Fluid pathways in the shearing zones of kaolin subjected to direct shear tests

## Abstract The alignment and the aggregation of particles in a viscoelastic fluid in simple shear flow are qualitatively analyzed using a two‐dimensional direct numerical simulation. Depending on the shear thinning, solvent viscosity, and Weissenburg number, a typical sequence in structural transi

A direct test of the adhesive strength between particles (2 µm polystyrene latex spheres) in aggregate was carried out to probe the possibility of aggregates being disrupted by convection flows of certain shearing rates. Optical tweezers were used to manipulate individual particles or aggregates for

The initiation and development of wrinkles in a single layer graphene sheet subjected to inplane shear displacements are investigated. The dependence of the wavelength and amplitude of wrinkles on the applied shear displacements is explicitly obtained with molecular mechanics simulations. A continuu

The velocity field and the adequate shear stress corresponding to the flow of a Maxwell fluid with fractional derivative model, between two infinite coaxial cylinders, are determined by means of the Laplace and finite Hankel transforms. The motion is due to the inner cylinder that applies a longitud

AWrae-The problem of the penny-shaped crack imbedded into an infinite body of an incompressible power-law isotropic material subjected to remote shear stress is addressed in two ways. First, we conduct a detailed numerical analysis using the tinite element program ABAQUS. This analysis provides accu