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Generalized Newtonian fluid constitutive equation for polymer liquids considering chain stretch and monomeric friction reduction for very fast flows modeling

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dc.title Generalized Newtonian fluid constitutive equation for polymer liquids considering chain stretch and monomeric friction reduction for very fast flows modeling en
dc.contributor.author Zatloukal, Martin
dc.contributor.author Drábek, Jiří
dc.relation.ispartof Physics of Fluids
dc.identifier.issn 1070-6631 Scopus Sources, Sherpa/RoMEO, JCR
dc.date.issued 2021
utb.relation.volume 33
utb.relation.issue 8
dc.type article
dc.language.iso en
dc.publisher American Institute of Physics Inc.
dc.identifier.doi 10.1063/5.0060120
dc.relation.uri https://aip.scitation.org/doi/10.1063/5.0060120
dc.description.abstract In this work, the recently proposed frame-invariant Generalized Newtonian Fluid (GNF) constitutive equation [M. Zatloukal, "Frame-invariant formulation of novel generalized Newtonian fluid constitutive equation for polymer melts," Phys. Fluids 32(9), 091705 (2020)] has been modified to provide uniaxial extensional viscosity at a high strain rate limit corresponding to molecular expression for a fully extended Fraenkel chain reported in Ianniruberto et al. ["Melts of linear polymers in fast flows," Macromolecules 53(13), 5023-5033 (2020)]. It uses basic rheological and molecular parameters together with the ratio of monomeric friction coefficients for equilibrium and fully aligned chains. The modified GNF model was successfully tested by using steady-state uniaxial extensional viscosity data for well-characterized entangled polymer melts and solutions [namely, linear isotactic polypropylenes, poly(n-butyl acrylate), polyisoprenes, and polystyrenes] covering a wide range of strain rates, including those, at which the chain stretch occurs. Only two fitting parameters were sufficient to describe all uniaxial extensional viscosity data, one related to the Rouse stretch time and the other controlling the extensional thinning and thickening behavior at medium and high strain rates. The model was compared to five different advanced viscoelastic constitutive equations, which are based on Doi-Edwards theory and include chain stretch along with a number of important additions. The ability of the proposed GNF model to represent steady uniaxial extensional viscosities under fast flow conditions for entangled polymer fluids has been shown to be superior to the predictions of selected advanced viscoelastic constitutive equations. It is believed that the modified GNF model can be used in the stable modeling of non-Newtonian polymer liquids, especially in very fast steady-state flows where chain stretch begins to occur. en
utb.faculty Faculty of Technology
dc.identifier.uri http://hdl.handle.net/10563/1010512
utb.identifier.obdid 43883052
utb.identifier.scopus 2-s2.0-85113152887
utb.identifier.wok 000683961100005
utb.source J-wok
dc.date.accessioned 2021-08-24T07:27:47Z
dc.date.available 2021-08-24T07:27:47Z
dc.description.sponsorship Grant Agency of the Czech RepublicGrant Agency of the Czech Republic [21-09174S]
dc.description.sponsorship Grantová Agentura České Republiky, GA ČR: 21–09174S
utb.ou Polymer Centre
utb.contributor.internalauthor Zatloukal, Martin
utb.contributor.internalauthor Drábek, Jiří
utb.fulltext.affiliation Martin Zatloukal a) and Jiri Drabek Polymer Centre, Faculty of Technology, Tomas Bata University in Zlín, Vavrečkova 275, 760 01 Zlın, Czech Republic
utb.fulltext.dates -
utb.fulltext.sponsorship The authors wish to acknowledge Grant Agency of the Czech Republic (Grant Registration No. 21-09174S) for the financial support.
utb.wos.affiliation [Zatloukal, Martin; Drabek, Jiri] Tomas Bata Univ Zlin, Fac Technol, Polymer Ctr, Vavreckova 275, Zlin 76001, Czech Republic
utb.scopus.affiliation Polymer Centre, Faculty of Technology, Tomas Bata University in Zlín, Vavrečkova 275, Zlín, 760 01, Czech Republic
utb.fulltext.projects 21-09174S
utb.fulltext.faculty Faculty of Technology
utb.fulltext.ou Polymer Centre
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