Bibliografías temáticas / Rheolog Ionic strength

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Literatura académica sobre el tema "Rheolog Ionic strength"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 1 de febrero de 2022

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Artículos de revistas sobre el tema "Rheolog Ionic strength"

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Kopplin, Georg, Anders Lervik, Kurt I. Draget, and Finn L. Aachmann. "Alginate gels crosslinked with chitosan oligomers – a systematic investigation into alginate block structure and chitosan oligomer interaction." RSC Advances 11, no. 23 (2021): 13780–98. http://dx.doi.org/10.1039/d1ra01003d.

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Three alginates with different block structures, poly-M, poly-G, and poly-MG, were investigated upon ionic crosslinking with chitosan oligomers, using circular dichroism, rheology, and simulations, revealing a unique high gel strength poly-MG chitosan gelling system.
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Tan, Beng H., Kam C. Tam, Yee C. Lam, and Chee B. Tan. "Microstructure and Rheology of Stimuli-Responsive Nanocolloidal SystemsEffect of Ionic Strength." Langmuir 20, no. 26 (2004): 11380–86. http://dx.doi.org/10.1021/la0481290.

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Lin, Yuan, Huaitao Qin, Jin Guo, and Jiawang Chen. "Rheology of bentonite dispersions: Role of ionic strength and solid content." Applied Clay Science 214 (November 2021): 106275. http://dx.doi.org/10.1016/j.clay.2021.106275.

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MOHAMMADI, ALIASGHAR, and REGHAN J. HILL. "Dynamics of uncharged colloidal inclusions in polyelectrolyte hydrogels." Journal of Fluid Mechanics 669 (January 14, 2011): 298–327. http://dx.doi.org/10.1017/s0022112010005045.

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We calculate the dynamics of an uncharged colloidal sphere embedded in a quenched polyelectrolyte hydrogel to (i) an oscillatory (optical and magnetic) force, as adopted in classical micro-rheology, and (ii) an oscillatory electric field, as adopted in electrical micro-rheology and electro-acoustics. The hydrogel is modelled as a linearly elastic porous medium with the charge fixed to the skeleton and saturated with a Newtonian electrolyte; and the colloidal inclusion is modelled as a rigid, impenetrable sphere. The dynamic micro-rheological susceptibility, defined as the ratio of the particle
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Weijers, M., L. M. C. Sagis, C. Veerman, B. Sperber, and E. van der Linden. "Rheology and structure of ovalbumin gels at low pH and low ionic strength." Food Hydrocolloids 16, no. 3 (2002): 269–76. http://dx.doi.org/10.1016/s0268-005x(01)00097-2.

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Choppe, Emilie, Fanny Puaud, Taco Nicolai, and Lazhar Benyahia. "Rheology of xanthan solutions as a function of temperature, concentration and ionic strength." Carbohydrate Polymers 82, no. 4 (2010): 1228–35. http://dx.doi.org/10.1016/j.carbpol.2010.06.056.

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Shafiei-Sabet, S., W. Y. Hamad, and S. G. Hatzikiriakos. "Ionic strength effects on the microstructure and shear rheology of cellulose nanocrystal suspensions." Cellulose 21, no. 5 (2014): 3347–59. http://dx.doi.org/10.1007/s10570-014-0407-z.

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Liu, Jun, Youn Young Shim, and Martin J. T. Reaney. "Ionic strength and hydrogen bonding effects on whey protein isolate–flaxseed gum coacervate rheology." Food Science & Nutrition 8, no. 4 (2020): 2102–11. http://dx.doi.org/10.1002/fsn3.1504.

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9

Bhosale, Prasad S., and John C. Berg. "Poly(acrylic acid) as a rheology modifier for dense alumina dispersions in high ionic strength environments." Colloids and Surfaces A: Physicochemical and Engineering Aspects 362, no. 1-3 (2010): 71–76. http://dx.doi.org/10.1016/j.colsurfa.2010.03.043.

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Sovilj, Verica, Petar Dokic, and Lidija Petrovic. "Rheologycal properties of sodium carboxymethylcellulose in the presence of electrolyte and mixed micelle of surfactants." Acta Periodica Technologica, no. 34 (2003): 71–82. http://dx.doi.org/10.2298/apt0334071s.

