Add to ORKGThe deflagration behavior of thermally damaged HMX-based materials will be discussed. Strands of material were burned at pressures ranging from 10-300 MPa using the LLNL high pressure strand burner. Strands were heated in-situ and burned while still hot; temperatures range from 90-200 C and were chosen in order to allow for thermal damage of the material without significant decomposition of the HMX. The results indicate that multiple variables affect the burn rate but the most important are the polymorph of HMX and the nature and thermal stability of the non-HE portion of the material. Characterization of the strands indicate that the thermal soak produces significant porosity and permeability in the sample allowing for significantly faster...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
RM-04-BR, a mock material for the plastic-bonded HMX-based explosive LX-04, is characterized after b...
We recently conducted damaged experiments on three explosives (mechanical damage on LX-04 and therma...
We measure the Laminar burn rates of explosives at extreme conditions (up to 520K and 1 GPa) in a hy...
PBXN-9, an HMX-formulation, is thermally damaged and thermally decomposed in order to determine the ...
The ignition kinetics and deflagration rates of PBXN-9 were measured using specially designed instru...
High pressure deflagration rate measurements of a unique ammonium perchlorate (AP) based propellant ...
Initially undamaged polymer-bonded explosives can transition from conductive burning to more violent...
We report progress of a continuing effort to characterize and simulate the response of energetic mat...
The violence of thermal explosions with energetic materials is affected by many material properties,...
The thermal decomposition of HMX between 175 and 200{degree}C has been studied using the simultaneou...
Thermal decomposition of HMX between 175C and 200C was studied using the simultaneous thermogravimet...
The computing power now available has led researchers to reconsider mesoscale simulations as a means...
Thermal damage experiments were conducted on LX-04, LX-10, and LX-17 at high temperatures. Both pris...
We report the deflagration behavior of PBX 9501 at pressures up to 300 MPa and temperatures of 150-1...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
RM-04-BR, a mock material for the plastic-bonded HMX-based explosive LX-04, is characterized after b...
We recently conducted damaged experiments on three explosives (mechanical damage on LX-04 and therma...
We measure the Laminar burn rates of explosives at extreme conditions (up to 520K and 1 GPa) in a hy...
PBXN-9, an HMX-formulation, is thermally damaged and thermally decomposed in order to determine the ...
The ignition kinetics and deflagration rates of PBXN-9 were measured using specially designed instru...
High pressure deflagration rate measurements of a unique ammonium perchlorate (AP) based propellant ...
Initially undamaged polymer-bonded explosives can transition from conductive burning to more violent...
We report progress of a continuing effort to characterize and simulate the response of energetic mat...
The violence of thermal explosions with energetic materials is affected by many material properties,...
The thermal decomposition of HMX between 175 and 200{degree}C has been studied using the simultaneou...
Thermal decomposition of HMX between 175C and 200C was studied using the simultaneous thermogravimet...
The computing power now available has led researchers to reconsider mesoscale simulations as a means...
Thermal damage experiments were conducted on LX-04, LX-10, and LX-17 at high temperatures. Both pris...
We report the deflagration behavior of PBX 9501 at pressures up to 300 MPa and temperatures of 150-1...
Mechanical insults of granular high explosives (HE) can result in localized areas of elevated temper...
RM-04-BR, a mock material for the plastic-bonded HMX-based explosive LX-04, is characterized after b...
We recently conducted damaged experiments on three explosives (mechanical damage on LX-04 and therma...