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high explosives
The convective combustion of porous gunpowder and high explosives is an intermediate stage in the transition from layered combustion to detonation [1, 2].
      
A study is made of one-dimensional nonstationary problems of the combustion and detonation of aerosuspensions of unitary fuels or propellants, which contain the oxidant as well as the combustible material (gunpowder, high explosives).
      
The structure of detonation waves in air suspensions of unitary fuels (fuels containing an oxidant such as gunpowder and high explosives) is investigated.
      
An improved method for measuring the electric conductivity profile behind the detonation front in dense high explosives has been developed, which provides for a spatial resolution better than 0.1 mm.
      
A mechanism of the initiation of hotspots in heterogeneous solid high explosives was considered.
      
Electroconductivity profiles in dense high explosives
      
A method for measuring the electroconductivity profiles behind the detonation front in dense solid high explosives with a resolution of 0.1 mm was developed.
      
It is shown that there is a special temperature structure of the shock relaxation in multiphase reactive media different from that of a detonation in condensed high explosives.
      
On the effect of grain size on shock sensitivity of heterogeneous high explosives
      
Meshfree particle simulation of the detonation process for high explosives in shaped charge unlined cavity configurations
      
The method of decomposition has been found safe even for 1 g samples of high explosives.
      
Applications relevant to trace analysis, environmental monitoring, and homeland security and defense, for example high explosives and contaminant detection, are emphasized.
      
The oxygen flask technique applied to high explosives
      
High explosives having the sameRf values on a thin-layer chromatogram and difficult to separate are readily resolved as their coloured π-complexes with aromatic amines.
      
We present an overview of models and computational strategies for simulating the thermal response of high explosives using a multi-physics hydrodynamics code, ALE3D.
      
All practical high explosives contain 20% or more of nitrogen, which has a thermal neutron cross section of 75 mbarn, producing γ's of up to 10.8 MeV.
      
The heats of detonation of 20 simple high explosives and explosive mixtures were determined by means of an adiabatic detonation calorimeter designed by the authors.
      
Animals positioned inside structures were exposed to a variety of 'atypical' blast waves, whereas those located inside shock tubes or in the open, when high explosives were detonated, were exposed to fairly 'typical' wave forms.
      
Electrical method for surface excitation of high explosives
      
Electrical effects in shock compression and detonation of liquid high explosives
      
 

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