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Your search keyword '"Breedveld, Victor"' showing total 8 results
Start Over Author "Breedveld, Victor" Topic viscosity
8 results on '"Breedveld, Victor"'

1. Humidity-tolerant rate-dependent capillary viscous adhesion of bee-collected pollen fluids.

Author

Shin D, Choi WT, Lin H, Qu Z, Breedveld V, and Meredith JC

Subjects
Animals, Bees, Capillary Action, Plant Nectar, Pollen chemistry, Taraxacum, Humidity, Pollen physiology, Viscosity
Abstract

We report a two-phase adhesive fluid recovered from pollen, which displays remarkable rate tunability and humidity stabilization at microscopic and macroscopic scales. These natural materials provide a previously-unknown model for bioinspired humidity-stable and dynamically-tunable adhesive materials. In particular, two immiscible liquid phases are identified in bioadhesive fluid extracted from dandelion pollen taken from honey bees: a sugary adhesive aqueous phase similar to bee nectar and an oily phase consistent with plant pollenkitt. Here we show that the aqueous phase exhibits a rate-dependent capillary adhesion attributed to hydrodynamic forces above a critical separation rate. However, the performance of this adhesive phase alone is very sensitive to humidity due to water loss or uptake. Interestingly, the oily phase contributes scarcely to the wet adhesion. Rather, it spreads over the aqueous phase and functions as a barrier to water vapor that tempers the effects of humidity changes and stabilizes the capillary adhesion.

Published
2019
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5. Postprandial lymphatic pump function after a high-fat meal: a characterization of contractility, flow, and viscosity.

Author

Kassis, Timothy, Brandon Dixon, J., Yarlagadda, Sri Charan, Breedveld, Victor, Kohan, Alison B., and Tso, Patrick

Subjects
LIPIDS in the body, LYMPHATIC diseases, ORGAN blowers (Persons), CONTRACTILITY (Biology), BODY fluid flow, VISCOSITY
Abstract

Dietary lipids are transported from the intestine through contractile lymphatics. Chronic lipid loads can adversely affect lymphatic function. However, the acute lymphatic pump response in the mesentery to a postprandial lipid meal has gone unexplored. In this study, we used the rat mesenteric collecting vessel as an in vivo model to quantify the effect of lipoproteins on vessel function. Lipid load was continuously monitored by using the intensity of a fluorescent fatty-acid analog, which we infused along with a fat emulsion through a duodenal cannula. The vessel contractility was simultaneously quantified. We demonstrated for the first time that collecting lymphatic vessels respond to an acute lipid load by reducing pump function. High lipid levels decreased contraction frequency and amplitude. We also showed a strong tonic response through a reduction in the end-diastolic and systolic diameters. We further characterized the changes in flow rate and viscosity and showed that both increase postprandially. In addition, shear-mediated Ca2+ signaling in lymphatic endothelial cells differed when cultured with lipoproteins. Together these results show that the in vivo response could be both shear and lipid mediated and provide the first evidence that high postprandial lipid has an immediate negative effect on lymphatic function even in the acute setting. [ABSTRACT FROM AUTHOR]

Published
2016
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6. Shear Rheology of Suspensions of Porous Zeolite Particles in Concentrated Polymer Solutions.

Author

Olanrewaju, Kayode O. and Breedveld, Victor

Subjects
*RHEOLOGY, *POLYETHERS, *ZEOLITE absorption & adsorption, *VISCOSITY, *GAS separation membranes
Abstract

We present experimental data on the shear rheology of Ultem (polyetherimide)/NMP(l-methyl-2-pyrrolidinone) solutions with and without suspended surface-modified porous/nonporous zeolite (ZSM-5) particles. We found that the porous zeolite suspensions have relative viscosities that significantly exceed the Krieger-Dougherty predictions for hard sphere suspensions. The major origin of this discrepancy is the selective absorption of NMP solvent into the zeolite pores, which raises both the polymer concentration and the particle volume fraction, thus enhancing both the viscosity of the continuous phase Ultem/NMP polymer solution and the particle contribution to the suspension viscosity. Other factors, such as zeolite non-sphericity and specific interactions with Ultem polymer, contribute to the suspension viscosity to a lesser extent. We propose a predictive model for the viscosity of porous zeolite suspensions by incorporating an absorption parameter, α, into the Krieger-Dougherty model. We also propose independent approaches to determine α. The first one is indirect and based on zeolite density/porosity data, assuming that all pores will be filled with solvent. The other method is based on our experimental data, by comparing the viscosity data of porous versus non-porous zeolite suspensions. The different approaches are compared. [ABSTRACT FROM AUTHOR]

Published
2008
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7. Dynamics of unentangled cyclic and linear poly(oxyethylene) melts

Author

Nam, Sunghyun, Leisen, Johannes, Breedveld, Victor, and Beckham, Haskell W.

Subjects
*POLYETHYLENE glycol, *MOLECULAR weights, *DIFFUSION, *VISCOSITY, *NUCLEAR magnetic resonance, *HYDROGEN bonding
Abstract

Abstract: Monodisperse low-molecular-weight (400–1500g/mol) cyclic poly(oxyethylene)s (CPOE)s were synthesized from linear dihydroxy-terminated poly(oxyethylene)s (LPOE)s. The self-diffusion, NMR spin–spin relaxation, and zero-shear viscosity of CPOE and LPOE, as well as linear dimethoxy-terminated poly(oxyethylene) (LPOEDE), were measured in the melt state. The self-diffusion coefficients measured at 56°C were ordered in the following sequence: LPOEDE>CPOE>LPOE, which is in excellent agreement with NMR spin–spin relaxation and viscosity data. The slower motion of LPOE compared to LPOEDE was attributed to chain-end hydrogen bonding. Scaling relations with molecular weight and activation energies were reconciled with chain-end and topological effects. [Copyright &y& Elsevier]

Published
2008
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8. Underwater Oil Droplet Splitting on a Patterned Template.

Author

Xiaolong Yang, Xin Liu, Hess, Dennis W., and Breedveld, Victor

Subjects
*BIOCHEMICAL substrates, *DROPLETS, *LAPLACE distribution, *SURFACE tension, *VISCOSITY
Abstract

Underwater oil droplets stretched and pinned by dual-dot oleophilic patterns on a superoleophobic substrate have been split into two nearly equal-volume daughter droplets using an underwater superoleophobic blade at substantially lower cutting speeds than reported in previous studies. A "liquid exchange model" based on Laplace pressure-driven liquid transport has been proposed to explain the mechanism of the underwater droplet split process. The dependence of droplet geometrical shape (curvature) and liquid properties (surface tension, viscosity) on the critical cutting speed that allows equal-volume split was investigated. Results demonstrate that critical cutting speed increases with increased curvature and surface tension of the split droplet, and decreases with increased droplet viscosity, which agrees with the proposed model. The ability to reproducibly split a single bulk oil droplet into daughter droplets with nearly equal volume facilitates the development of new functions for underwater microreactors. [ABSTRACT FROM AUTHOR]

Published
2017
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