Steady and modulated flow of an Ostwald fluid around a rotating disk

The solutions of the continuity equation and the equations of motion of the flow in the vicinity of a rotating disk have been established for an Ostwald fluid under steady-state conditions and in modulated flow around a mean value. Under steady-state conditions, the kinematics of the flow is scarcely dependent on the rheological parameters close to the disk, however, for n < 1 long-range effects have been put forward. For modulated flow, in the high-frequency range, a behaviour very different from that observed for a Newtonian fluid was found. In the low-frequency range an asymptotic solution has been proposed which is of special interest in mass transfer problems.Presented at the Second Conference of European Rheologists, Prague, June 17–20, 1986     

A novel geometry for rheological characterization of viscoelastic materials

A novel geometry for generating a viscometric flow presents advantages of both cone and plate and parallel plate geometries, regarding uniform shear field and adjustable range of measurement. Kinematics and dynamics of the generated flow have been described mathematically utilizing an orthogonal curvilinear coordinate system based on the shapes of the shearing surfaces which are similar to the surface that generates the flow. Simple equations that allow the calculation of quantities of experimental interest in the rheological characterization of liquid materials, namely, shear rate, shear stress and two normal stress differences, have also been derived.The geometry, called pseudosphere, was tested with two types of fluids (Newtonian and pseudoplastic). Results show that the geometry can be used with low viscosity liquids (Newtonian liquids) by only adjusting the gapH. The behavior of pseudoplastic fluids for both low and moderately high viscosity could also be studied with this geometry. Very reproducible results were obtained when compared with those obtained with cone and plate geometry. Regions of lower shear rate could be studied using only the pseudosphere geometry.     

The unraveling of a polymer chain in a strong extensional flow

By assuming that in a strong extensional flow a polymer molecule in dilute solution is quickly driven into a folded or kinked state in which drag and entropic elastic forces dominate over the Brownian force, we derive kink dynamics equations that describe the unraveling of the molecule in the extensional flow. Solving these equations numerically, we find that although the ends of the chain move, on average, affinely in the flow field until the chain is unfolded to about 1/3 of its fully extended length, large viscous stresses are produced because the solvent must flow around nonextending strands of polymer that lie between neighboring kinks. These predictions are compared with available experimental data and with other theoretical models.     

Stabilität der ebenen Couette-Strömung bezüglich Störungen in der viskosimetrischen Ebene

Zusammenfassung Die Stabilität der ebenen Scherströmung eines einfachen Fluids wird im Rahmen der Kurzwellenapproximation für Störungen in der viskosimetrischen Ebene untersucht. Für kurze Wellen ist eine Stabilitätsanalyse unabhängig von der speziellen Form der Stoffgleichung möglich. Die vorliegende Analyse stellt einen ersten Schritt in diese Richtung dar und führt zu einem hinreichenden Stabilitätskriterium. Für kurze Wellen sind die Maxwell-FlüssigkeitenA undB bezüglich ebener Störungen stabil.

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The stability of a plane shear flow of simple fluids is investigated for perturbations in the viscometric plane within the framework of the short wave approximation. For short waves it is possible to carry out a stability analysis, which is independent of the type of constitutive equation. The analysis presented is the first step in this direction and leads to a sufficient stability criterion. For short waves Maxwell fluidsA andB are stable for perturbations in the viscometric plane.

Korrespondenz bitte an diese Adresse richten     

An adaptation of finite linear viscoelasticity theory for rubber-like viscoelasticity by use of a generalized strain measure

In this paper a simplified three-dimensional constitutive equation for viscoelastic rubber-like solids is derived by employing a generalized strain measure and an asymptotic expansion similar to that used by Coleman and Noll (1961) in their derivation of finite linear viscoelasticity (FLV) theory. The first term of the expansion represents exactly the time and strain separability relaxation behavior exhibited by certain soft polymers in the rubbery state and in the transition zone between the glassy and rubbery states. The relaxation spectra of such polymers are said to be deformation independent. Retention of higher order terms of the asymptotic expansion is recommended for treating deformation dependent spectra.Certain assumptions for the solid theory are relaxed in order to obtain a constitutive equation for uncross-linked liquid materials which exhibit large elastic recovery properties.Apart from the strain energyW(I₁,I ₂), which alternatively characterizes the long-time elastic response of solids or the instantaneous elastic response of elastic liquids, only the linear viscoelastic relaxation modulus is required for the first-order theory. Both types of material functions can be obtained, in theory, from simple laboratory testing procedures. The constitutive equations for solids proposed by Chang, Bloch and Tschoegl (1976) and a special form of K-BKZ theory for elastic liquids are shown to be particular cases of the first-order theory.Previously published experimental data on a cross-linked styrene-butadiene rubber (SBR) and an uncross-linked polyisobutylene (PIB) rubber is used to corroborate the theory.     

