| [1] | Briere P S, Michel S O, Roy A, et al. Nozzles for pyrotechnic IR decoy flares:US, 5866840[P]. 1999. |
| [2] | Rbernard D, Douda E. Survey of military pyroteclnics[R]. CRANE:Naval Weapons Support Center Ordnance Engineering Department, 1991. |
| [3] | Lin Hongxue, Zhu Chenguang, Li Min, et al. Performance of radiation on film-type infrared flare with[J]. Infrared and Laser Engineering, 2014, 43(10):3193-3198. (in Chinese)林红雪, 朱晨光, 李敏, 等. 薄膜型低燃温红外诱饵的辐射性能研究[J]. 红外与激光工程, 2014, 43(10):3193-3198. |
| [4] | Lin Tao, LI Kuo. Research on a model of distributed surface type infrared decoy[J]. Electro-optic Technology Application, 2007, 22(1):72-74. (in Chinese)林涛, 李阔. 分布式面源型红外诱饵建模研究[J]. 光电技术应用, 2007, 22(1):72-74. |
| [5] | Lin Hongxue, Zhu Chenguang, Jiang Xiaonan, et al. Study on the design of low-temperature infrared decoy and its combustion properties[J]. Infrared Technology, 2013, 35(10):654-658. (in Chinese)林红雪, 朱晨光, 江枭南, 等. 低燃温红外诱饵剂设计及其燃烧性能研究[J]. 红外技术, 2013, 35(10):654-658. |
| [6] | Brire Paul, St-onge Michel, Roy Andr. Nozzles for pyrotechnic IR decoy flares[P]. U.S Patent, 5565645, 1999-02-02. |
| [7] | Ernst-Christian Koch. Pyrotechnic countermeasures:II. advanced aerial infrared countermeasures[J]. Propellants, Explosive, Pyrotechnics, 2006, 31(1):3-19. |
| [8] | Ren Xiaoxue, Chen Chunfang, Fan Xiping, et al. The research progress of nanometer energetic materials[J]. Winged Missiles Journal, 2013(5):80-83. (in Chinese)任晓雪, 陈春芳, 范夕萍, 等. 国外纳米含能材料技术研究进展[J]. 飞航导弹, 2013(5):80-83. |
| [9] | China Association for Science and Technology. 2012-2013 Report on Advances in Ordnance Science and Technology[M]. Beijing:China science Technology Press, 2014. (in Chinese)中国科学技术协会. 2012-2013兵器科学技术学科发展报告(含能材料)[M]. 北京:中国科学技术出版社, 2014. |
| [10] | Speight James G. Lange's Handbook of Chemistry (16 Edition)[M]. New York:McGraw-Hill, Inc, 2005. |
| [11] | Zhu Chenguang, Wang Haizhen, Min Li. Ignition temperature of magnesium powder and pyrotechnic composition[J]. Journal of Energetic Materials, 2014, 32(3):219-226. |