Journal of Rheology, Vol.64, No.2, 395-403, 2020
The Darcytron: A pressure-imposed device to probe the frictional transition in shear-thickening suspensions
In this paper, we present a new device called the Darcytron, allowing pressure-imposed rheological measurements on dense suspensions made of very small particles, like shear-thickening suspensions. The main idea is to impose and control the particle pressure using a vertical Darcy flow across the settled bed of particles. We first validate the proof of concept of the Darcytron on a standard (nonshear-thickening) suspension composed of large glass particles. We then use this new device to investigate the frictional behavior of a model shear-thickening suspension composed of small silica particles. These results provide direct evidence of a transition between a frictionless and a frictional state as the particle pressure is increased, providing support to the recent frictional transition scenario for shear thickening.
Keywords:granular suspensions;colloidal suspensions;shear-thickening;Darcy flow;pressure-imposed rheometer;friction