Granular matter: A special buffer for impact load

Abstract: Abstract. As a typical energy dissipation system, granular matter can reduce the impact force effectively via inter-particle friction, viscous force and particle splash. To investigate the impact-absorbing capacity of granular matter, a spherical projectile dropping on a granular layer is studied by physical experiments and numerical simulations with the discrete element method (DEM). Both physical experiments and numerical simulations show that the granular layer reduces the impact load well. The impact load … Show more

“…Additionally, an electronic acquisition system records the time force signal emitted by each cell at a sampling rate of 2.5 [kS/s]. This sampling rate is in agreement with the typical time values found in literature [8,9].…”

Granular impacts: how far the Boussinesq model can go?

“…Additionally, an electronic acquisition system records the time force signal emitted by each cell at a sampling rate of 2.5 [kS/s]. This sampling rate is in agreement with the typical time values found in literature [8,9].…”

Granular impacts: how far the Boussinesq model can go?

Extending the Boussinesq model for impacts in granular media

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