[1]程辰①②,林明①,龙源②,等.基于爆炸现场破坏分析的TNT当量快速估算方法研究[J].爆破器材,2018,47(03):37-41.[doi:10.3969/j.issn.1001-8352.2018.03.007]
 CHENG Chen,LIN Ming,LONG Yuan,et al.Fast Estimation Method of TNT Equivalent Based on Onsite Damage Analysis[J].EXPLOSIVE MATERIALS,2018,47(03):37-41.[doi:10.3969/j.issn.1001-8352.2018.03.007]
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基于爆炸现场破坏分析的TNT当量快速估算方法研究()
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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:
47
期数:
2018年03
页码:
37-41
栏目:
爆炸材料
出版日期:
2018-05-02

文章信息/Info

Title:
Fast Estimation Method of TNT Equivalent Based on Onsite Damage Analysis
文章编号:
5228
作者:
程辰①②;林明;龙源;马华原
①成都市公安局(四川成都,610100)
②中国人民解放军陆军工程大学(江苏南京,210007)
Author(s):
CHENG Chen①② LIN Ming LONG Yuan MA Huayuan
①Chengdu Public Security Bureau (Sichuan Chengdu, 610100)
②The Army Engineering University of PLA (Jiangsu Nanjing, 210007)
关键词:
冲击波超压接触爆炸TNT当量
Keywords:
shock wave overpressure contact explosion TNT equivalent
分类号:
TQ564;TD235.2+1
DOI:
10.3969/j.issn.1001-8352.2018.03.007
文献标志码:
A
摘要:
综合多年一线反恐经验,针对自制爆炸装置的TNT当量估算展开研究。一方面,根据现场勘查得到的冲击波超压对人体的杀伤程度,并参考炸点位置和地质强度,计算得到爆炸物的TNT当量;另一方面,分析了在不同环境下(空气中、软性地面、硬性地面)爆炸后形成的冲击波超压△pm的计算公式,同时结合冲击波对现场的破坏程度,计算得到爆炸装置的TNT当量。最后,可由TNT当量以及现场判定的炸药类型换算得到自制爆炸装置的装药质量。该方法成功地在多次案例分析中得以运用推广。研究成果对于勘察已爆现场、侦破涉爆案件、指导公安反恐防爆工作具有重大意义。
Abstract:
TNT equivalent estimation of the selfmade explosive device was studied combining years of experience in counter-terrorism. TNT equivalent of explosives was calculated according to damage degree caused by shock wave overpressure, blasting location and its geological strength. Calculating formula for shock wave overpressure △pm was analyzed in regard to different environments (air, soft ground or hard ground). At same time, TNT equivalent of the explosive device was calculated combining the damage degree of the shock wave to the explosion site. Finally, charge quality of the self-made explosive device could be obtained by the conversion of TNT equivalent and explosive type determined on the spot. This method has been successfully applied in many case analyses. The research results are of great significance to investigation at the detonating scene, detection of the explosion involved cases, and guidance to the anti-terrorist and anti-explosion for public security.

参考文献/References:

[1] 公安部.公刑[2012]2154号:公安机关处置重特大爆炸案件现场工作规范[Z].2012.
Ministry of Public Security. Public Penalty [2012] 2154:The Public Security organs handle the field work standard of the heavy explosion cases [Z]. 2012.
[2]徐全军,毛益明,武双章.爆炸及其作用[M].南京:解放军理工大学野战工程学院,2015:251-255.
 XU Q J,MAO Y M,WU S Z.Explosion and its effect [M].Nanjing:College of Engineering,PLA University of Science and Technology,2015:251-255.
[3]钱七虎.反爆炸恐怖安全对策[M].北京:科学出版社,2005.
[4]叶序双.爆炸作用基础[M].南京:解放军理工大学工程兵工程学院,1991:259-265.
YE X S.Foundation of explosion action[M].Nanjing:Engineering College,PLA University of Science and Technology,1991:259-265.
[5]王百姓.爆炸犯罪案件侦查要略[M].北京:群众出版社,2004:93. [6]王圆圆.缉捕持爆炸物犯罪嫌疑人行动的处置指挥[J].湖南公安高等专科学校学报,2009,21(5):127-129.
WANG Y Y.The commanding of arresting the holding exploder suspects[J].Journal of Hunan Public Security College, 2009,21(5):127-129.
[7]刘亚琴.浅谈爆炸案件的现场处置及勘查[N].人民公安报, 2006-01-03.
[8]陈立宏, 张洪国, 张彦春.常见遥控类爆炸装置关键组成部件及其爆炸碎片研究[J].中国刑警学院学报, 2015 (4) :56-58.
[9]万红.实用爆炸装置图解与处置[M].北京:中国人民公安大学出版社, 2006:175-179.
[10]白海娟,屈耀伦.新疆恐怖主义犯罪的特点和新动向[J].南都学坛:南阳师范学院人文社会科学学报,2016,36(6):75-79.
[11]张连生.关于建立健全反恐防暴机制的实践与思考[J].铁道警察学院学报,2015,25(2):15-18.
[12]王文,皮建华,代勇.刑事科学技术专业综合实验实训的构建[J].四川警察学院学报.2013,25(1):98-104.
WANG W,PI J H,DAI Y.On construction of comprehensive experiment and training for criminal science and technology professional [J].Journal of Sichuan Police College,2013,25(1):98-104.
[13]陈蕊丽.模拟实训课程在公安专业教学中的作用探讨[J].求实,2011(增1):263-264.
[14]侯碧海.加强实验实训教学提高刑事技术人才培养水平[J].广西警官高等专科学校学报,2007(2):10-12.
[15]姜平,贾洁萍,孔庆兵.公共危机管理与突发事件应对[M].北京:红旗出版社,2011.
[16]陈猛,孙剑.浅谈现场物证的规范化管理[J].河南公安高等专科学校学报,2008,(6):172.

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备注/Memo

备注/Memo:
收稿日期:2017-12-03
基金项目:国家自然科学基金(11672331)
作者简介:程辰(1986-),男,硕士研究生,从事反恐防排爆研究。E-mail:89329090@qq.om
通信作者:龙源(1958-),男,博导,从事爆炸力学相关研究。E-mail:longy2017@126.com
更新日期/Last Update: 2018-05-02