The behaviour of polymer solutions in extension-dominated flows,with applications to Enhanced Oil Recovery

The rheometry and flow behaviour of aqueous solutions of polyacrylamide and xanthan gum are discussed, with the expectation that the results will be of use in Enhanced Oil Recovery (EOR). The rheometrical study gives particular prominence to the dramatically high values of extensional viscosity which are possible in aqueous solutions of flexible polymers such as polyacrylamide. The effect of such factors as polymer concentration, salt concentration and mechanical degradation on rheometrical properties is outlined. Reference is also made to the qualitatively-different rheometrical behaviour experienced by comparable solutions of xanthan gum.Further evidence is advanced that some dilute polymer solutions of potential use in EOR experience abnormally high resistance in flows which are dominated by extension. Since flow through a porous medium involves a substantial extensional component, it is argued that there is justification for studying the effect of this high extensional-viscosity behaviour in a number of idealized geometries of relevance to EOR conditions. The resulting experiments indicate that, at low flow rates,shear viscosity is the dominant influence, but that, after a critical set of conditions,extensional-viscosity considerations can become all important and the observed pressure losses are against any expectation based on conventional fluid mechanics.Flow visualization studies support the pressure-drop measurements in emphasising the strong influence of high extensional viscosities in flows through tortuous geometries.This paper is dedicated to Professor Hanswalter Giesekus on the occasion of his retirement as Editor of Rheologica Acta.     

Shear and extensional flow of polyacrylamide solutions

As part of an EEC Science Stimulation programme on extensional viscosity two major conferences were organised on the subject. The second of these was devoted to the results obtained on a standard fluid, M 1. The data obtained in shear flow was remarkably consistent from laboratory to laboratory. Extensional flow results presented quite a different picture. Using a series of nonequilibrium techniques such as the spinline rheometer, opposing jet, falling drop and converging flow, extensional viscosity results were obtained which differed by as much as two to three orders of magnitude. Nevertheless, it was apparent that consistancy did exist between similar techniques. It is in the context of this information that the measurements described below have been made.The shear and extensional flow properties of partially ionised polyacrylamide in solution at concentrations ranging from 5 ppm were measured. The method of solution preparation was found to have a profound effect on the behaviour of the solutions in shear flow. The influence of salt concentration and pH was investigated and is discussed in the context of molecular shape in solution.Extensional flow measurements, using the spinline rheometer, show that the solutions are strongly strain thickening even at concentrations as low as 5 ppm. These results are considered in the light of polymer entanglement and association in the strong flow field.Delivered as a Keynote Lecture at the Golden Jubilee Conference of the British Society of Rheology and Third European Rheology Conference, Edinburgh, 3–7 September, 1990.     

Zum Einfluß von Füllstoffen auf das rheologische Verhalten von hochmolekularen Polyethylenschmelzen I. Das Fließverhalten in Scher- und Dehnströmungen

