Add to ORKGThe origin of stress dip under the apex of a standard sandpile has stimulated significant debate within the scientific community. On the other hand, it could be argued that a semipile built against a vertical wall is of more practical interest since it serves as a model of dams, dykes, and embankments. There is surprisingly little information available for the stress distribution in this case. Here we show clear experimental evidence that the presence of the wall enhances the dip under a granular pile significantly. Our investigation provides insight into the influence of walls on the orientation of force chains and this appears to be key in enhancing the dip. Moreover, numerical simulations and experiments with different kinds of par...
We present an experimental and numerical study on the influence that particle aspect ratio has on th...
Introduction One out of many interesting features of granulates 1 is the stress distribution in s...
We present simulations of static model sandpiles in two dimensions (2D), and focus on the stress dis...
Granular materials are in abundance both in nature and in industry. They are of considerable intere...
AbstractMany industrial bulk solids are commonly stored in open stockpiles that are progressively fo...
We investigate the stress distribution at the base of a conical sandpile using both analytic calcula...
Previously, it was shown that the pressure “dip” in the stress profile observed at the bottom of san...
The subject of granular materials attracts substantial interests from both the academic and engineer...
We present a new approach to the modelling of stress propagation in static granular media, focussing...
SUMMARY Many experiments on conical piles of granular materials have indicated, contrary to simple i...
8 pages, 8 figures, accepted version to appear in Eur. Phys. J. EWe relate the pressure "dip" observ...
We have made experimental observations of the force networks within a two-dimensional granular silo ...
We present experimental and numerical results of the effect that a partial discharge has on the morp...
We present an experimental and numerical study on the influence that particle aspect ratio has on th...
Model experiments are reported on the build-up of granular piles in two dimensions. These show that,...
We present an experimental and numerical study on the influence that particle aspect ratio has on th...
Introduction One out of many interesting features of granulates 1 is the stress distribution in s...
We present simulations of static model sandpiles in two dimensions (2D), and focus on the stress dis...
Granular materials are in abundance both in nature and in industry. They are of considerable intere...
AbstractMany industrial bulk solids are commonly stored in open stockpiles that are progressively fo...
We investigate the stress distribution at the base of a conical sandpile using both analytic calcula...
Previously, it was shown that the pressure “dip” in the stress profile observed at the bottom of san...
The subject of granular materials attracts substantial interests from both the academic and engineer...
We present a new approach to the modelling of stress propagation in static granular media, focussing...
SUMMARY Many experiments on conical piles of granular materials have indicated, contrary to simple i...
8 pages, 8 figures, accepted version to appear in Eur. Phys. J. EWe relate the pressure "dip" observ...
We have made experimental observations of the force networks within a two-dimensional granular silo ...
We present experimental and numerical results of the effect that a partial discharge has on the morp...
We present an experimental and numerical study on the influence that particle aspect ratio has on th...
Model experiments are reported on the build-up of granular piles in two dimensions. These show that,...
We present an experimental and numerical study on the influence that particle aspect ratio has on th...
Introduction One out of many interesting features of granulates 1 is the stress distribution in s...
We present simulations of static model sandpiles in two dimensions (2D), and focus on the stress dis...