© 2016 Elsevier Ltd Modeling of impact into granular substrates is a topic of growing interest over the last decade. We present a fully continuum approach for this problem, which is shown to capture an array of experimentally observed behavior with regard to the intruder penetration dynamics as well as the flow and stress response of the granular media. The intruder is modeled as a stiff elastic body and the dry granular bulk is modeled using a ‘trans-phase’ constitutive relation. This relation has an elasto-viscoplastic response with pressure- and rate-sensitive yield behavior given by the μ(I) inertial rheology when the granular free volume is below a critical value. Above this critical value, the material is deemed to separate and is tre...
We have studied the dynamics of impact and sedimentation in two experimental systems. Tracking the ...
We present a computational study on the penetration of steel projectiles into porous geologic materi...
Granular materials -- aggregates of many discrete, disconnected solid particles -- are ubiquitous in...
© 2016 Elsevier Ltd Modeling of impact into granular substrates is a topic of growing interest over ...
Granular intrusion is commonly observed in natural and human-made settings. Unlike typical solids an...
The dynamic interaction between granular flowing masses and obstacles is a very complex phenomenon i...
We report on a series of experiments and Discrete Element Method computations on penetration into gr...
Projectiles impacting granular medium are ubiquitous in nature and our life.Granular medium has comp...
The evaluation of impact forces exerted by flowing granular masses on rigid obstacles is of fundamen...
The response of dense ensembles of non-cohesive granular media (GM) subject to the motion of an intr...
Granular intrusions such as ballistic impacts, vehicular and animal locomotion in natural terrains, ...
An experimental and theoretical study about the penetrating dynamics of a cylinder with its flat fac...
A dense, dry granular target can cause a free-falling intruding object to come to an abrupt stop as ...
The first part of this thesis focuses on the study of the force exerted by a granular packing on an ...
AbstractThe dynamic behavior of granular materials has importance to a variety of engineering applic...
We have studied the dynamics of impact and sedimentation in two experimental systems. Tracking the ...
We present a computational study on the penetration of steel projectiles into porous geologic materi...
Granular materials -- aggregates of many discrete, disconnected solid particles -- are ubiquitous in...
© 2016 Elsevier Ltd Modeling of impact into granular substrates is a topic of growing interest over ...
Granular intrusion is commonly observed in natural and human-made settings. Unlike typical solids an...
The dynamic interaction between granular flowing masses and obstacles is a very complex phenomenon i...
We report on a series of experiments and Discrete Element Method computations on penetration into gr...
Projectiles impacting granular medium are ubiquitous in nature and our life.Granular medium has comp...
The evaluation of impact forces exerted by flowing granular masses on rigid obstacles is of fundamen...
The response of dense ensembles of non-cohesive granular media (GM) subject to the motion of an intr...
Granular intrusions such as ballistic impacts, vehicular and animal locomotion in natural terrains, ...
An experimental and theoretical study about the penetrating dynamics of a cylinder with its flat fac...
A dense, dry granular target can cause a free-falling intruding object to come to an abrupt stop as ...
The first part of this thesis focuses on the study of the force exerted by a granular packing on an ...
AbstractThe dynamic behavior of granular materials has importance to a variety of engineering applic...
We have studied the dynamics of impact and sedimentation in two experimental systems. Tracking the ...
We present a computational study on the penetration of steel projectiles into porous geologic materi...
Granular materials -- aggregates of many discrete, disconnected solid particles -- are ubiquitous in...