Zusammenfassung Das Fließverhalten von Polymersuspensionen in verschiedenen Strömungsformen wird anhand von mit isotropen und anisotropen Partikeln (Glaskugeln bzw. Glasfasern) gefüllten hochmolekularen Schmelzen untersucht. Zur Anwendung kommen dabei sowohl lineare als auch verzweigte Polymere, nämlich Polyethylene mit hoher Dichte (HDPE) und mit niedriger Dichte (LDPE).Alle untersuchten Systeme zeigen in der Scherströmung im Rotationsrheometer bei Zugabe von Füllstoff eine Verringerung der elastischen Eigenschaften. Solches Verhalten ist für Suspensionen isotroper Teilchen zu erwarten, bei Fasersuspensionen wird jedoch gewöhnlich ein verstärktes Anwachsen der ersten Normalspannungsdifferenz mit zunehmender Füllung gefunden. Bei höheren Schergeschwindigkeiten (Messungen im Kapillarviskosimeter) wird die durch die Füllstoffe bewirkte Viskositätserhöhung zunehmend geringer, die Suspensionen verhalten sich also mit zunehmendem Füllgrad stärker scherentzähend. Das Einsetzen der für das lineare HDPE typischen Instabilitäten (stick-slip, Wandgleiten) läßt sich durch den Ersatz von (elastischem) Polymer durch (starre) Kugeln nicht beeinflussen, diese Form des Schmelzenbruchs setzt bei gleichen Schubspannungen ein und ist so wegen der höheren Viskosität der Suspension sogar zu niedrigeren Durchsätzen hin verschoben.Um die Lücke zwischen den Messungen im Rotations- und im Kapillarviskosimeter (niedrige bzw. hohe Schergeschwindigkeiten) zu schließen, wurden Experimente bei oszillatorischer Scherbeanspruchung durchgeführt. Die bekannte Cox-Merz-Beziehung vermag das Verhalten der ungefüllten Schmelzen zwar recht gut zu beschreiben, versagt jedoch bei den Suspensionen gerade im Bereich niedriger Schergeschwindigkeiten, ebenso wie andere vorgeschlagene Korrelationen zwischen dynamischen und stationären Kenngrößen.Zur Bestimmung des Materialverhaltens bei uniaxialer Dehnbeanspruchung wurde ein Rotationsrheometer in geeigneter Weise modifiziert, so daß für die verwendeten sehr hochviskosen Stoffsysteme eine Messung möglich wurde. Die verschiedenen reinen Schmelzen zeigen ein wenig unterschiedliches Dehnverhalten mit ausgeprägten Verfestigungserscheinungen. Eine stationäre Dehnviskosität konnte in keinem Fall gemessen werden. Die Zugabe von Glaskugeln ändert die Dehnviskosität nicht wesentlich, der Zusatz von Glasfasern jedoch bewirkt eine merkliche Erhöhung der instationären Dehnviskosität im Anlaufbereich.

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The flow behaviour of suspensions is examined in different flow geometries using linear and branched high-molecular-weight polyethylene melts as suspension media containing isotropic (glass beads) and anisotropic (glass fibre) particles.In shear flow in a rotational rheometer, all suspensions show a decrease of the elastic properties with increasing filler content. While this behaviour has to be expected with suspensions of isotropic particles, fibre-filled polymer fluids usually show increasing normal stress differences with increasing fibre content. At higher shear rates (in a capillary viscometer) the particle-induced viscosity increase deminishes, hence the suspensions tend to be more shear thinning with increased filler content.The onset point of instabilities typically found with the linear HDPE is not shifted towards higher volumetric flow rates by replacement of elastic polymer by inelastic fillers as might be expected; on the contrary, the so-called stick-slip behaviour is initiated at constant values of shear stress and hence — because of the higher viscosity of the suspensions — at lower flow rates.Additionally, experiments were carried out with oscillating shear strain. Neither the well-known Cox-Merz relation nor similar relations, discussed in the literature, could properly correlate oscillatory and steady-state fluid behaviour of the suspensions, especially in the low shear rate range, whereas the former worked rather well for the unfilled melts.To allow for measurements of extensional properties, a rotational rheometer was slightly modified, thus being capable of determining the extensional viscosity of highly viscous polymeric materials. The pure melts showed only a slightly different behaviour with pronounced strain hardening. No stationary values of the Trouton viscosity could be obtained. While addition of glass beads was of little influence on material behaviour, addition of glass fibres showed remarkable increase of the extensional viscosity in the start-up region.

Erster Teil einer vom Fachbereich Chemietechnik der Universität Dortmund genehmigten Dissertation     

Lubricated squeezing flow of a Newtonian liquid between elastic and rigid plates

Theoretical force-time relationships were derived for squeezing flow of a Newtonian liquid between lubricated rigid and elastic plates. It is shown how the elastic number, representing the ratio between the elastic plate's rigidity and the specimen's viscosity, affects the force-time curve and under what circumstances the fluid specimen's thickness becomes a significant factor. Potential implications of the analysis in oral sensory evaluations of viscous foods are also considered.     

