排序方式: 共有15条查询结果,搜索用时 0 毫秒
1.
黑索今基含铝炸药烤燃实验和数值模拟 总被引:1,自引:0,他引:1
含铝(Al)炸药在烤燃过程中,Al粉会改变炸药内部传热机制从而影响炸药热反应,因此需要研究含Al炸药热反应特征。采用多点测温烤燃法,对压装黑索今(RDX)/石蜡(WAX)(96/4)炸药进行了烤燃实验,获得了炸药内部不同位置处温度变化;结合数值模拟计算,标定了RDX炸药反应动力学模型参数;分别采用多点测温烤燃法和烤燃弹法,对压装RDX/Al/Binder(60/31/9)和熔铸梯恩梯(TNT)/RDX/Al(60/24/16)两种含Al炸药进行了烤燃实验,获得了炸药内部温度变化及点火时间。建立含Al炸药热反应计算模型,计算分析了炸药热反应特征。对RDX/Al/Binder考虑了Al粉的吸热和热传导;对TNT/RDX/Al考虑了相变及多步热分解反应,并采用多组元网格单元计算法同时考虑Al粉的吸热;对炸药烤燃实验进行了数值模拟计算,通过与实验结果比较验证了计算结果的准确性。研究结果表明:Al粉的加入会加快压装RDX/Al/Binder(60/31/9)含Al炸药内部的传热速率,缩短其点火时间,降低炸药热安全性;Al粉的加入对铸装TNT/RDX/Al(60/24/16)含Al炸药的传热过程没有显著影响。 相似文献
2.
3.
4.
5.
6.
7.
为了研究飞秒激光加工炸药技术的安全性,建立了飞秒激光脉冲序列加工炸药的计算模型,考虑了炸药在受热条件下的自热反应。采用数值计算的方法对飞秒激光脉冲序列烧蚀炸药(TNT,TATB和HMX)的过程进行了计算,分析了飞秒激光脉冲序列加工炸药过程的安全性。计算结果表明,飞秒激光脉冲序列频率、炸药自热反应放热量和热扩散系数会显著影响加工过程的安全性。在这三种炸药中,HMX自热反应的放热量最大,热扩散系数最小,因此热累积效应最明显,在三种不同频率(1×103Hz,1×105Hz和2×105Hz)的飞秒激光脉冲序列作用下均发生了点火;相反,TATB的热累积效应最弱,在三种不同频率的飞秒激光脉冲序列作用下均未发生点火;TNT的热累积效应介于HMX和TATB之间,因此只在频率较高的飞秒激光脉冲序列作用下才发生点火。在实际加工过程中,特别是对自热反应放热量较大和热扩散系数较小的炸药,为保证加工过程的安全性,应尽量选用频率较低的飞秒激光脉冲序列对其进行加工。 相似文献
8.
9.
10.
To improve the energy utilization efficiency of metal bridge foil explosion, and increase the function range of plasmas, array bridge foil explosion experiments with different structures were performed. A Schlieren photographic measurement system with a double-pulse laser source was used to observe the flow field of a bridge foil explosion. The evolution laws of plasmas and shock waves generated by array bridge foil explosions of different structures were analyzed and compared. A multi-phase flow calculation model was established to simulate the electrical exploding process of a metal bridge foil. The plasma equation of state was determined by considering the effect of the changing number of particles and Coulomb interaction on the pressure and internal energy. The ionization degree of the plasma was calculated via the Saha–Eggert equation assuming conditions of local thermal equilibrium. The exploding process of array bridge foils was simulated, and the superposition processes of plasma beams were analyzed. The variation and distribution laws of the density, temperature, pressure, and other important parameters were obtained. The results show that the array bridge foil has a larger plasma jet diameter than the single bridge foil for an equal total area of the bridge foil. We also found that the temperature, pressure, and density of the plasma jet's center region sharply increase because of the superposition of plasma beams. 相似文献