Lin Hongxue, Zhu Chenguang, Li Min, Wang Haizhen. Performance of radiation on film-type infrared flare with low-temperature combustion[J]. Infrared and Laser Engineering, 2014, 43(10): 3193-3198.
| Citation:
|
Lin Hongxue, Zhu Chenguang, Li Min, Wang Haizhen. Performance of radiation on film-type infrared flare with low-temperature combustion[J]. Infrared and Laser Engineering, 2014, 43(10): 3193-3198.
|
Performance of radiation on film-type infrared flare with low-temperature combustion
- Received Date: 2014-02-05
- Rev Recd Date:
2014-03-15
- Publish Date:
2014-10-25
-
Abstract
This research builds upon the traditional composition of the infrared flare(Magnesium/Teflon, MT), and red phosphorus and copper oxide were chose as functional additives, a composition of thin-film infrared flare with low flame temperature was optimized based on its burning time, flame temperature and radiation intensity. In addition to respective conductivity of the material component were chosen as parameters, combustion rates of different prescriptions were analyzed based on their conductivity, and an indication of the impact of combustion temperature and radiation intensity was fiven. The results of the study show that red phosphorus and copper oxide added can improve combustion stability under lower flame temperature. When the content of red phosphorus was 25%, magnesium powder was 25%, copper oxide was 10%-15%, teflon was 35%-40%, the combustion of the 0.03 cm-thick thin film was most stable, and its combustion time is greater than about 3 s, the most radiation intensity is 1.5 W/sr, the flame temperature is about 800 ℃.
-
References
|
[1]
|
Gan Yuanliu, Song Bin. Discussion on infrared guided missile and infrared decoy flare[J]. Electro-optic Technology Application, 2005, 20(6): 7-9. (in Chinese) 淦元柳, 宋斌. 论红外导弹与红外干扰弹的对抗[J]. 光电技术应用, 2005, 20(6): 7-9. |
|
[2]
|
|
|
[3]
|
|
|
[4]
|
Kong Lingchun. Summary of self-protection system against IR guided missile[J]. Electro-optic Technology Application,2005, 20(1): 6-9. (in Chinese) 孔令春. 飞机自卫反红外导弹综述[J]. 光电技术应用,2005, 20(1): 6-9. |
|
[5]
|
|
|
[6]
|
Yuan Jiangtao, Yang Li, Chen Xuan, et al. Analysis of infrared radiation on modern naval ship and its control strategies[J]. Laser Infrared, 2006, 36(10): 943-947. (in Chinese) 袁江涛, 杨立, 陈翾,等. 现代舰船红外辐射及其控制策略分析[J]. 激光与红外, 2006, 36(10): 943-947. |
|
[7]
|
|
|
[8]
|
Rbernard D, Douda E. Survey of miIitary pyroteclnics[R]. AD-A238923, l99l. |
|
[9]
|
Briere P S, Michel S O, Roy A, et al. NoZZles for pyrotechnic IR decoy flares: US, 5866840[P]. 1999-02-02. |
|
[10]
|
|
|
[11]
|
Chen Minghua, Liu Weiqi, Li Dongyang, et al. A method for calculating infrared radiation intensity of Mg/PTFE composition[J]. Laser Infrared, 2004, 34(5): 341-343. (in Chinese) 陈明华, 柳维旗, 李东阳, 等. 镁/聚四氟乙烯诱饵剂红外辐射强度的计算[J]. 激光与红外 2004, 34(5): 341-343. |
|
[12]
|
|
|
[13]
|
|
|
[14]
|
Chen Minghua, Jiao Qingjie, Chang Fei, et al. The research on infrared emission performance of Mg/PTFE infrared composition[J]. Laser Infrared, 2002, 32(4): 253-256. (in Chinese) 陈明华, 焦清介, 常非, 等. 镁/聚四氟乙烯红外诱饵剂的红外辐射性能研究[J]. 激光与红外, 2002, 32(4): 253-256. |
|
[15]
|
Tu Chuanjing, Shen Luochan, Wu Zijing. Heat Conduction [M]. Beijing: Higher Education Press, 1989. (in Chinese) 屠传经, 沈珞婵, 吴子静. 热传导[M]. 北京: 高等教育出版社, 1989. |
|
[16]
|
|
|
[17]
|
|
|
[18]
|
James G Speight. Lange'S Handbook of Chemistry (16 Edition)[M]. New York: McGraw-Hill, Inc, 2005. |
|
[19]
|
Pan Gongpei, Zhu Changjiang, Wang Xue, et al. Factors influencing on the radiant intensity of infrared radiation pyrotechnics[J]. Energetic Materials, 1999, 7(2): 57-59. (in Chinese) 潘功配, 朱长江, 王雪, 等. 影响红外辐射烟火剂辐射强度的因素[J]. 含能材料, 1999, 7(2): 57-59. |
-
-
Proportional views
-
DownLoad: