For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ratio between the increase of thermal energy and increase of total internal energy, as well as the mean final temperature after release of adiabatic pressure. Further, the change of pressure, specific volume, and the internal energy behind the shock wave are calculated together with the shock-wave velocity. All these variables are supposed to depend exclusively on flyer plate velocity, initial powder density, and initial powder temperature. The ratio between the increase of thermal energy and increase of total internal energy decreases rapidly upon decreasing initial powder density, resulting in a higher shock temperature and a lower shock pr...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A simple analytical model is developed for the shock Hugoniot of a powdered material. Previous model...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
A physically based model for the shock Hugoniot of a powdered material is described which allows sep...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
For powder materials a model is proposed to predict the mean temperature behind the shock wave, the ...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A model is proposed to predict the following quantities for powder materials compacted by shock wave...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A simple analytical model is developed for the shock Hugoniot of a powdered material. Previous model...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
A physically based model for the shock Hugoniot of a powdered material is described which allows sep...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...
A novel approach is presented to predict the shock wave velocity as well as the shock wave pressure ...