The Viscosity of a Suspension of Ferromagnetic Rod-like Particles

A correction of the original work by Forgacs and Mason describing the elastic buckling of rod-shaped particles in sheared suspensions is presented. Although the qualitative relationship among critical buckling conditions and the fiber aspect ratio and elastic modulus is unaltered, the new result for

## Abstract Crowding effects relevant to the phase stability of binary mixtures of rod‐like and spherical particles are investigated by means of Monte Carlo simulations in the isobaric NPT ensemble. The two types of particles are represented, respectively, by freely rotating hard spherocylinders of

Magnetic resonance imaging (MRI) is used to measure the time evolution of the volume fraction us. height profile during batch sedimentation of rod-like particle suspensions. A t any instant during sedimentation, MRI clearly delineates the su- pernatant, suspension, and sediment regions. The rod-like

and the viscosity from Brownian motion denoted here as the The shear properties of Brownian, rigid spheres consisting of sterielastic-like viscosity, h (e) , cally stabilized, crosslinked polymethylmethacrylate (PMMA) particles were studied in suspension. Three different volume fractions were used t