Force transmission in dry and wet granular media

We compare the probability density functions of normal forces in dry and wet granular systems from 3D simulations by molecular dynamics and contact dynamics methods. While the strong forces are characterized by a decreasing exponential distribution, we show that in the range of weak forces the force distribution in a dry granular packing is sensitive to the anisotropy of the packing and the shape of the particles. By means of a model of capillary cohesion, implemented as a force law expressing the capillary force as a function of water volume and the distance between particles, we find that distributions are exponential for both compressive and tensile forces. The particle pressures are shown to form a bi-percolating structure.

We compare the distributions of normal forces in dry and wet granular systems from three-dimensional MD and CD simulations. We show that the force distribution is sensitive to the packing anisotropy and particle shapes. We find symmetrical exponential distributions for tensile and compressive forces in the presence of capillary bonds, and we highlight a bi-percolating structure of the particle pressures.Figure optionsDownload as PowerPoint slide