The mesoscopic structure of energetic materials (EMs) greatly determines their response during ignition
We report progress of a continuing effort to characterize and simulate the response of energetic mat...
New explosive materials (EMs) are the key to great advances in microscale energy-demanding systems a...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
International audienceNew energetic materials (EMs) are the key to great advances in microscale ener...
New explosive materials (EMs) are the key to great advances in microscale energydemanding systems as...
Energetic materials (EMs) release considerable energy during their decomposition. For this reason, w...
An approach is developed to predict the ignition sensitivity of heterogeneous energetic materials un...
Several problems of ignition of energetic materials (EMs), which are able to burn in the absence of ...
Solid propellants are a class of energetic (combustible) materials that undergo a rapid exothermic c...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
It has long been known that various ignition criteria of energetic materials have been limited in ap...
Energetic Materials are explosive agents that generate large amounts of hot gases by an exothermic r...
High explosives release mechanical energy through chemical reactions. Applications of high explosive...
Stimulation and propagation of an energetic material to a catastrophic explosive event could be desc...
Results of experiments designed to characterize the pressure-time response of heated, confined energ...
We report progress of a continuing effort to characterize and simulate the response of energetic mat...
New explosive materials (EMs) are the key to great advances in microscale energy-demanding systems a...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
International audienceNew energetic materials (EMs) are the key to great advances in microscale ener...
New explosive materials (EMs) are the key to great advances in microscale energydemanding systems as...
Energetic materials (EMs) release considerable energy during their decomposition. For this reason, w...
An approach is developed to predict the ignition sensitivity of heterogeneous energetic materials un...
Several problems of ignition of energetic materials (EMs), which are able to burn in the absence of ...
Solid propellants are a class of energetic (combustible) materials that undergo a rapid exothermic c...
Energetic materials, such as high explosives, propellants and ballotechnics, are widely used as ener...
It has long been known that various ignition criteria of energetic materials have been limited in ap...
Energetic Materials are explosive agents that generate large amounts of hot gases by an exothermic r...
High explosives release mechanical energy through chemical reactions. Applications of high explosive...
Stimulation and propagation of an energetic material to a catastrophic explosive event could be desc...
Results of experiments designed to characterize the pressure-time response of heated, confined energ...
We report progress of a continuing effort to characterize and simulate the response of energetic mat...
New explosive materials (EMs) are the key to great advances in microscale energy-demanding systems a...
In this work, the mesoscale processes of consolidation, deformation and reaction of shocked porous e...
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