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Dielectric characterization and microwave interferometry in HMX-based explosives
[摘要] Microwave interferometry is a useful technique for understanding the development and propagation of detonation waves. The velocity of the front can be determined directly with the dielectric constant of the explosive and the instantaneous phase difference of the reflected microwave signal from the detonation front. However, the dielectric constant of HMX-based explosives has been measured only over a small range of wavelengths. Here we employ an open-ended coaxial probe to determine the complex dielectric constant for LX-10 and other HMX-based explosives over the 5-20 GHz range. The propagation of a detonation wave in a lightly-confined cylindrical charge geometry is described where the microwave-reflective properties of the detonation front are characterized with a waveguide. For comparison, piezoelectric pins were used to measure the detonation velocity and indirectly estimate the dielectric constant of LX-10 at 26.5 GHz. Future work in this area will also be discussed.
[发布日期]  [发布机构] Lawrence Livermore National Laboratory, Livermore; CA; 94550, United States^1
[效力级别]  [学科分类] 
[关键词] Complex dielectric constant;Cylindrical charges;Detonation velocity;Dielectric characterization;Instantaneous phase;Microwave interferometries;Open-ended coaxial probe;Reflective properties [时效性] 
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