Liquid migration in shear thickening suspensions flowing through constrictions

Abstract

Dense particulate suspensions often become more dilute as they move downstream through a constriction. We find that as a shear-thickening suspension is extruded through a narrow die and undergoes such liquid migration, the extrudate maintains a steady concentration φc, independent of time or initial concentration. This concentration φc varies with volumetric flow rate Q and die radius r d, but at low Q collapses onto a universal function of Q/r d3, a characteristic shear rate in the die. We explain quantitatively the onset of liquid migration in extrusion by coupling a recent model for discontinuous shear thickening and the `suspension balance model' for solvent permeation through particles.