Search results for "VISCOSITY"

showing 10 items of 542 documents

Magnetic microrods as a tool for microrheology

2015

International audience; Dynamics of superparamagnetic rods in crossed constant and alternating magnetic fields as a function of field frequency are studied and it is shown that above the critical value of the amplitude of the alternating field the rod oscillates around the direction of the alternating field. The fit of the experimentally measured time dependence of the mean orientation angle of the rod allows one to determine the ratio of magnetic and viscous torques which act on the rod. The protocol of microrheological measurements consists of recording the dynamics of the orientation of the rod when the magnetic field is applied at an angle to the rod and observing its relaxation due to …

MicrorheologyMaterials scienceField (physics)genetic structures02 engineering and technology01 natural sciencesRod010305 fluids & plasmasOpticsElectricity0103 physical sciencesCondensed matter physicsbusiness.industryViscosityRelaxation (NMR)Elastic energyGeneral ChemistryModels Theoretical021001 nanoscience & nanotechnologyCondensed Matter PhysicsCritical valueequipment and suppliesElasticityMagnetic fieldCondensed Matter::Soft Condensed MatterAmplitudeMagnetsMicrotechnologysense organs0210 nano-technologybusinessRheology[PHYS.COND.CM-SCM]Physics [physics]/Condensed Matter [cond-mat]/Soft Condensed Matter [cond-mat.soft]
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Discontinuous thinning in active microrheology of soft complex matter

2016

Employing theory and numerical simulations, we demonstrate discontinuous force thinning due to the driven motion of an external probe in a host medium. We consider two cases: an ideal structureless medium (modeling ultrasoft materials such as polymer melts) and a dilute bath of interacting repulsive particles. When the driving of the probe exceeds a critical force, the microviscosity of the medium drops abruptly by about an order of magnitude. This phenomenon occurs for strong attractive interactions between a large probe and a sufficiently dense host medium.

Microrheologychemistry.chemical_classificationPhysicsThinningFOS: Physical sciences02 engineering and technologyPolymerMechanicsCondensed Matter - Soft Condensed Matter021001 nanoscience & nanotechnology01 natural sciencesCondensed Matter::Soft Condensed MatterMicroviscositychemistryChemical physics0103 physical sciencesSoft Condensed Matter (cond-mat.soft)010306 general physics0210 nano-technologyOrder of magnitudePhysical Review E
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Red cell phospholipids and membrane microviscosity in diabetics

2016

MicroviscosityMembraneRed CellPhysiologyChemistryPhysiology (medical)BiophysicsHematologyCardiology and Cardiovascular MedicineClinical Hemorheology and Microcirculation
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Fluorescence Probes Exhibit Photoinduced Structural Planarization: Sensing <i>in vitro</i> and <i>in vivo</i> Microscopic Dyn…

2019

We demonstrate the construction of wavelength λ-ratiometric images that allow visualizing the distribution of microscopic dynamics within living cells and tissues by using the newly developed principle of fluorescence response. The bent-to-planar motion in the excited state of incorporated fluorescence probes leads to elongation of the π-delocalization, resulting in microviscosity-dependent but polarity-insensitive interplay between well-separated blue and red bands in emission spectra. This allows constructing the exceptionally contrasted images of cellular dynamics. Moreover, the application of probes with increased affinity towards biological membranes allowed detecting the differences i…

MicroviscosityWavelengthMembraneMaterials scienceExcited stateDynamics (mechanics)BiophysicsBiological membraneEmission spectrumFluorescenceSSRN Electronic Journal
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Dense Solid-Liquid Off-Bottom Suspension Dynamics: Simulation and Experiment

2009

Dense solid-liquid off-bottom suspension inside a baffled mechanically agitated stirred tank equipped with a standard Rushton turbine is investigated. Dynamic evolution of the suspension from start up to steady state conditions has been inspected by both visual experiments and computational fluid dynamics. A classical Eulerian-Eulerian Multi Fluid Model along with the “homogeneous” k-epsilon turbulence model is adopted to simulate suspension dynamics. In these systems the drag inter-phase force affects both solids suspension and distribution. Therefore, different computational approaches are tested in order to compute this term. Simulation results are compared with images acquired on the re…

Mixing; Suspension; Startup; Drag; Solid Phase Viscosity; Solid-Liquid.Solid Phase ViscosityStartupMixingSuspensionSolid-Liquid.Drag
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Inverse Spin Fractionation:  a Tool to Fractionate Sodium Hyaluronate

