Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.12104/40895
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dc.contributor.authorEscalante, J.I.-
dc.contributor.authorEscobar, D.-
dc.contributor.authorMacias, E.R.-
dc.contributor.authorPerez-Lopez, J.H.-
dc.contributor.authorBautista, F.-
dc.contributor.authorMendizábal, E. M.-
dc.contributor.authorPuig, J.E.-
dc.contributor.authorManero, O.-
dc.date.accessioned2015-09-15T17:46:29Z-
dc.date.available2015-09-15T17:46:29Z-
dc.date.issued2007-
dc.identifier.urihttp://www.scopus.com/inward/record.url?eid=2-s2.0-34249034253&partnerID=40&md5=2319e35c7ea650b137f0f197c551cb3d-
dc.identifier.urihttp://hdl.handle.net/20.500.12104/40895-
dc.description.abstractLow-viscosity micellar aqueous solutions of cetyltrimethylammonium bromide (CTAB) undergo a major change in the presence of the hydrotrope, potassium 1-phenylmethylsulfate (KPhMS), producing a highly viscoelastic entanglement network of polymer-like micelles. The system studied here shows typical shear banding flow behavior, which tends to disappear with increasing the hydrotrope-to-surfactant concentration ratio (CH/CS). The linear rheological response was analyzed with the model of Granek-Cates, whereas the nonlinear behavior was reproduced with the Bautista-Manero-Puig (BMP) model. Both models introduce a kinetic equation to account for the breaking and reformation of the micelles, and they predict the linear and nonlinear rheological data very well. © Springer-Verlag 2007.-
dc.relation.isreferencedbyScopus-
dc.relation.isreferencedbyWOS-
dc.titleEffect of a hydrotrope on the viscoelastic properties of polymer-like micellar solutions-
dc.typeConference Paper-
dc.identifier.doi10.1007/s00397-006-0162-7-
dc.relation.ispartofjournalRheologica Acta-
dc.relation.ispartofvolume46-
dc.relation.ispartofissue5-
dc.relation.ispartofpage685-
dc.relation.ispartofpage691-
dc.subject.keywordComplex fluids; Cox-Merz rule; Hydrotrope; Shear-banding flow; Viscoelasticity-
dc.contributor.affiliationEscalante, J.I., Departamento de Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Escobar, D., Departamento de Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Macias, E.R., Departamento de Ingeniería Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Pérez-López, J.H., Departamento de Ingeniería Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Bautista, F., Departamento de Física, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Mendizábal, E., Departamento de Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Puig, J.E., Departamento de Ingeniería Química, Universidad de Guadalajara, Blvd. M. García-Barragan 1451, Guadalajara, Jalisco 44430, Mexico; Manero, O., Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México, A. P. 70-360, D. F. 04510 México, Mexico-
dc.contributor.affiliationMendizábal, E. M., Universidad de Guadalajara. Centro Universitario de Ciencias Exactas e Ingenierías-
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