Dual hierarchical particle jetting of a particle ring undergoing radial explosion.

@article{Xue2018DualHP,
  title={Dual hierarchical particle jetting of a particle ring undergoing radial explosion.},
  author={Kun Xue and Kaiyuan Du and Xiaoliang Shi and Yixiang Gan and Chun-hua Bai},
  journal={Soft matter},
  year={2018},
  volume={14 22},
  pages={
          4422-4431
        }
}
We study experimentally the formation of a dual hierarchical jetting pattern in dry dense particle media subjected to the radially divergent shock loadings in a radial Hele-Shaw cell. The distinct internal and external jetting patterns were formed on the internal and external surfaces of a ring at different times, respectively. The former features dozens of radially aligned fine filaments. By contrast, the latter consists of a large number of small spikes. Once the internal jets are fully… 
View on PubMed
drgan.org
14 Citations
Highly Influential Citations
1
Background Citations
3
Methods Citations
1

14 Citations

Citation Type

Citation Type

The onset of shock-induced particle jetting
Morphodynamics of a dense particulate medium under radial explosion.
TLDR
The present work reveals the correlation between the grain-scale physics underpinning the formation of surface instability upon shock loading granular media and the nature of the resulting macro-scale instability patterns.
Shock-induced flow through particle clouds
The formation of jets from a shock-accelerated cylindrical shell of particles, confined in a Hele-Shaw cell, is studied by means of numerical simulation. A number of simulations have been performed,
Mesoscale modeling and direct simulation of explosively dispersed granular materials
Explosively dispersed granular materials frequently exhibit macroscale coherent particle clustering and jetting structures. The underlying mechanism is of significant interest to study instability
Shock-induced interfacial instabilities of granular media
Abstract This paper investigates the shock-induced instability of the interfaces between gases and dense granular media with finite length via the coarse-grained compressible computational fluid
A mesoscale study on explosively dispersed granular material using direct simulation
Explosively dispersed granular materials frequently exhibit coherent particle clustering and jetting structures. Influencing the mass concentration and related particle reaction and energy release,
Numerical investigations of two-phase finger-like instabilities
The mechanism of liquid dispersing from a cylinder driven by central dynamic shock loading
Numerical simulation of compressible fluid-particle flows in multimaterial Lagrangian hydrodynamics framework
Compressible multiphase particle-in-cell method (CMP-PIC) for full pattern flows of gas-particle system
...
1
2
...

References

SHOWING 1-10 OF 26 REFERENCES
External front instabilities induced by a shocked particle ring.
TLDR
The aim of the present investigation is to observe in detail the formation of very thin perturbations created around the external surface of the dispersed particle layer, and finds that the critical area of the destabilization of the external ring surface is constant regardless of the acceleration of the initial layer.
Solid-particle jet formation under shock-wave acceleration.
TLDR
The aim of the present experimental work is to study particle dispersal with fingering effects in an original quasi-two-dimensional experiment facility in order to accurately extract information and highlight that the number of jets is unsteady and decreases with time.
Impulsive dispersion of a granular layer by a weak blast wave
The dispersion of particles by blast or shock waves induces the formation of coherent structures taking the shape of particle jets. In the present study, a blast wave, issued from an open shock tube,
Large-scale spray detonation and related particle jetting instability phenomenon
The detonation performance of a more than 70,000 m$$^3$$3 fuel spray-air cloud is experimentally investigated using dispersal of a 5,090 kg gasoline payload by a central explosive in a cylindrically
Formation mechanism of shock-induced particle jetting.
TLDR
The simulations of the shock dispersal of quasi-two-dimensional particle rings based on the discrete-element method reveal a two-stage development of particle jets before they are expelled from the outer surface.
Formation of particle jetting in a cylindrical shock tube
A dense, solid particle flow is numerically studied at a mesoscale level for a cylindrical shock tube problem. The shock tube consists of a central high pressure gas driver section and an annular
Numerical simulation of particle jet formation induced by shock wave acceleration in a Hele-Shaw cell
The formation of jets from a shock-accelerated cylindrical shell of particles, confined in a Hele-Shaw cell, is studied by means of numerical simulation. A number of simulations have been performed,
Particle jet formation during explosive dispersal of solid particles
Previous experimental studies have shown that when a layer of solid particles is explosively dispersed, the particles often develop a non-uniform spatial distribution. The instabilities within the
Particle segregation during explosive dispersal of binary particle mixtures
The explosive dispersal of a layer of solid particles surrounding a spherical high explosive charge generates a turbulent, multiphase flow. The shock-compacted particle layer typically fractures into
Particle-induced viscous fingering
...
1
2
3
...