A model for the thermorheological behavior of viscoelastic fluids

Using a power-law ansatz for the temperature dependence of the shear modulus on the level of internal variables, the thermorheological behavior is modeled for viscoelastic fluids of a special group of rheological constitutive equations (rate-type models). The model parameter introduced characterizes thermoelastic contributions. The relation between the model parameter and the physical quantities appearing in deformation processes is discussed. Based on the chosen temperature dependence of the shear modulus, thermodynamically consistent equations like the nonlinear rheological constitutive equation and the temperature equation are derived. The special cases of entirely entropy and energy elastic fluids are also considered. The thermorheological behavior (exo-, - or endothermal processes) of a viscoelastic fluid in a stress-growth experiment followed by relaxation is analyzed with respect to the model parameter.     

The flow past a sphere in a cylindrical tube: effects of intertia,shear-thinning and elasticity

Numerical solutions are presented for the flow past a sphere placed at the centreline of a cylindrical tube for Reynolds numbers ranging from 0 to 150, using a boundary element method. Fluids are modelled by a variety of constitutive equations including the Newtonian, the Carreau and the Phan-Thien-Tanner models. The influence of inertia, shear-thinning and fluid elasticity on the flow field, drag and the pressure drop force-drag ratio is examined. Some results are compared with available experimental data.     

Cancellation of errors in the Higashitani-Pritchard treatment of hole pressures generated by viscoelastic liquids in creeping flow past a transverse slot

Analytical studies of the hole pressure for non-Newtonian creeping flow past a transverse slot are pursued with particular interest in the formulation of Higashitani and Pritchard (HP). To correct the flaws in the treatment of HP's original work, a modified hole-pressure relation (MHPR) is employed. Some important mathematical properties of the MHPR are presented. By studying the MHPR in streamline coordinate formulation, we find a fortuitouserror cancellation phenomenon in the derivation of the HP formula: namely, the error caused by one key flaw is fortuitously cancelled out by the error introduced through another key flaw. For second-order fluids and Tanner's viscometric model (under certain assumptions) the cancellation of errors is proved to be exact. It is this cancellation of errors that provides a theoretical explanation for the paradox between an apparently flawed derivation and the fortunate success of the HP prediction.     

Flow of an inelastic Non-Newtonian fluid through an abrupt contraction: A recalculation

The axi-symmetric flows of Newtonian and Non-Newtonian fluids through a sudden one-to-four contraction are numerically simulated. As the Non-Newtonian constitutive equation the inelastic form of the four-constant Oldroyd implicit rheological model is used. Because of the Non-Newtonian viscosity, a single non-dimensional parameter cannot be found to characterize the equations of motion. Therefore in this work the equations of motion are solved using dimensional values, that is, with actual increase of the mass flow.     

Response of blood flow through an artery under stenotic conditions

This paper presents an analytical study on the behavoiur of blood flow in an artery having a stenosis. This is basically formulated through the use of a suitable mathematical model. The arterial segment under consideration is simulated by an anisotropically elastic cylindrical tube filled with a viscous incompressible fluid representing blood. The analysis is carried out for an artery with mild local narrowing in its lumen forming a stenosis. Particular emphasis has been paid to the effect of the surrounding connective tissues on the motion of the arterial wall. Blood is treated as a Newtonian fluid. The analysis is restricted to propagation of small amplitude harmonic waves, generated due to the flow of blood whose wave length is large compared to the radius of the arterial segment. The effect of the shape of stenosis on the resistance to blood flow has been well illustrated quantitatively through numerical computations of the resulting expressions. A quantitative analysis is also made for the variation of the phase velocity, as well as the velocity of wave propagation and the flow rate, in order to illustrate the applicability of the model.     

Correlation between interfacial interactions and internal stresses in filled high density polyethylene

The stress relaxation and the creep behaviour of high density polyethylene (HDPE) filled with glass fibres, clay (plate-like particles) or CaCO₃ (particles with irregular shape) were measured in uniaxial extension at room temperature. It was observed that the addition of filler increased the internal stress level, as evaluated from stress relaxation data. This increase was larger than the corresponding increase in the (short-term) elastic modulus. This behaviour may be attributed to a reduced macromolecular mobility in the matrix material close to the filler surface, i.e. to formation of an interphase region in the HDPE-matrix. From the internal stress values, the thickness of this interphase region around each filler particle was estimated, assuming a uniform coverage of the particles. It was suggested that the amount of matrix material with reduced mobility (or the thickness of the interphase region) reflected the degree of adhesion between the filler and HDPE. The change in the internal stress level due to the incorporation of different fillers, which were surface treated in some cases, was also consistent with the observed creep behaviour.     

