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TNT密闭环境中能量释放特性研究()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 43
期数:: 2014年02

页码:: 10-14

栏目:: 基础理论

出版日期:: 2014-04-20

文章信息/Info

Title:: Research on TNT Energy Release Characteristics in Enclosed Condition

文章编号:: 4694

作者:: 金朋刚; 郭炜; 任松涛; 王建灵; 高赞; 李鸿宾; 西安近代化学研究所（陕西西安，710065）

Author(s):: JIN Penggang; GUO Wei; REN Songtao; WANG Jianling; GAO Zan; LI Hongbin; Xian Modern Chemistry Research Institute (Shaanxi Xian, 710065)

关键词:: 爆炸力学; 密闭条件; 爆炸场温度; 准静态压力

Keywords:: explosion mechanics; enclosed condition; explosion temperature; quasi-static pressure

分类号:: TQ564.3; O383

DOI:: 10.3969/j.issn.1001-8352.2014.02.003

文献标志码:: A

摘要:: 为了研究TNT在密闭空间中的能量释放特性，依据量热法原理测量了TNT炸药在不同环境中（真空、0.1 MPa空气、0.1 MPa氧气）的爆热；同时在自行设计的密闭爆炸仓内，采用PCB压力传感器和K型热电偶分别测量了TNT炸药在不同气氛（空气、氮气、纯氧气）中爆炸后的准静态压力和爆炸场温度。爆热测试试验结果表明，当环境中氧含量增加时，爆热也随之增加；密闭空间中爆炸参数测量结果表明，随着密闭环境中氧含量的增加，准静态压力和爆炸场温度均有所增加。这说明实际应用中TNT爆炸反应完全性较低，有大量能量未释放，密闭条件可以提高TNT爆炸能量释放率。

Abstract:: In order to study the energy release characteristics of TNT in enclosed condition, the detonation heat of TNT in different environments(vacuum, 0.1MPa air or 0.1MPa oxygen) was tested by the calorimetric method. And the quasistatic pressure and explosion temperature of TNT in different air condition (air, N₂ and O₂) were measured respectively using PCB company piezoelectric pressure sensors and thermocouple of type K. The detonation heat test results show that when the oxygen content of gas condition increases, the detonation heat of TNT also increases. The quasistatic pressure and explosion temperature tests also show that the same results.All of these indicate that in the practical application the completion of the TNT explosive reaction is much low, where there is a lot of energy is unable to be released, but the enclosed condition can improve the ratio of TNT energy released in explosion.

参考文献/References:

［1］Davison N,Lewer N.Bradford nonlethal weapons research project［R］．Bradford：University of Bradford，2006．
［2］Smith K T. Pressable thermobaric explosives:aluminum containing compositions based on HMX and RDX ［C］// 36th International Annual Conference of ICT. Karlsruhe：ICT，2005．
［3］Schaefer R A,Nicolich S M. Development and evaluation of new high blast explosives［C］// 36th International Annual Conference of ICT. Karlsruhe: ICT，2005．
［4］Arnold W，Rottenkolber E. Thermobaric charges：modelling and testing［C］//38th International Annual Conference of ICT. Karlsruhe：ICT，2007.
［5］David T P E. Internal blast test to support the tomahawk and APET programs "Munitions Survivability in Unified Operations"［C］//Insensitive Munitions & Energetic Materials Technology Symposium，San Diego,NDIA,1996.
［6］Lee K B, Lee K D, Kim J K. Relationship between combustion heat and blast performance of aluminized explosives［C］//36th International Annual Conference of ICT & 32nd International Pyrotechnics Seminar. Karsruhe, Germany, 2005.
［7］Ames R G,Drotar J T,Silber J, et al. Quantitative distinction between detonation and afterburn energy deposition using pressuretime histories in enclosed explosions［C］ // Proceedings of the 13th International Detonation Symposium. Norfolk,VA:office of Naval Research, 2006:253-262.
［8］Zhang Fan, Anderson J, Yoshinaka A, et al. Postdetonation energy release from TNTaluminum explosive［C］// AIP Conference Proceedings, 2007,955:885-888.
［9］李媛媛,南海.半密闭条件下爆炸场的温度与压力测量［J］.火炸药学报,2008，31(1)：48-52． 
Li Yuanyuan，Nan Hai．Detonation field temperature and pressure test under semienclosed conditions［J］．Chinese Journal of Explosives & ropellants，2008，31(1)：48-52．
［10］辛春亮，徐更光,刘科种,等.含铝炸药与理想炸药能量输出结构的数值模拟［J］，火炸药学报, 2007，30(4)：6-8. 
Xin Chunliang，Xu Gengguang, Liu Kezhong,et al. NumericaI simulation of energy output structure for aluminized explosive and idealized explosive in underwater explosion［J］．Chinese Journal of Explosives & Propellants，2007，30(4):6-8. 
［11］ Lee R J,Newman K E,Bohl D G, et al. Combined initial air blast and quasistatic overpressure assessment for pressed aluminized explosives［C］ // Proceedings of the 13th International Detonation Symposium. Norfolk, VA:Office of Naval Research, 2006:245-252.
［12］金朋刚,郭炜，王建灵，等.密闭条件下TNT的爆炸压力特性［J］.火炸药学报，2013.36(3):39-41.
Jin Penggang, Guo Wei, Wang Jianling, et al. Explosion pressure characteristics of TNT under closed condition［J］. Chinese Journal of Explosives & Propellants，2013，36(3):39-41.
［13］周霖.爆炸化学基础［M］.北京：北京理工大学出版社,2005:40.
［14］惠君明，陈天云.炸药爆炸理论［M］.南京：江苏科学技术出版社，1995：66.
［15］Gel′fand B E,Gogulya M F, Medvedev S P, et al. Diagnostics of the afterburning of the detonation products of condensed explosives［J］. Doklady Physical Chemistry, 2001,379(1-3):186-190.
［16］李静,王伯良,赵新颖,等.含铝炸药爆炸过程中的能量分析［J］.爆破器材,2013,42(2):10-13.
Li Jing, Wang Boliang, Zhao Xinying, et al.Energy analysis in the explosion process of high aluminized explosive［J］.Explosive Materials,2013,42(2):10-13.
［17］连赟猛,方道红,顾晓辉,等.典型密闭装置内爆炸尺寸效应研究［J］.爆破器材,2012,41(5):1-4.
Lian Yunmeng,Fang Daohong, Gu Xiaohui, et al.Effect of scales on typical closed structure due to internal explosion［J］.Explosive Materials,2012,41(5):1-4.
［18］Arnord W，Rottenkolber E. The performance of insensitive blast enhanced explosives: US,5467714［P］.1995-11-21.

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备注/Memo

备注/Memo:: 收稿日期：2013-05-12
基金项目：国防重大基础研究专项项目
作者简介：金朋刚（1978~），男，硕士，助理研究员，主要从事炸药性能评价与预估研究。E-mail：jinpenggang204@126.com
通信作者：郭炜（1968~），男，高级工程师，主要从事火炸药性能评估研究。E-mail:gw200222@sina.com

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