2006

Models MolecularChromatographyPolymers and PlasticsMolecular massViscosityChemistrySodium hyaluronateInverseBioengineeringFractionationPolyelectrolyteMolecular WeightBiomaterialschemistry.chemical_compoundPhysical separationChromatography GelMaterials ChemistryHyaluronic AcidSpin (physics)Biomacromolecules
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Kinetic interpretation of influence of sodium chloride concentration and temperature on xanthan gum dispersion flow model

2001

The present study derives a fixed-concentration (0.4%) xanthan gum dispersion flow model for different molar concentrations of sodium chloride (0–0.25M) and different temperatures (20–70°C). The Ostwald–de Waele model is used in all cases. A temperature rise reduces the shear-thinning characteristics of the systems, although the power law index is much less sensitive to changes in temperature when NaCl is added, even in very small amounts. The lowest consistency values correspond to the dispersions formulated in the absence of salt, the highest values are observed for molar values of ≥0.15, and there are decreases in consistency upon raising the temperature in all cases. The viscous behavio…

Molar concentrationPolymers and PlasticsSodiumThermodynamicschemistry.chemical_elementConcentration effectGeneral ChemistrySurfaces Coatings and FilmsViscosityVolume (thermodynamics)chemistryMaterials ChemistrymedicineEyring equationDispersion (chemistry)Xanthan gummedicine.drugJournal of Applied Polymer Science
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Molecular characterization of α,β-poly[( N -hydroxyethyl)- dl –aspartamide] by light scattering and viscometry studies

2000

Abstract α,β-poly[(N-hydroxyethyl)- dl -aspartamide] (PHEA) is a new synthetic polymer which is of interest in biomedical applications. In this paper, the molecular characterization of PHEA by multi-angle laser light scattering and viscometry off-line and on-line to a size exclusion chromatography system is reported. These techniques furnish an exhaustive and consistent characterization of the PHEA polymer. The fractionation of the PHEA macromolecules was relatively simple. Using an aqueous mobile phase of medium ionic strength, the elution was substantially regular and the macromolecules were not aggregate. The molar mass M of four PHEA samples approximately ranges from 46 to 53 K g/mol, t…

Molar massAqueous solutionPolymers and PlasticsChemistryIntrinsic viscosityOrganic ChemistrySize-exclusion chromatographyGel permeation chromatographyVirial coefficientIonic strengthPolymer chemistryMaterials ChemistryRadius of gyrationPhysical chemistryPolymer
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Intrinsic Viscosity of Aqueous Solutions of Carboxymethyl Guar in the Presence and in the Absence of Salt

2008

Intrinsic viscosities were determined for solutions of CMG in pure water and 0.9 wt.-% aqueous NaCl. To avoid the 0/0-type extrapolation typical for Huggins plots, a new procedure was used. For CMG and pure water, this requires only two adjustable parameters: the specific hydrodynamic volume of the polymer in the limit of infinite dilution and a hydrodynamic interaction parameter. The intrinsic viscosity of CMG (no salt) at room temperature is 6 050 mL · g -1 ; approximately half as large as that of Na-PSS of comparable molar mass. The ratio of the intrinsic viscosities with and without salt is ≈7 for CMG, as compared to >100 for Na-PSS. The reasons for the different behaviors of the two ty…

Molar massGuar gumAqueous solutionPolymers and PlasticsChemistryIntrinsic viscosityOrganic ChemistryConcentration effectFlory–Huggins solution theoryCondensed Matter PhysicsPolyelectrolyteDilutionPolymer chemistryMaterials ChemistryPhysical and Theoretical ChemistryMacromolecular Chemistry and Physics
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Hyperbranched Poly(ethylene glycol) Copolymers: Absolute Values of the Molar Mass, Properties in Dilute Solution, and Hydrodynamic Homology

2015

Hyperbranched poly(ethylene glycol) copolymers were synthesized by random anionic ring-opening multibranching copolymerization of ethylene oxide with glycidol as a branching agent, leading to poly(ethylene glycol) structure with glycerol branching points. Extending the available range of molar masses by novel synthesis strategies, a limited extent of control over the degree of polymerization was achieved by variation of the solvent in this copolymerization. Generally, absolute molar mass characterization of hyperbranched polymers still represents an unresolved challenge. A series of the hyperbranched poly(ethylene glycol)-co-(glycerol) copolymers (hbPEGs) of a wide range of molar masses (14…

Molar massPolymers and PlasticsEthylene oxideIntrinsic viscosityOrganic ChemistryDispersityDegree of polymerizationBranching (polymer chemistry)Inorganic ChemistryAbsolute molar masschemistry.chemical_compoundchemistryPolymer chemistryMaterials ChemistryEthylene glycolMacromolecules
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