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One of the most significant aspects of polymer-surfactant interaction, from the practical point of view, is that of rheology control and viscosity enhancement. In the oppositely charged polyelectrolyte-surfactant system strong ionic interaction often leads to precipitation of the formed complex yielding serious problems. In this paper the interaction between anionic polyelectrolyte - sodium carboxymethylcellulose (NaCMC) and cationic surfactant - cethyltrimethylammonium bromide (CTMAB) has been investigated by rheological measurements. Addition of electrolyte NaBr and nonionic surfactant - Twe
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Tesis sobre el tema "Rheolog Ionic strength"

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Lima, Bruna Vital de. "Hidr?lise e caracteriza??o de poliacrilamida hidrofobicamente modificada: avalia??o da aplicabilidade na recupera??o de petr?leo." Universidade Federal do Rio Grande do Norte, 2010. http://repositorio.ufrn.br:8080/jspui/handle/123456789/17623.

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Made available in DSpace on 2014-12-17T15:41:48Z (GMT). No. of bitstreams: 1 Bruna Vital de Lima_DISSERT.pdf: 1526229 bytes, checksum: 072431027e1aefba9f0023f2f514ae5f (MD5) Previous issue date: 2010-02-02<br>Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior<br>The hydrolysis reaction in alkaline conditions of the commercial polymer poly(acrylamide-co-metacrylate of 3,5,5-trimethyl-hexane) called HAPAM, containing 0.75 % of hydrophobic groups, was carried out in 0.1 M NaCl and 0.25M NaOH solutions, varying the temperature and reaction time. The polymers were characterized by 1H and
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2

Lagarde, Lauriane. "Structure et stabilité des réseaux lamellaires gélifiés." Thesis, Strasbourg, 2012. http://www.theses.fr/2012STRAE031.

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Cette thèse apporte une nouvelle vision de la structure des réseaux lamellaires gélifiés. Les systèmes étudiés, choisis pour des applications cosmétiques, sont basés sur des mélanges d’alcools cétéaryliques, de tensioactifs esters de phosphate et d’eau. À l’aide de nombreuses méthodes analytiques, nous avons prouvé que la formation d’une structure lamellaire est possible à des forces ioniques allant jusqu’à 2.2 mol∙L-1. Pour la première fois, un comportement de percolation élastiqueest rapporté en fonction de la concentration en alcools gras et tensioactifs. Le seuil au-dessus duquel un réseau
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3

DURAND, PIANA GRAZIELLA. "Adsorption de polyelectrolytes cationiques a l'interface argile-eau : application a l'etude de la stabilite de suspensions diluees de montmorillonite sodique." Paris 6, 1987. http://www.theses.fr/1987PA066353.

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Des copolymeres d'acrylamide et de chlorure de n,n,n, trimethyl aminoethylacrylate de cationicite et de masse moleculaire variees ont ete synthetises par voie radicalaire et caracterises (viscosimetrie, gpc, rmn). Les principaux resultats relatifs a l'adsorption de ces copolymeres sur les particules de montmorillonite sodique en accord avec les previsions theoriques d'adsorption des polyelectrolytes d'hesselink et de van der schee. L'etude de destabilisation des suspensions aqueuses diluees de montmorillonite par adsorption de ces polymeres a pu mettre en evidence l'importance des deux mecanis
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Actas de conferencias sobre el tema "Rheolog Ionic strength"

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Gómez-Merino, A. I., F. J. Rubio-Hernández, J. F. Velázquez-Navarro, et al. "Rheological Properties of Binary Suspensions TiO[sub 2]∕Al[sub 2]O[sub 3]. Effect of Ionic Strength." In THE XV INTERNATIONAL CONGRESS ON RHEOLOGY: The Society of Rheology 80th Annual Meeting. AIP, 2008. http://dx.doi.org/10.1063/1.2964841.

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Curnutt, Austin, Kaylee Smith, Emily Darrow, Keisha B. Walters, Erick S. Vasquez, and Santanu Kundu. "Physicochemical Characterization of Mammalian Mucus and Mucin Solutions in Response to pH and [Ca2+]." In ASME-JSME-KSME 2019 8th Joint Fluids Engineering Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/ajkfluids2019-4944.

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Abstract Mucus is a complex fluid that maintains moisture and simultaneously acts as a barrier and facilitates transport of select materials between the body and adjacent fluids. While mucus is comprised primarily of water, it is highly heterogeneous containing the biopolymer mucin along with lipids, salts, DNA, proteins, and cells. Complex mechanisms control the reversible network formation observed in mucus and mucin solutions. Some isolated relationships between biopolymer network structure, pH and ionic strength, and rheology have been identified; however, a complete understanding of the i
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