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装药条件对B炸药落锤撞击响应的影响研究()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 43
期数:: 2014年06

页码:: 6-10

栏目:: 基础理论

出版日期:: 2014-12-20

文章信息/Info

Title:: Effects of Charge Conditions on the Drop Hammer Impact Response of Composition B

文章编号:: 4828

作者:: 赵娟; 徐洪涛; 冯晓军; 西安近代化学研究所（陕西西安，710065）

Author(s):: ZHAO Juan; XU Hongtao; Feng Xiaojun; Xi‘an Modern Chemistry Research Institute (Shaanxi Xi’an, 710065)

关键词:: B炸药; 撞击感度; 装药条件

Keywords:: composition B; impact sensitivity; charge conditions

分类号:: TQ560.7

DOI:: 10.3969/j.issn.1001-8352.2014.06.002

文献标志码:: A

摘要:: 采用自行研制的药柱撞击感度试验装置，对B炸药在不同装药尺寸、装药密度和装药状态下的撞击响应进行了试验研究，探讨了不同装药条件对其落锤撞击响应的影响规律，分析了产生原因。结果表明：对于B炸药，在相同直径条件下，起爆阈值随着药柱厚度的增大而增大；接近理论密度时，撞击感度对装药密度的变化并不敏感；撞击刺激下不同物态的响应敏感性有显著差异，药粉感度远大于药柱感度。

Abstract:: In order to investigate the influence of charge size, charge density and state of charge on impact response of composition B, the impact sensitivity of composition B was researched by aselfdeveloped impact device. Effects of charge conditions on the lowvelocity impact response of composition B were discussed. The causes of the influence rules were also analyzed. The results suggest that, with the same diameter, the shock threshold of composition B was increased with the increasing of grainsthickness. It was also found that the impact sensitivity was not sensitive to the change of charge density when it approaches to the theoretical density. Moreover, the impact sensitivity of different states presents a remarkable difference that the impact sensitivity of powder is all far over the impact sensitivity of grain.

参考文献/References:

