Cross fluid

A Cross fluid is a type of generalized Newtonian fluid whose viscosity depends upon shear rate according to the following equation:

$\mu_{\operatorname{eff}}(\dot \gamma) = \frac {\mu_0}{1 + ({\frac {\mu_0 \dot \gamma} {\tau ^ *}})^{1-n} }$

where

$\mu_{\operatorname{eff}}(\dot \gamma)$ is viscosity as a function of shear rate,

μ 0

τ *

and n are coefficients.

At low shear rate ( $\mu_0 \dot \gamma \ll \tau^*$ ), cross fluids behave as Newtonian fluids and at high shear rate ( $\mu_0 \dot \gamma \gg \tau^*$ ) as power-law fluids.

[edit] See also

Kennedy, P. K., Flow Analysis of Injection Molds. New York. Hanser. ISBN 1569901813

This page was last modified 00:20, 3 January 2008 by Wikipedia user Alex Bakharev. Based on work by Wikipedia user(s) After Midnight, Ra2007, KSmrq, Heron, Bluebot and Celestianpower and Anonymous user(s) of Wikipedia.
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