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从传统的有损光纤结构的液位传感方法入手,深入研究塑料多模光纤传输过程中的包层模式下的弯曲损耗、受抑全内反射以及光能量耦合机理,在理论上揭示传感器效应的作用机制,从几何光学的理论出发,使用光线追迹方法,进一步模拟宏弯曲光纤内的光线传播路径,光纤受抑全内反射效应的能量变化机制,仿真结果与理论分析一致,搭建实验平台对前述理论分析和仿真模拟结果进行进一步的测试和验证。实验结果表明,该效应相对于传统有损光纤结构方法,可以进行高精度高灵敏度的稳定可靠液位传感测量。 相似文献
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反舰导弹电子对抗能力分析的仿真系统 总被引:4,自引:0,他引:4
反舰导弹的电子对抗能力是影响反舰导弹作战效能的一个重要因素。讨论了反舰导弹电子对抗能力的仿真演示系统的设计过程和系统结构 ,最后实现了该仿真系统 相似文献
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基于BP神经网络的舰炮武器系统综合保障性能评价 总被引:1,自引:1,他引:0
通过对舰炮武器系统的分析,建立舰炮武器系统综合保障性能评价的指标体系。把神经网络的相关知识应用到舰炮武器系统综合保障性能评价中,得到了相应的BP神经网络评价模型。通过一些舰炮武器系统的实例计算,验证了模型的正确性,为舰炮武器系统的研制和改进提供了一定的参考依据。 相似文献
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通信对抗装备的性能越来越强、复杂程度越来越高 ,而维修保障方式和手段的落后制约了装备战斗力的发挥。因此 ,改善装备维修的手段 ,实现装备信息的科学管理就成为一项迫切需要解决的问题。从功能、构成和信息结构、信息管理和软件体系等方面介绍了一个装备维修管理信息系统的设计思想。 相似文献
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Xing-liang Wu Sen Xu Ai-min Pang Wei-guo Cao Da-bin Liu Xin-yu Zhu Fei-yang Xu Xu Wang 《防务技术》2021,17(4):1262-1268
MgH2, TiH2, and ZrH2 are three typical metal hydrides that have been gradually applied to composite explosives and propellants as additives in recent years. To evaluate ignition sensitivity and explosion severity, the Hartmann device and spherical pressure vessel were used to test ignition energy and ex-plosion pressure, respectively. The results showed that the ignition sensitivity of ZrH2, TiH2 and MgH2 gradually increased. When the concentration of MgH2 is 83.0 g/m3 in Hartmann device, the ignition energy attained a minimum of 10.0 mJ. The explosion pressure of MgH2 were 1.44 times and 1.76 times that of TiH2 and ZrH2, respectively, and the explosion pressure rising rate were 3.97 times and 9.96 times that of TiH2 and ZrH2, respectively, through the spherical pressure vessel. It indicated that the reaction reactivity and reaction rate of MgH2 were higher than that of TiH2 and ZrH2. In addition, to conduct in-depth theoretical analysis of ignition sensitivity and explosion severity, gas production and combus-tion heat per unit mass of ZrH2, TiH2 and MgH2 were tested by mercury manometer and oxygen bomb calorimetry. The experimental results revealed that MgH2 had a relatively high gas production per unit mass (5.15 mL/g), while TiH2 and ZrH2 both had a gas production of less than 2.0 mL/g. Their thermal stability gradually increased, leading to a gradual increase in ignition energy. Furthermore, compared with theoretical combustion heat, the combustion ratio of MgH2, TiH2 and ZrH2 was more than 96.0%, with combustion heat value of 29.96, 20.94 and 12.22 MJ/kg, respectively, which was consistent with the explosion pressure and explosion severity test results. 相似文献