Search results for "VISCOSITY"

showing 10 items of 542 documents

Viscometric study on the compatibility of polymer–polymer mixtures in solution

1999

Abstract The viscosity behaviour of mixtures formed by two uncharged polymers in dilute solution has been studied at 25°C. The ternary systems assayed, and denoted solvent (1)/ polymer (2)/ polymer (3), have in common the poly(ether sulphone) (PES) as polymer 2, and poly(vinylidene fluoride) (PVDF), poly(methyl methacrylate) (PMMA) or poly(styrene) (PS) as polymer 3. The intrinsic viscosity and the viscometric interaction parameters have been experimentally measured for the binary (solvent/polymer) as well as for the ternary systems, and also theoretically evaluated for the latter. The estimation of the compatibility degree of the above polymer pairs have been done by means of three criteri…

chemistry.chemical_classificationTernary numeral systemMaterials sciencePolymers and PlasticsIntrinsic viscosityOrganic ChemistryGeneral Physics and AstronomyPolymerFlory–Huggins solution theorySolventchemistry.chemical_compoundchemistryPolymer chemistryMaterials ChemistryDimethylformamidePhysical chemistryMethyl methacrylateTernary operationEuropean Polymer Journal
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Viscometric behaviour of polymer blends based on poly (vinylidene fluoride)

1994

The viscosity behaviour of dilute dimethylformamide solutions of poly(vinylidene fluoride)-poly (methyl methacrylate) and poly(vinylidene fluoride)-polystyrene has been studied at 25°C. The polymer concentration ranges are such that neither phase separation nor microgel formation occurs, although we are very close to theta conditions. The intrinsic viscosity and viscosity interaction parameter of the ternary mixtures have been calculated. The estimation of the compatibility of the above polymer pairs has been studied based on: a) specific viscosities; b) viscosity interaction parameters, according to Krigbaum and Wall formalism, and c) viscosity interaction parameters of a system formed by …

chemistry.chemical_classificationTernary numeral systemMaterials sciencePolymers and PlasticsIntrinsic viscosityRelative viscosityPolymerFlory–Huggins solution theoryPhysics::Fluid DynamicsCondensed Matter::Soft Condensed Matterchemistry.chemical_compoundColloid and Surface ChemistrychemistryChemical engineeringPolymer chemistryMaterials ChemistryPolymer blendPhysics::Chemical PhysicsPhysical and Theoretical ChemistryMethyl methacrylateFluorideColloid & Polymer Science
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Correlation between transport and equilibrium properties through the ternary interaction parameter for cosolvent and cononsolvent polymeric systems

1992

A study of the ternary polymer systems dimethyl formamide-ethyl acetate-polystyrene, chloroform-1,4 dioxane-polystyrene and tetrahydrofuran-chloroform-polystyrene was carried out by viscosity and light scattering at 298 K. A good correlation has been found between the excess intrinsic viscosity, unperturbed polymer dimensions, second virial coefficient and the excess Gibbs free energy by using a ternary interaction parameter, dependent on molecular weight. This modification enables the conversion between transport and equilibrium properties.

chemistry.chemical_classificationTernary numeral systemPolymers and PlasticsChemistryIntrinsic viscosityThermodynamicsPolymerFlory–Huggins solution theoryGibbs free energyViscositysymbols.namesakeColloid and Surface ChemistryVirial coefficientMaterials ChemistrysymbolsPhysical and Theoretical ChemistryTernary operationColloid & Polymer Science
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Nonisothermal elongational behavior of blends with liquid crystalline polymers

1994

Measurements of melt strength and breaking stretching ratio of several blends of thermoplastic polymers with liquid crystalline polymers are presented. The melt strength behavior depends not only on the viscosity of the blends but also on the temperature dependence of the viscosity. In particular, even if the viscosities of the blends are, at the extrusion temperature, lower than that of the thermoplastic matrices, the melt strength can be larger than that of the pure thermoplastics if its viscosity-temperature curve exceeds that of the matrices far from the solidification temperature. This behavior allows one to spin or film blow these blends despite the low viscosity.

