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含能材料 2012

含铝炸药爆炸能量预估

DOI: 10.3969/j.issn.1006-9941.2012.06.024

常艳,张奇

Keywords: 爆炸力学,安全科学及技术,非理想爆轰,含铝炸药,爆炸能量

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Abstract:

为了预估含铝炸药爆炸能量,分析了非理想爆轰能量预测模型,利用matlab软件、迭代计算方法、平衡常数方法和数值逼近原理编制了数值计算软件。利用本软件计算了常用含铝炸药H-6、HBX-1、Alex20、Alex32、Tritonal及Torpex的C-J爆压、C-J爆速等相关参数,与已有实验值吻合较好。计算结果表明,利用本软件所计算的爆温和爆热结果与以往经验公式计算结果吻合较好,爆热的相对误差小于8%,故适合于含铝炸药的能量预测。

References

[1]	韩勇, 韩敦信, 卢校军,等.含铝炸药爆压及能量释放过程的研究[J].含能材料, 3,1(4): 191-200.HAN Yong, HAN Dun-xin, LU Xiao-jun,et al.The research of effective pressure and energy-released process of Al-containing explosives[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 3,1(4): 191-200.
[2]	《爆炸及其作用》编写组.爆炸及其作用(上册)[M].北京: 国防工业出版社, 1979.Explosive and Its Effects Writing Group.Explosive and its effects (volume 1)[M].Beijing: National Defence Industry Press, 1979.
[3]	王正烈, 周亚平.物理化学[M].北京: 高等教育出版社, 2001.WANG Zheng-lie, ZHOU Ya-ping.Physical Chemistry[M].Beijing: Higher Education Press, 2001.
[4]	高大元, 吕春绪, 董海山等.工业炸药的爆轰性能研究[J].火炸药学报, 3,6(1): 26-29.GAO Da-yuan, LU Chun-xu, DONG Hai-shan, et al.Study on detonation performance of industrial explosives[J].Chinese Journal of Explosives & Propellants, 3,6(1): 26-29.
[5]	张廷理.CHNOF炸药的爆热与爆容的估算[J].火炸药, 1985(1): 15-17.ZHANG Ting-li.CHNOF explosives and explosion blasting heat capacity estimates[J].Chinese Journal of Explosive & Propellants, 1985(1): 15-17.
[6]	夏先贵, 柏劲松, 林其文, 等.含铝炸药起爆机理的研究[J].含能材料, 9,7(3): 133-136.XIA Xian-gui; BAI Jing-song, LIN Qi-wen.A study on initiation mechanism of Al containing explosive[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 9,7(3): 133-136.
[7]	薛再清, 徐更光, 王廷增, 等.用KHT状态方程计算炸药爆轰参数[J].爆炸与冲击, 8,8(2): 172-176.XUE Zai-qing, XU Geng-guang, WANG Ting-zeng, et al.By use of KHT equation of state to calculate detonation parameters of explosives[J].Explosion and Shockwaves, 8,8(2): 172-176.
[8]	韩勇, 韩敦信, 陈红霞, 等.含铝炸药爆热的实验研究[J].含能材料, 2,0(2):78-80.HAN Yong, HAN Dun-xin, CHEN Hong-xia, et al.Experimental research of detonation heat of Al-containing explosives[J].Chinese Journal of Energetic Materials(Hanneng Cailiao), 2,0(2): 78-80.
[9]	Zeleznik F J, Gordon S.Calculation of detonation properties and effect of independent parameters on gaseous detonations[J].ARS J., 2,2(4): 606-615.
[10]	闫朝.爆震波工作过程的数值模拟[D].西安: 西北工业大学, 2001.YAN Zhao.Detonation wave numerical simulation of working process[D].Xi′an: Northwestern Polytechnical University, 2001.
[11]	殷海权.含铝炸药设计中若干问题探讨[J].爆破器材, 1984(2): 4-7.YIN Hai-quan.Aluminized explosive design of a number of issues[J].Explosive Materials, 1984(2): 4-7.
[12]	Mader C L.Numerical modeling of expolosive and propellents[M].Califormia: University of California Press, 1979.
[13]	W R Tomlinson, Oliver E Sheffield, Picatinny Arsenal.Properties of explosives of military interest[M].Dover, N.J.: Picatinny Arsenal, 1958.
[14]	周霖.爆炸化学基础[M].北京: 北京理工大学, 2005.ZHOU Lin.The basis of explosive chemistry.Beijing: Beijing Institute of technology Press, 2005.

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