摘要
随着在现代高科技战场上光电武器作用的日益突出,作为无源光电对抗技术的主要手段之一的烟幕干扰技术自然就成为国内外研究的热门课题。文章简要介绍了几种燃烧型有机类红外干扰发烟剂通过燃烧在烟箱内形成的气溶胶烟幕对8μm~14μm波段中远红外辐射衰减性能的研究,并给出了进行研究的理论依据和部分实验结果。实验证明该类燃烧型红外干扰发烟剂形成的烟幕对中远红外辐射具有显著的衰减能力,能够有效的干扰工作在该波段的红外侦察、探测、制导武器的正常使用,降低其战场效能和战场杀伤力。
With the photoelectric weapon playing a more important role in modem high technology battlefield, the smoke interference technology, which is a primary means of in photoelectric counterworking technology without a source, certainly becomes the warm researching subject throughout the whole world. The article mainly researches the attenuation performance of several aerosol smoke screens against the 8~14 micron wave band of infrared radiation, wherein the aerosol smoke screens are formed in smoke box by burning burnable organic smoke agent interfered with infrared, and gives the dependent theory and experiment result. The experiments have proved that the smoke screen formed by this kind of smoke agent can obvious weaken the middle and far infrared radiation, and the smoke screen can effectively interferes with the normal using of infrared spying, exploring, and guiding weapons which work in this band, so as to decrease the efficiency and execution of these weapons in the battlefield.
出处
《红外技术》
CSCD
北大核心
2006年第2期116-119,共4页
Infrared Technology
关键词
红外干扰烟幕
燃烧型
有机类
干扰性能
smoke interfered with infrared, burning
organic
interference performance