chemistry.chemical_classificationThermoplasticMaterials sciencePolymers and PlasticsLiquid crystallineGeneral ChemistryPolymerPhysics::Fluid DynamicsCondensed Matter::Soft Condensed MatterViscositychemistryLiquid crystalMaterials ChemistryExtrusionComposite materialThermoplastic polymerPolymer Engineering and Science
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Shear flow characterization of blends containing liquid crystal polymers

1992

A simple phenomenological approach is proposed in order to predict the presence of minima in the viscosity-composition curves of blends of thermoplastic with liquid crystal polymer (LCP). When the viscosity of the liquid crystal polymer is larger than that of the thermoplastic matrix, a minimum is observed. A possible explanation of the presence of yield stress in the flow curves of these blends is also given.

chemistry.chemical_classificationThermoplasticMaterials sciencePolymers and PlasticsOrganic ChemistryFlow (psychology)PolymerCondensed Matter PhysicsCharacterization (materials science)Condensed Matter::Soft Condensed MatterPhysics::Fluid DynamicsViscositychemistryLiquid crystalMaterials ChemistryThermoplastic matrixComposite materialShear flowMakromolekulare Chemie. Macromolecular Symposia
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1979

chemistry.chemical_classificationViscosityMaterials scienceTemperature dependence of liquid viscositychemistryRelative viscosityIntrinsic viscosityInherent viscosityThermodynamicsPolymerPressure dependenceDie Makromolekulare Chemie
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Phase separation of flowing polymer solutions studied by viscosity and by turbidity

1980

chemistry.chemical_classificationViscosityMaterials sciencechemistryGeneral EngineeringAnalytical chemistryGeneral Materials SciencePolymerTurbidityJournal of Polymer Science: Polymer Letters Edition
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Pressure influences on the viscosity of polymer solutions

1982

Of all physico-chemical quantities characterizing the behavior of liquids, the viscosity coefficient η is normally most sensitive to pressure. Early measurements of η(p) date back almost 100 years [1] but they were carried out with very different objectives [2]. Currently, one is particularly interested in polymer solutions, for instance because of the additives to motor oils and of oil recovery. The present paper reports on measurements with polystyrenes of high molecular uniformity in eight different solvents. It confines itself to zero-shear viscosities and discusses the possibilities of discovering the influence of pressure via the molecular structure of the solvent and via its thermody…

chemistry.chemical_classificationViscosityMaterials sciencechemistryTemperature dependence of liquid viscosityRelative viscosityIntrinsic viscosityInherent viscosityThermodynamicsViscosity indexPolymerReduced viscosity
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1985

chemistry.chemical_classificationViscosityPhase transitionChain (algebraic topology)ChemistryLiquid crystallineLiquid crystalPolymer chemistryPolymerDie Makromolekulare Chemie, Rapid Communications
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Kinetics in a Double Antibody Radioimmunoassay (RIA): Diffussion Control

2012

Competitive protein binding radioimmunoassay (CPB-RIA) is a principal method for quantifying serum C Peptide concentration. The accuracy of this method is critically dependent on factors that influence the reaction between anti-C Peptide antibody (P) with 125I-C Peptide (M). We studied the influence of initial concentration of M, ionic strength, and viscosity on the reaction between M and P. A kinetic model for the the reaction between. Such model adjusts satisfac- torily to the results. Bi-exponential and irreversible kinetics is determined. The results of the viscosity analysis show clear negative influence on the direct reaction rate. The ionic strength shows scarce influence on equilibr…

chemistry.chemical_classificationViscosityReaction rate constantChromatographychemistryIonic strengthAutomotive EngineeringKineticsAnalytical chemistryPeptideRadioimmunoassayDielectricEndothermic processAmerican Journal of Chemistry
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