Negative normal stress in sheared complex fluids has been observed in two different systems. Imagine a liquid between a pair of parallel plates. For classical Newtonian liquids like water, glycerin, and oil, sliding one plate with respect to the other creates only a tangential stress, a force parallel to the plates. But some complex fluids, such as polymer melts and solutions, also react with a positive normal stress, a force that pushes the plates apart. About 25 years ago, researchers found that shearing some liquid crystalline polymers made the plates want to pull together. Such negative normal stress has proven rare and somewhat controversial. In one of the new examples, a semi-dilute suspension of carbon nanotubes, dispersed in a Newtonian polymer melt, was subjected to modest shearing flows. The tubes formed diffuse aggregates that elongated into cylinders and rolled like strings of dough in the hands of a chef. The...
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1 April 2004
April 01 2004
Citation
Benjamin P. Stein; Negative normal stress. Physics Today 1 April 2004; 57 (4): 9. https://doi.org/10.1063/1.2408541
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