L. Donahue scite author profile

L. Donahue

5Publications

48Citation Statements Received

7Citation Statements Given

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Martec (Canada)

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Jetting instabilities of particles from explosive dispersal

Ripley¹,

Donahue²,

Zhang³

2012

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Abstract. The formation of post-detonation 'particle' jets is widely observed in many problems associated with particle dispersal from explosives. This paper analyzes experimental observations to examine the mechanism for formation and growth of such particle jetting instabilities, and to propose a model to address the issues of jetting growth at a macroscopic level. The experiments involve cylindrical charges with a range of central explosive masses for dispersal of dry solid powder, pure liquid, or a hybrid mixture of solid powder and liquid. The results demonstrate that the jets form very early, and that the number of jets is dependent on shock pressure at the charge perimeter, within the range of particle sizes studied. The jetting instabilities may therefore be initiated by shock interaction with the dense solid particle interfaces near the charge surface, followed by early jet growth through transverse particle motion from the interaction of shocked and turbulent wake flow around the particles. From the experiments, a macroscopic model is proposed, in which an edge perturbation on a scale proportional to the number of jets as a function of shock pressure is employed, and the subsequent transverse particle motion is controlled by an attraction function. The model is implemented in the Chinook hydrocode, which is capable of modeling the initiation and growth of particle jetting structures in large-scale dispersal, and the results are validated against experiments.

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Numerical models for afterburning of TNT detonation products in air

2013

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Fragmentation of metal particles during heterogeneous explosion

2015

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Structure of Conical Oblique Detonation Waves

Harris¹,

Farinaccio²,

Stowe³

et al. 2008

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Cylindrical Explosive Dispersal of Metal Particles

Donahue¹,

Ripley²,

Horie³

et al. 2008

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L. Donahue

Jetting instabilities of particles from explosive dispersal

Numerical models for afterburning of TNT detonation products in air

Fragmentation of metal particles during heterogeneous explosion

Structure of Conical Oblique Detonation Waves

Cylindrical Explosive Dispersal of Metal Particles

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