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含能材料 2011

三氟化氯与碳氢燃料反应放能试验研究

DOI: 10.3969/j.issn.1006-9941.2011.01.010

高洪泉,卢芳云,王少龙,罗永锋,闫华,刘志勇

Keywords: 爆炸力学,密闭空间,超压-冲量准则,数值仿真,TNT当量

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Abstract:

在对三氟化氯与碳氢燃料反应机理进行分析的基础上，进行了密闭环境下三氟化氯与碳氢燃料的反应放能试验研究。结果表明：三氟化氯与碳氢燃料可以发生剧烈反应，释放大量的能量，将碳氢燃料部分雾化并喷出密闭空间，激活的碳氢燃料一旦接触空气，便诱发碳氢燃料的剧烈爆燃；在无氧条件下，三氟化氯与碳氢燃料爆炸反应所释放的能量相当于1.8倍TNT当量。

References

[1]	裴明敬, 毛根旺等. 含铝温压燃料爆炸抛撒过程中能量释放效率研究[J]. 中国科学技术大学学报, 2007 37(3):276-283.PEI Ming-jing, MAO Gen-wang et al. On energy releasing efficiency of thermobaric fuel containing aluminum in dispersing with explosion[J]. Journal of University of Science and Technology of China, 2007, 37(3):276-283.
[2]	崔晓荣, 周听清等. 强氧化剂对FAE诱导作用的实验研究[J]. 含能材料, 2006, 14(1):12-15.CUI Xiao-rong, ZHOU Ting-qing et al. Experimental study on revulsive effect of oxidizer on single-event FAE[J]. Chinese Journal of Energetic Materials, 2006, 14(1):12-15.
[3]	G Von Elbe, E T McHale. Chemical initiation of FAE clouds[R]. AD-A082610.1979.
[4]	许学忠, 裴明敬等.碳氢燃料与卤素氟化物的爆炸反应特性[J]. 火炸药学报,1999, (3):36-38.XU Xue-zhong, PEI Ming-jing etc. Explosive reaction characteristics on Hydrocarbon and fluorine agent[J]. Chinese Journal of Explosive & Propellants, 1999, (3):36-38.
[5]	闫华, 贡雪东等. 三氟化氯和环氧丙烷反应的理论研究[J]. 化学学报, 2009, 67(24):2845-2850.YAN Hua, GONG Xue-dong et al. Theoretical study on the reaction of chlorine trifluoride with propylene oxide by density functional theory[J]. Acta Chimica Sinica, 2009, 67(24):2845-2850.
[6]	李萍, 胡栋等. 瞬态光谱法确定环氧丙烷DDT过程中起主导作用的基团[J]. 光谱学与光谱分析, 2006, 26(9):1569-1572.LI Ping, HU Dong et al. Using instantaneous spectra to determine dominant species in the DDT process of epoxypropane[J]. Spectroscopy and Spectral Analysis, 2006, 26(9):1569-1572.
[7]	徐晓峰, 解立峰等. 碳氢燃料云雾爆轰特性的实验研究[J]. 爆破器材, 2003,2:1-4.XU Xiao-feng, XIE Li-feng et al. Experimental study on cloud detonation properties of hydrocarbon[J]. Explosive Materials, 2003,2:1-4.
[8]	姚干兵, 解立峰, 刘家骢. 碳氢燃料云雾直接起爆感度的实验研究[J]. 弹道学报, 2006,18（3）：9-13YAO Gan-bing, XIE Li-feng, LIU Jia-cong. Experimental study on the direction initiation sensitivity of hydrocarbon-air cloud[J]. Journal of Ballistics, 2006,18（3）：9-13
[9]	贵大勇, 冯顺山等. 高威力FAE液态燃料的优化选择[J]. 火炸药学报, 2002,3:14-17 GUI Da-yong, FENG Shun-shan et al. The optimization selection of liquid fuels for high power FAE[J]. Chinese Journal of Explosive & Propellants, 2002,3:14-17
[10]	蒲加顺, 白春华等. 多元混合燃料分散爆轰研究[J]. 火炸药学报，1998,1：1-5 PU Jia-shun, BAI Chun-hua et al. Dispersed detonation of multinary fuel mixture. Chinese Journal of Explosive & Propellants, 1998, 1:1-5.
[11]	杨立中, 张春云等. 高能FAE燃料的选择[J]. 南京理工大学学报,1998,22(1):15-18. YANG Li-zhong, ZHANG Chun-yun et al. Selection of fuels of high power FAE[J]. Journal of Nanjing University of Science and Technology, 1998, 22(1):15-18.
[12]	何小波. FAE燃料气云爆轰特性研究[D]. 南京理工大学硕士学位论文, 2004,06. HE Xiao-bo. Study on the detonation characteristics of several FAE fuel[D]. Nanjing University of Science and Technology Master Thesis, 2004.06.
[13]	隋树元, 王树山. 终点效应学[M]. 北京: 国防工业出版社, 2000:290-293. SUI Shu-yuan, WANG Shu-shan. Terminal Effects[M]. Beijing: National Defence Industry Press, 2000:290-293.

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