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{{Unreferenced stub|auto=yes|date=December 2009}} | |||
The '''Weissenberg number''' ('''Wi''') is a [[dimensionless number]] used in the study of [[viscoelastic]] flows. It is named after [[Karl Weissenberg]]. The dimensionless number is the ratio of the relaxation time of the fluid and a specific process time. For instance, in simple steady shear, the Weissenberg number, often abbreviated as Wi or We, is defined as the [[shear rate]] times the relaxation time | |||
:<math>\text{Wi} = \dot{\gamma} \lambda.\,</math> | |||
Since this number is obtained from scaling the evolution of the stress, it contains choices for the shear or elongation rate, and the length-scale. Therefore the exact definition of all non dimensional numbers should be given as well as the number itself. | |||
While Wi is similar to the [[Deborah number]] and is often confused with it in technical literature, they have different physical interpretations. The Weissenberg number indicates the degree of anisotropy or orientation generated by the deformation, and is appropriate to describe flows with a constant stretch history, such as simple shear. In contrast, the Deborah number should be used to describe flows with a non-constant stretch history, and physically represents the rate at which elastic energy is stored or released. | |||
{{NonDimFluMech}} | |||
{{DEFAULTSORT:Weissenberg Number}} | |||
[[Category:Dimensionless numbers of fluid mechanics]] | |||
[[Category:Fluid dynamics]] | |||
[[Category:Non-Newtonian fluids]] | |||
Revision as of 23:59, 24 November 2013
Template:Unreferenced stub The Weissenberg number (Wi) is a dimensionless number used in the study of viscoelastic flows. It is named after Karl Weissenberg. The dimensionless number is the ratio of the relaxation time of the fluid and a specific process time. For instance, in simple steady shear, the Weissenberg number, often abbreviated as Wi or We, is defined as the shear rate times the relaxation time
Since this number is obtained from scaling the evolution of the stress, it contains choices for the shear or elongation rate, and the length-scale. Therefore the exact definition of all non dimensional numbers should be given as well as the number itself.
While Wi is similar to the Deborah number and is often confused with it in technical literature, they have different physical interpretations. The Weissenberg number indicates the degree of anisotropy or orientation generated by the deformation, and is appropriate to describe flows with a constant stretch history, such as simple shear. In contrast, the Deborah number should be used to describe flows with a non-constant stretch history, and physically represents the rate at which elastic energy is stored or released.