Effects of nano-sized aluminum on detonation characteristics and metal acceleration for RDX-based aluminized explosive

Nano-sized aluminum(Nano-Al)powders hold promise in enhancing the total energy of explosives and the metal acceleration ability at the same time.However,the near-detonation zone effects of reaction between Nano-Al with detonation products remain unclear.In this study,the overall reaction process of 170 nm Al with RDX explosive and its effect on detonation characteristics,detonation reaction zone,and the metal acceleration ability were comprehensively investigated through a variety of experiments such as the detonation velocity test,detonation pressure test,explosive/window interface velocity test and confined plate push test using high-resolution laser interferometry.Lithium fluoride(LiF),which has an inert behavior during the explosion,was used as a control to compare the contribution of the reaction of aluminum.A thermochemical approach that took into account the reactivity of aluminum and ensuing detonation products was adopted to calculate the additional energy release by afterburn.Combining the numerical simulations based on the calculated afterburn energy and experimental results,the param-eters in the detonation equation of state describing the Nano-Al reaction characteristics were calibrated.This study found that when the 170 nm Al content is from 0％to 15％,every 5％increase of aluminum resulted in about a 1.3％decrease in detonation velocity.Manganin pressure gauge measurement showed no significant enhancement in detonation pressure.The detonation reaction time and reaction zone length of RDX/Al/wax/80/15/5 explosive is 64 ns and 0.47 mm,which is respectively 14％and 8％higher than that of RDX/wax/95/5 explosive(57 ns and 0.39 mm).Explosive/window interface velocity curves show that 170 nm Al mainly reacted with the RDX detonation products after the detonation front.For the recording time of about 10 μs throughout the plate push test duration,the maximum plate velocity and plate acceleration time accelerated by RDX/Al/wax/80/15/5 explosive is 12％and 2.9 μs higher than that of RDX/LiF/wax/80/15/5,respectively,indicating that the aluminum reaction energy significantly increased the metal acceleration time and ability of the explosive.Numerical simulations with JWLM explosive equation of state show that when the detonation products expanded to 2 times the initial volume,over 80％of the aluminum had reacted,implying very high reactivity.These results are significant in attaining a clear understanding of the reaction mechanism of Nano-Al in the development of aluminized explosives.     

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在传统的GPS/INS紧耦合组合导航系统中,由于伪距和多普勒频移误差的存在,系统存在一定的误差偏移。针对这种误差偏移,设计了一种联邦卡尔曼滤波组合导航算法,该算法采用二级卡尔曼滤波器,将卫星接收模块解算出的伪距信息和多普勒频移信息在第一级卡尔曼滤波后,与INS模块结算出的信息进行修正处理,再通过主滤波器得到紧耦合算法的INS解算结果校正量和定位位置最优估计。通过计算机仿真结果分析表明,该方法相对于传统的紧耦合组合导航算法可以有效减小误差,具有一定的理论价值和实用价值。     

现代战争的神经中枢C4KISR系统

C4KISR系统在现代战争中起着力量倍增器的作用,是提高军队整体作战效能的有效途径.通过对C4KISR系统的基本内容、发展现状的描述,结合实例进行了分析,并对发展趋势进行了展望.使其在作战中有效打击敌方隐藏的目标和日益增多的特殊目标.     

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根据某工程的应力监测结果和ANSYS计算结果,就抗滑短桩与桩周土共同作用进行探讨,得出了两点认识：第一,考虑桩土接触带贡献作用和桩-土共同工作是更趋于实际情况的,也是更经济合理的;考虑比不考虑桩土接触带的贡献,作用在抗滑短桩上的剩余水平下滑力约小10%。第二,接触带采用合适的弹性模量和厚度进行计算的结果与监测结果相当接近(相差≯5%)。     

固体火箭发动机复合材料壳体裙黏接性能分析

采用数值计算方法研究复合材料壳体裙连接结构的黏接性能。通过建立纤维缠绕壳体的有限元模型,采用内聚力模型定义裙黏接面的接触关系,引入黏接界面的损伤失效准则,模拟黏接界面的脱黏行为,以此预测裙连接结构的极限承载。同时,研究壳体的轴向和环向应变及黏接面上的剪应力分布情况,以及弹性层的弹性模量与黏接长度对黏接性能的影响。数值算例表明,计算结果与实验数据相吻合,验证了该方法的正确性。所提方法可用于裙连接结构的优化设计中。     

电场引信的动作判据分析

讨论了海洋船舶交变电场衰减的基本特征.根据海洋对不同频率电场信号的穿透深度不一样的原理,分析推导了电场引信点火动作的判决依据.引信设计时选择不同的频率信号进行处理,使用电场模量门限、电场上升斜率、不同频率电场上升斜率比及其组合等参数可以简便地控制电场引信,使电场引信具有良好的动作区域性.     

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