In fluid mechanics, apparent viscosity (sometimes denoted η) is the shear stress applied to a fluid divided by the shear rate:
For a Newtonian fluid, the apparent viscosity is constant, and equal to the Newtonian viscosity of the fluid, but for non-Newtonian fluids, the apparent viscosity depends on the shear rate. Apparent viscosity has the SI derived unit Pa·s (Pascal-second), but the centipoise is frequently used in practice: (1 mPa·s = 1 cP).
A single viscosity measurement at a constant speed in a typical viscometer is a measurement of the instrument viscosity of a fluid (not the apparent viscosity). In the case of non-Newtonian fluids, measurement of apparent viscosity without knowledge of the shear rate is of limited value: the measurement cannot be compared to other measurements if the speed and geometry of the two instruments is not identical. An apparent viscosity that is reported without the shear rate or information about the instrument and settings (e.g. speed and spindle type for a rotational viscometer) is meaningless.
Multiple measurements of apparent viscosity at different, well-defined shear rates, can give useful information about the non-Newtonian behaviour of a fluid, and allow it to be modeled.
In many non-Newtonian fluids, the shear stress due to viscosity, , can be modeled by
where
k is the consistency index
n is the flow behavior index
du/dy is the shear rate, with velocity u and position y
These fluids are called power-law fluids.
To ensure that has the same sign as du/dy, this is often written as
where the term
gives the apparent viscosity.
Cette page est générée automatiquement et peut contenir des informations qui ne sont pas correctes, complètes, à jour ou pertinentes par rapport à votre recherche. Il en va de même pour toutes les autres pages de ce site. Veillez à vérifier les informations auprès des sources officielles de l'EPFL.
Continuum conservation laws (e.g. mass, momentum and energy) will be introduced. Mathematical tools, including basic algebra and calculus of vectors and Cartesian tensors will be taught. Stress and de
Life has emerged on our planet from physical principles such as molecular self-organization, thermodynamics, stochastics and iterative refinement. This course will introduce the physical methods to st
La viscosité (du latin viscum, gui, glu) peut être définie comme l'ensemble des phénomènes de résistance au mouvement d'un fluide pour un écoulement avec ou sans turbulence. La viscosité diminue la liberté d'écoulement du fluide et dissipe son énergie. Deux grandeurs physiques caractérisent la viscosité : la viscosité dynamique (celle utilisée le plus généralement) et la seconde viscosité ou la viscosité de volume. On utilise aussi des grandeurs dérivées : fluidité, viscosité cinématique ou viscosité élongationnelle.
Explorer les concepts de couche limite, l'impact de viscosité, les forces de traînée et de levage, et l'analyse dimensionnelle du débit des tuyaux.
Explore la viscosité dans les fluides newtoniens, en discutant de la contrainte de cisaillement, de la vitesse de déformation de cisaillement et de la compressibilité, avec des exemples de comportements d'épaississement et d'amincissement du cisaillement.
Explore la mécanique du miel enroulé et comment différents paramètres affectent la taille de la bobine.
From a circular economyperspective, one-pot strategies for theisolation of cellulose nanomaterials at a high yield and with multifunctionalproperties are attractive. Here, the effects of lignin content (bleachedvs unbleached softwood kraft pulp) and sulfur ...
Fluidic actuation enables movement in a wide range of mechanical systems, from simple laboratory devices to more complex industrial machinery. Fluids are used to generate motion of mechanical pieces. The term "fluids" encompasses two types of technologies: ...
In this work we consider solutions to stochastic partial differential equations with transport noise, which are known to converge, in a suitable scaling limit, to solution of the corresponding deterministic PDE with an additional viscosity term. Large devi ...