«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.issn.1001-8352.2016.05.005]
点击复制

基于输出特性仿真的引信传爆管结构优化()

分享到：

《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 45
期数:: 2016年05

页码:: 23-28

栏目:: 爆炸材料

出版日期:: 2016-09-30

文章信息/Info

Title:: Structural Optimization of Fuze Booster Based on Simulation of Its Output Characteristics

文章编号:: 5035

作者:: 刘鹏^①; 王雨时^①; 闻泉^①; 黄建强^②; 谷宝成^③; 张志彪^①; ①南京理工大学机械工程学院（江苏南京，210094）
② 岳阳金秋红日工业有限公司（湖南岳阳，414001）
③山东红旗机电有限公司（山东潍坊，261108）

Author(s):: LIU Peng^①; WANG Yushi^①; WEN Quan^①; HUANG Jianqiang^②; GU Baocheng^③; ZHANG Zhibiao^①; ① Mechanical Engineering College,Nanjing University of Science and Technology (Jiangsu Nanjing, 210094)
②Yueyang Jinqiuhongri Industrial Co., Ltd. (Hunan Yueyang, 414001)
③ Shandong Hongqi Electrical Co., Ltd.(Shandong Weifang, 261108)

关键词:: 传爆管; 数值仿真; 结构优化; 冲击起爆

Keywords:: booster; numerical simulation; structural optimization; shock initiation

分类号:: TD235.2+2;TJ510.3

DOI:: 10.3969/j.issn.1001-8352.2016.05.005

文献标志码:: A

摘要:: 针对引信细长传爆管结构可生产性差的问题，应用有限元仿真软件ANSYS/LS-DYNA对不同结构和不同长度的传爆管输出特性进行了仿真，得到了不同结构和不同长度传爆管起爆后作用在战斗部炸药柱各点上的压力时间历程曲线，并通过冲击起爆理论判断不同结构和不同长度传爆管的起爆能力。结果表明，输出端面带有聚能凹槽的传爆管相比于传统的平底传爆管，起爆能力较强，所需传爆药量少，轴向尺寸也最短。39发起爆试验验证了仿真可信性。

Abstract:: In order to reduce production difficulties of fuze caused by the slender-booster structure, the output characteristics of boosters with different structures and different lengths were simulated by finite element simulation software ANSYS/LS-DYNA,and the pressure-time curves of each warheads point after explosion were obtained. The detonation ability of boosters with different structures and different lengths was judged by shock initiation theory. Results show that the booster with cumulative grooves exhibits stronger detonating ability and requires less booster charge, and its axial dimension is the shortest. The simulation was also verified by 39 initiation tests.

参考文献/References:

［1］曹雄，胡双启，张建忠. 装药结构对传爆药柱起爆能力的影响研究［J］.应用基础与工程科学学报，2005（增刊1）：200-204.
CAO X,HU S Q,ZHANG J Z. Study on the effect of charge structure of booster pellet had on its initiation capacity ［J］.Journal of Basic Science and Engineering, 2005（Supp1.1）:200-204.
［2］胡立双，胡双启，曹雄，等. 异形传爆药柱的起爆能力［J］.爆炸与冲击，2013，33(2)：207-211.
HU L S,HU S Q,CAO X, et al. Initiation capacity of a special shape booster pellet［J］.Explosion and Shock Waves,2013，33(2):207-211.
［3］胡立双，胡双启，曹雄，等. 凹穴直径对异形传爆药柱起爆能力的影响［J］.兵器材料科学与工程，2014，37(3)：35-37.
HU L S,HU S Q,CAO X, et al. Effect of cavity diameter on initiation capacity of special booster pellet［J］. Ordnance Material Science and Engineering,2014,37(3):35-37.
［4］李来福，王雨时，闻泉. 传爆距离对传爆管输出威力影响的仿真研究［J］. 火工品，2014（3）：14-18.
LI L F,WANG Y S, WEN Q. Simulation study on the impact of detonation transmission distance on the output power of booster［J］. Initiators & Pyrotechnics, 2014(3):14-18.
［5］陈勇军. 小口径穿甲爆破炮弹侵彻目标数值模拟研究［D］. 南京：南京理工大学，2013.
［6］WALKER F E，WASLEY R J . Critical energy for the shock initiation of heterogeneous explosive［J］.Explosive Stoffs,1969，17(1):9.
［7］FOAN G C W, GOLEY G D. Shock Initiation in gap test configurations［C］//7th Symposium (International) on Detonation, 1981.
［8］胡双启. 传爆药主装药间冲击起爆若干问题的研究［D］. 北京: 北京理工大学，1997.
［9］郝鹏程，冯其京，洪滔，等.炸药点火增长模型的欧拉数值模拟［C］//第十四届全国激波与激波管学术会议论文集（上册）. 黄山，2005:224-229.
［10］李来福. 某枪榴弹机械触发起爆引信关键技术研究［D］. 南京：南京理工大学，2014.
［11］梁增友. 炸药冲击损伤与起爆特性［M］. 北京：电子工业出版社，2009.
［12］章冠人，陈大年. 凝聚炸药起爆动力学［M］. 北京：国防工业出版社，1991.

相似文献/References:

[1]杨砚世①,肖志华②,李向东①.破片撞击燃料箱时水锤效应的数值仿真研究[J].爆破器材,2014,43(04):26.[doi:10.3969/j.issn.1001-8352.2014.04.006]
　YANG Yanshi,XIAO Zhihua,LI Xiangdong.Numerical Simulation Study on Hydrodynamic Ram Due to the Penetration of Fuel Tank by High Energy Fragments[J].EXPLOSIVE MATERIALS,2014,43(05):26.[doi:10.3969/j.issn.1001-8352.2014.04.006]
[2]何晓晖①,李峰②,沙毅刚①,等.链枷式排爆装置抗爆性能的仿真与试验研究[J].爆破器材,2021,50(02):34.[doi:10.3969/j.issn.1001-8352.2021.02.007]
　HE Xiaohui,LI Feng,SHA Yigang,et al.Simulation and Experimental Research on Anti-Explosion Performance of a Chain Flail Explosive Disposal Device[J].EXPLOSIVE MATERIALS,2021,50(05):34.[doi:10.3969/j.issn.1001-8352.2021.02.007]
[3]沙洪博①,袁俊明①,黄求安②,等.DNAN基熔铸装药榴弹跌落冲击特性与安全性分析[J].爆破器材,2021,50(05):28.[doi:10.3969/j.issn.1001-8352.2021.05.005]
　SHA Hongbo,YUAN Junming,HUANG Qiuan,et al.Drop Impact Characteristics and Safety Analysis of DNAN-Based Melt-Cast Charge Grenade[J].EXPLOSIVE MATERIALS,2021,50(05):28.[doi:10.3969/j.issn.1001-8352.2021.05.005]
[4]张佳①,赵岩②.基于CEEMDAN法的隧道爆破信号趋势项去除[J].爆破器材,2021,50(06):58.[doi:10.3969/j.issn.1001-8352.2021.06.010]
　ZHANG Jia,ZHAO Yan.Removal of Trend Items of Tunnel Blasting Signals Based on CEEMDAN[J].EXPLOSIVE MATERIALS,2021,50(05):58.[doi:10.3969/j.issn.1001-8352.2021.06.010]

备注/Memo

备注/Memo:: 收稿日期：2015-10-27
作者简介：刘鹏（1991－），男，硕士，主要从事引信及弹药总体技术研究。E-mail:skiy906@163.com

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed1252
全文下载/Downloads520
评论/Comments

更新日期/Last Update: 2016-09-30