［1］于占龙, 吴晓青. 炸药撞击感度试验的研究［J］. 安徽化工, 2003, 29(2):20-22.
Yu Zhanlong, Wu Xiaoqing. Study on the explosive impact sensitivity［J］. Anhui Chemical Industry, 2003,29(2):20-22.
［2］江剑, 孔德仁, 王昌明, 等. 基于虚拟仪器的撞击感度测试系统［J］. 火炸药学报, 2005, 28(4):14-17.
Jiang Jian, Kong Deren, Wang Changming, et al. Impact sensitivity test system based on virtual instrument［J］. Chinese Journal of Explosives & Propellants, 2005, 28(4):14-17.
［3］胡庆贤. 炸药感度评价方法的探讨［J］. 含能材料, 2000, 8(3):127-129.
Hu Qingxian. An investigation of evaluation method on explosives sensitivity［J］. Energetic Materials, 2000, 8(3):127-129.
［4］花成, 张盛国, 汤业朋. 炸药作用可靠度估计与研究［J］. 含能材料, 2004, 12(增刊2):548-550.
Hua Cheng, Zhang Shengguo, Tang Yepeng. Study on the evaluation of explosive reliability［J］. Energetic Materials, 2004, 12(suppl.2):548-550.
［5］Dubovik A V. Analysis of standard indices of impact sensitivity of solid explosives［J］. Doklady Physical Chemistry, 2007, 415(2):218-220.
［6］Licht HH . Performance and sensitivity of explosives［J］. Propellants, Explosives, Pyrotechnics, 2000, 25(3):126-132.
［7］Huey J R, Sorensen K L, Singhose W E. Useful application of closedloop signal shaping controllers［J］. Control Engineering Practice, 2008, 16(7):836-846.
［8］袁俊明, 张庆明, 刘彦. 炸药感度测试兰利法与升降法比较研究［J］. 含能材料, 2008, 16(1):86-89.
Yuan Junming, Zhang Qingming, Liu Yan. Comparison study on langlie method and upanddown method for sensitivity test of explosive［J］. Chinese Journal Energetic Materials, 2008, 16(1):86-89.
［9］代晓淦, 向永, 申春迎, 等. 大药片落锤撞击感度研究［J］. 爆炸与冲击, 2006, 26(4):381-384.
Dai Xiaogan, Xiang Yong, Shen Chunying, et al. Study of drop hammer impact sensitivity for bigbill explosives［J］. Explosive and Shock Waves, 2006, 26(4):381-384.
［10］Keshavarz M H, Shokrolahi A, Esmailpoor K, et al. Recent developments in predicting impact and shock sensitivities of energetic materials［J］. Chinese Journal of Energetic Materials, 2008, 16(1):113-120.
［11］徐洪涛,孔德仁, 胡宏伟, 等. 火炸药药柱撞击感度试验装置及方法［J］. 火炸药学报, 2010, 33(3):30-33.
Xu Hongtao, Kong Deren, Hu Hongwei, et al. Impact sensitivity test system and test method of explosives column［J］. Chinese Journal of Explosives & Propellants, 2010, 33(3):30-33.
［12］金韶华, 王伟, 松全才. 含能材料机械撞击感度判据的认识和发展［J］. 爆破器材, 2006, 35(6):11-14.
Jin Shaohua, Wang Wei, Song Quancai. Understanding and development of criteria of impact sensitivity of energetic materials［J］. Explosive Materials, 2006, 35(6):11-14.
［13］代晓淦, 向永. 两种塑料粘（黏）结炸药的Steven试验及撞击感度研究［J］. 含能材料, 2006, 14(1):38-41. 
Dai Xiaogan, Xiang Yong. Steven test and impact sensitivity for two explosives［J］. Chinese Journal of Energetic Materials, 2006, 14(1):38-41.
［14］徐瑞娟, 罗宏, 王新锋, 等. 改性B炸药中添加剂的作用机理［J］. 火炸药学报, 2003, 26(2):5-7.
Xu Ruijuan, Luo Hong, Wang Xinfeng, et al. Effect of additives on the modified composition B［J］. Chinese Journal of Explosives & Propellants, 2003, 26(2):5-7.
［15］王世英, 胡焕性. B炸药装药发射安全性落锤模拟加载实验研究［J］. 爆炸与冲击, 2003, 23(3):275-278.
Wang Shiying, Hu Huanxing. Drop hammer simulation study on launch safety of composite B［J］. Explosive and Shock Waves, 2003, 23(3):275-278.
［16］王作山, 张景林. 纳米αAl2O3对HMX撞击感度的影响［J］. 含能材料, 2005, 13(1):10-12.
Wang Zuoshan, Zhang Jinglin. Influence of nanometer Al2O3 on the impact sensitivity of HMX［J］. Energetic Materials, 2005, 13(1):10-12.
［17］王金英, 柴涛, 张景林, 等. PBX传爆药撞击感度影响因素的研究［J］. 华北工学院学报, 2004, 25(4):290-292.
Wang Jinying, Chai Tao, Zhang Jinglin, et al. Study on the influence factors of impact sensitivity of PBX booster［J］. Journal of North China Institute of Technology, 2004, 25(4):290-292.
［18］聂福德, 杨雪海, 张凌, 等. HMX/TATB 基PBX的感度与表面形态的关系探索［J］. 火炸药学报, 2001, 24(3):20-21,19.
Nie Fude, Yang Xuehai, Zhang Ling, et al. The sensitivity and the surface characterization of HMX/TATBbased PBX［J］. Chinese Journal of Explosives & Propellants, 2001, 24(3):20-21,19.

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备注/Memo

备注/Memo:: 收稿日期：2014-05-15
基金项目：火炸药燃烧国防科技重点实验室基金项目（9140C350408110C3507）
作者简介：赵娟（1988~ ），女，硕士，研究方向为爆轰化学反应研究。E-mail: canghaiyisu_zj@126.com

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