [52] also determined that extensive micellar branching greatly reduced the Trouton ratio to a value similar to that for Newtonian fluids. The authors highlight additional, significant differences between branched and unbranched, entangled WLM solutions in extensional flow.…”
Section: Extensional Rheologymentioning
confidence: 92%
“…Further, depending upon the surfactant and salt concentrations, which in turn determine the microstructure, we observe normal, subdiffusive and superdiffusive motion of surfactants. Specifically, superdiffusive behavior is associated with branch sliding, breakage and recombination of micelle fragments as well as constraint release in entangled systems.Over the past decades, the structure, dynamics and mechanical properties of self-assembled aggregates of cationic surfactants have been studied extensively [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. Self-assembly of cationic surfactant solutions can be controlled by manipulating the solvent-mediated electrostatic interactions among the surfactant molecules by altering the counter ion concentration.…”
mentioning
confidence: 99%
“…i. Mechanisms and energetics of branching: Branched structures are formed in a cationic surfactant solution as the salinity is increased [8][9][10][11]. However, the physical mechanisms underlying their formation are unclear.…”
mentioning
confidence: 99%
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