多功能复合诱饵剂技术研究

【作者】 王述剑；

【导师】 潘功配；

【作者基本信息】 南京理工大学 ， 军事化学与烟火技术， 2003， 硕士

【摘要】 为对抗红外制导和雷达(电磁)制导于一体复合制导武器的出现，该论文开展一种新型多功能复合诱饵剂的制备工艺及其性能测试方面的研究。在诱饵剂的制备方面：首先选用硝基纤维素片作为复合诱饵剂的基片，实施化学镀银和化学镀铜实现了复合诱饵剂的制备。在此基础上开展化学镀的各步工艺条件的研究，摸索出一套化学镀银和化学镀铜的各步工艺条件和配方配比。该文还重点分析了影响镀层导电性的因素；确定了镀银层厚度大致范围在0.2μm～0.5μm；通过差热试验，证实了镀层金属与基片是完全相容的性质。在复合诱饵剂的性能测试方面：对制备出的复合诱饵剂燃烧时的红外辐射展开研究，发现了复合诱饵剂的红外辐射能量比基片的红外辐射能量有很大的增加；开展了对3mm、8mm波段毫米波雷达的透射与反射性能试验，证明了该诱饵剂干扰雷达波是可行的。更多还原

【Abstract】 This paper is on the research of a new multifunctional decoy composition, which can counterwork the weapons guided by infrared and radar (electromagnetic). The research on the preparation of the complex decoy is detailed below. Firstly, the complex decoy is prepared by the means of electroless chemical silver plating and copper plating on the surface of nitrocellulose substrate. The technological steps and conditions of chemical silver plating and copper plating are researched systematically. The effect factors that can affect the conductivity of the plating layer are all analyzed specially. The thickness of the silver plating layer is in the range of 0.2 m~0.5 m . Through DTA, it is proved that the metal plating layer is compatible with the substrate very well. The research on the testing of the complex decoy’s properties is detailed below. Through measuring the value of infrared radiation when the complex decoy is burning, it is concluded that the complex decoy’s energy of infrared radiation is much more than the substrate’s. Through researching the performance of microwave radar’s transmission and refection within the band of 3mm and 8mm, it is proved that the interference with radar is feasible.更多还原