We present our approach to develop a predictive capability for hazards -- thermal and non-shock impact -- response of energetic material systems based on: (A) identification of relevant processes; (B) characterization of the relevant properties; (C) application of property data to predictive models; and (D) application of the models into predictive simulation. This paper focuses on the first two elements above, while a companion paper by Nichols et al focuses on the final two elements. We outline the underlying mechanisms of hazards response and their interactions, and present our experimental work to characterize the necessary material parameters, including thermal ignition, thermal and mechanical properties, fracture/fragmentation behavio...
The TNO Prins Maurits Laboratory, has conducted research in energetic material response to several I...
An overview of cookoff modeling at Sandia National Laboratories is presented aimed at assessing the ...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
We present our approach to develop a predictive capability for hazards--thermal and nonshock impact-...
We have improved our ability to model the response of energetic materials to thermal stimuli and the...
Advances in experimental, high-speed techniques can be used to explore the processes occurring withi...
The authors have improved their ability to model the response of energetic materials to thermal stim...
A summary of multidimensional modeling is presented which describes coupled thermals chemical and me...
The cookoff of energetic materials involves the combined effects of several physical and chemical pr...
Energetic materials encompass a wide range of chemical compounds all associated with a significant r...
An overview of modeling at Sandia National Laboratories is presented which describes coupled thermal...
An approach is developed to predict the ignition sensitivity of heterogeneous energetic materials un...
Munition articles may be sensitive to case-crushing loading. This is a potential safety hazard since...
Thermal damage experiments were conducted on LX-04, LX-10, and LX-17 at high temperatures. Both pris...
The violence of thermal explosions with energetic materials is affected by many material properties,...
The TNO Prins Maurits Laboratory, has conducted research in energetic material response to several I...
An overview of cookoff modeling at Sandia National Laboratories is presented aimed at assessing the ...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
We present our approach to develop a predictive capability for hazards--thermal and nonshock impact-...
We have improved our ability to model the response of energetic materials to thermal stimuli and the...
Advances in experimental, high-speed techniques can be used to explore the processes occurring withi...
The authors have improved their ability to model the response of energetic materials to thermal stim...
A summary of multidimensional modeling is presented which describes coupled thermals chemical and me...
The cookoff of energetic materials involves the combined effects of several physical and chemical pr...
Energetic materials encompass a wide range of chemical compounds all associated with a significant r...
An overview of modeling at Sandia National Laboratories is presented which describes coupled thermal...
An approach is developed to predict the ignition sensitivity of heterogeneous energetic materials un...
Munition articles may be sensitive to case-crushing loading. This is a potential safety hazard since...
Thermal damage experiments were conducted on LX-04, LX-10, and LX-17 at high temperatures. Both pris...
The violence of thermal explosions with energetic materials is affected by many material properties,...
The TNO Prins Maurits Laboratory, has conducted research in energetic material response to several I...
An overview of cookoff modeling at Sandia National Laboratories is presented aimed at assessing the ...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...