Add to ORKGMesoscale models are needed to predict the effect of changes to the microstructure of plastic-bonded explosives on their shock initiation and detonation behaviour. This thesis describes the considerable progress that has been made towards a mesoscale model for two HMX-based explosives PBX9501 and EDC37. In common with previous work in the literature, the model is implemented in hydrocodes that have been designed for shock physics and detonation modelling. Two relevant physics effects, heat conduction and Arrhenius chemistry, are added to a one-dimensional Lagrangian hydrocode and correction factors are identified to improve total energy conservation. Material models are constructed for the HMX crystals and polymer binders in the explosives,...
Shock initiation experiments on the heated PBX9501 explosive (95% HMX, 2.5% estane, and 2.5% nitro-p...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
This thesis is focused on the shock to detonation transition of aluminized plastic bonded high explo...
Mesoscale models are needed to predict the effect of changes to the microstructure of plastic-bonded...
Hydrocode calculations we used to simulate initiation in single- and double-shock experiments on sev...
We have used a two-dimensional Eulerian hydrocode to explore the utility of various micro-mechanical...
Experimentally investigating the shock initiation of explosives is difficult because of the violence...
The violence of thermal explosions with energetic materials is affected by many material properties,...
Fortuitous exposure to high temperatures initiates reaction in energetic materials and possibilities...
The ignition sensitivity of heterogeneous energetic materials subject to shock loading is analyzed u...
Polymer bonded explosives (PBXs) consist of energetic material (EM) crystals embedded inside a polym...
The authors compare two-dimensional model results with measurements for the thermal, chemical and me...
The computing power now available has led researchers to reconsider mesoscale simulations as a means...
A series of experiments have been performed to probe the mechanical response of two HMX based plasti...
This dissertation explores the shock compression of solid state explosives by thin, laser-driven fly...
Shock initiation experiments on the heated PBX9501 explosive (95% HMX, 2.5% estane, and 2.5% nitro-p...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
This thesis is focused on the shock to detonation transition of aluminized plastic bonded high explo...
Mesoscale models are needed to predict the effect of changes to the microstructure of plastic-bonded...
Hydrocode calculations we used to simulate initiation in single- and double-shock experiments on sev...
We have used a two-dimensional Eulerian hydrocode to explore the utility of various micro-mechanical...
Experimentally investigating the shock initiation of explosives is difficult because of the violence...
The violence of thermal explosions with energetic materials is affected by many material properties,...
Fortuitous exposure to high temperatures initiates reaction in energetic materials and possibilities...
The ignition sensitivity of heterogeneous energetic materials subject to shock loading is analyzed u...
Polymer bonded explosives (PBXs) consist of energetic material (EM) crystals embedded inside a polym...
The authors compare two-dimensional model results with measurements for the thermal, chemical and me...
The computing power now available has led researchers to reconsider mesoscale simulations as a means...
A series of experiments have been performed to probe the mechanical response of two HMX based plasti...
This dissertation explores the shock compression of solid state explosives by thin, laser-driven fly...
Shock initiation experiments on the heated PBX9501 explosive (95% HMX, 2.5% estane, and 2.5% nitro-p...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
This thesis is focused on the shock to detonation transition of aluminized plastic bonded high explo...