Ermittlung des dehnrheologischen Verhaltens thermoplastischer Kautschuke

Zusammenfassung Mit Hilfe eines einfachen Dehnrheometers wurden Dehnfließversuche mit thermoplastischen Kautschukblends (Ibuflex-SEH und Santoprene) durchgeführt. Die auf diese Weise erhaltenen Dehnviskositätsdaten wurden mit den von kautschukmodifizierten Thermoplasten (PVC, PE und PS) verglichen. Nach der Anlaufphase zeigt Ibuflex-SEH ein stationäres Fließverhalten, während die Dehnviskosität von Santoprene als Funktion der Zeit monoton ansteigt, ohne einen stationären Zustand zu erreichen. Die Ursachen des Unterschieds im Fließverhalten der untersuchten Polymermaterialien wurden diskutiert.

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Extensional flow experiments were carried out on a simple extensional rheometer with the thermoplastic elastomer blends: Ibuflex-SEH and Santoprene. The extensional viscosity data obtained were comparable with those of elastomer modified PVC, PE and PS. After the transient stage Ibuflex-SEH shows a steady-state flow behaviour, whereas the extensional viscosity of Santoprene as a function of time increases monotonically without reaching a stationary state. The causes for these differences were discussed.

Erweiterte Fassung eines Vortrags anläßlich der Jahrestagung der Deutschen Rheologischen Gesellschaft vom 13.–15. Mai 1985 in Berlin     

Linear rheology of viscoelastic emulsions with interfacial tension

Emulsions of incompressible viscoelastic materials are considered, in which the addition of an interfacial agent causes the interfacial tension to depend on shear deformation and variation of area. The average complex shear modulus of the medium accounts for the mechanical interactions between inclusions by a self consistent treatment similar to the Lorentz sphere method in electricity. The resulting expression of the average modulus includes as special cases the Kerner formula for incompressible elastic materials and the Oldroyd expression of the complex viscosity of emulsions of Newtonian liquids in time-dependent flow.     

The peculiarities of the rheological behaviour of coal tars

The results are discussed of rheological studies of coal tars with different concentrations of substances insoluble in toluene at periodical, steady-state and combined periodical-steady shear deformations in a wide range of deformation frequencies, rates and amplitudes in the temperature region from 223 to 333 K. The temperatures of structural and mechanical glassingT _g , the activation energies of viscous flow and initial viscoelastic constants of these systems have been determined. Temperature and temperature-frequency dependencies of dynamical parameters have been obtained, the pre-steady-state and the steady-state flow modes of permanent deformation have been studied and thixotropic parameters have been evaluated at the combined action of vibration and permanent deformation.     

Nonlinear viscoelasticity of polymer melts in different types of flow

The nonlinear viscoelastic properties of a fairly large class of polymeric fluids can be described with the factorable single integral constitutive equation. For this class of fluids, a connection between the rheological behaviour in different flow geometries can be defined if the strain tensor (or the damping function) is expressed as a function of the invariants of a tensor which describes the macroscopic strain, such as the Finger tensor. A number of these expressions, proposed in the literature, are tested on the basis of the measuring data for a low-density polyethylene melt. In the factorable BKZ constitutive equation the strain-energy function must be expressed as a function of the invariants of the Finger tensor. The paper demonstrates that the strain-energy function can be calculated from the simple shear and simple elongation strain measures, if it is assumed to be of the shape proposed by Valanis and Landel. The measuring data for the LDPE melt indicate that the Valanis-Landel hypothesis concerning the shape of the strainenergy function is probably not valid for polymer melts.     

The rheology of powders

This paper studies the slow flow of powders. It is argued that since powders can flow like liquids, there must be equations similar to those of liquids. The phenomenon of a variable density, dilatancy, is described by an analogue of temperature called the compactivity X. Whereas, in thermal physicsT = E/S, powders are controlled byX = V/S. The equations for, v, T of a liquid are replaced by, v, X. An analogy for free energy is described, and the solution to some simple problems of packing and mixing are offered. As an example of rheology, it is shown that the simplest flow equations produce a transition to plug flow in appropriate circumstances.Delivered as a Gold Medal Lecture at the Golden Jubilee Conference of the British Society of Rheology and Third European Rheology Conference, Edinburgh, 3–7 September, 1990.