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铝化炸药
相关语句
  aluminized explosive
     Characteristic Analysis of Shock Wave for Underwater Explosion of Aluminized Explosive
     铝化炸药水下爆炸冲击波特性分析
短句来源
     The Energetic Binders Effect on the Energy of Explosion for Aluminized Explosive
     含能粘结剂对铝化炸药爆炸能量的影响
     Using the one-dimensional hydrodynamics code and the time-dependent JWL EOS, using a pressure exponent of 1/6 in the pressure-dependent rate law, this paper calculates the relationships between characteristic parameters of shock wave and reaction rate for underwater explosion of aluminized explosive.
     采用一维流体动力学、与时间相关的JWL爆轰产物状态方程以及压力指数为 1 /6的反应速率方程,计算分析了铝化炸药水下爆炸冲击波特征参数对反应速率的依赖关系。
短句来源
     This paper evaluated that several kinds of the energetic binder have an effect on the energy of explosion for aluminized explosive.
     计算了几种含能热塑性弹性体粘结剂对铝化炸药爆炸能量的影响。
     As a result, the density and oxygen balance of energetic binder was the primary factor effecting the energy and energy density of aluminized explosive. The BAMO/PGN, which possess high-density and high oxygen balance, advance evidently the energy of underwater explosion of the aluminized explosive.
     结果表明,含能粘结剂的密度和氧平衡值是影响铝化炸药化学能的主要因素,高密度、高氧平衡值的BAMO/PGN粘结剂可明显地提高铝化炸药水下爆炸的能量水平。
  相似匹配句对
     Characteristic Analysis of Shock Wave for Underwater Explosion of Aluminized Explosive
     铝化炸药水下爆炸冲击波特性分析
短句来源
     Emulsified Explosives
     乳化炸药
短句来源
     The Energetic Binders Effect on the Energy of Explosion for Aluminized Explosive
     含能粘结剂对铝化炸药爆炸能量的影响
     PLASTIC SHEET EXPLOSIVE
     塑料板状炸药
短句来源
     Alumination of Zeolite β
     β沸石的铝化
短句来源
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Using the one-dimensional hydrodynamics code and the time-dependent JWL EOS, using a pressure exponent of 1/6 in the pressure-dependent rate law, this paper calculates the relationships between characteristic parameters of shock wave and reaction rate for underwater explosion of aluminized explosive. The results show that there is a critical value in the rate constants,and that the blasting energy can be used efficiently only if the rate constant is larger than the critical value. In the view of the relationships...

Using the one-dimensional hydrodynamics code and the time-dependent JWL EOS, using a pressure exponent of 1/6 in the pressure-dependent rate law, this paper calculates the relationships between characteristic parameters of shock wave and reaction rate for underwater explosion of aluminized explosive. The results show that there is a critical value in the rate constants,and that the blasting energy can be used efficiently only if the rate constant is larger than the critical value. In the view of the relationships between aluminum size and the constant, we can design different energy output characteristics through dominating aluminum size.

采用一维流体动力学、与时间相关的JWL爆轰产物状态方程以及压力指数为 1 /6的反应速率方程,计算分析了铝化炸药水下爆炸冲击波特征参数对反应速率的依赖关系。结果表明,反应速率常数存在阈值,只有反应速率足够大,才能充分利用爆炸能量。根据铝粉粒度与反应速率常数的相关性,通过控制铝粉粒度可以设计不同的能量输出特性。

>=This paper evaluated that several kinds of the energetic binder have an effect on the energy of explosion for aluminized explosive. As a result, the density and oxygen balance of energetic binder was the primary factor effecting the energy and energy density of aluminized explosive. The BAMO/PGN, which possess high-density and high oxygen balance, advance evidently the energy of underwater explosion of the aluminized explosive.

计算了几种含能热塑性弹性体粘结剂对铝化炸药爆炸能量的影响。结果表明,含能粘结剂的密度和氧平衡值是影响铝化炸药化学能的主要因素,高密度、高氧平衡值的BAMO/PGN粘结剂可明显地提高铝化炸药水下爆炸的能量水平。

 
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