摘要为了研究电雷管的抗高过载性能，利用自由式霍普金森压杆过载实验技术对电雷管试样进行加载。在过载实验前后，测量电雷管试样的长度、直径和电阻值的变化，并拍摄X光照片。通过分析实验数据，可以得到以下结论：
（1）在过载加速度为10万G、脉宽为60微秒的条件下，1-7号雷管抗轴向冲击的能力高于其抗径向的，各种电雷管的抗过载性能差异较小，均具有较好的抗过载能力；
（2）分别在15、20、23万G的加速度峰值、20微秒脉宽的条件下，6号雷管的尺寸及电阻变化很小，雷管具有较好的抗过载能力；
（3）分别在15、20、23万G的加速度峰值、20微秒脉宽的条件下，对每发6号电雷管冲击5次，对比过载前后雷管尺寸可得出，雷管长度在每次撞击后都有所减小，直径有所变化但没有规律性，电阻减小，雷管的抗过载能力较高。10925
关键词  霍普金森杆  波形整形器  过载加速度  电雷管  发火时间  火工品 抗高过载能力
毕业论文设计说明书（论文）外文摘要
Title  Research on Damage Characteristic of Electric Initiator with Hopkinson Pressure Bar Under High g Environment                   
Abstract
The anti-high overload performance of electric detonators is presented by using free and split Hopkinson pressure bar technique. The length, diameter and resistance of detonators were been measured, and X-ray pictures taken. By analyzing experimental data, conclusion are that:
(1)In the conditions of 100 thousand G acceleration overload and pulse width 60 microseconds, showing that detonator’s anti-axial shocks ability is higher than the anti-radial shocks ability;
(2)In the conditions of different peak acceleration which are 150,200,230 thousand G and 20 microsecond pulse, the 6th detonator’s size and resistance changing is very small, indicating that the detonator has a good anti-overload ability;
(3)Each 6th detonator was been assaulted 5 times in the conditions of different peak acceleration which are 150,200,230 thousand G and 20 microsecond pulse, after each assaultion, the detonator’s length and diameter were been measured. Comparing experimental data before and after, we can see that there is a little change between the dates.So detonator has a high anti-overload ability.
Keywords  Free Hopkinson Pressure Bar  Waveform shaping 
          Acceleration overload     Electric detonator    Ignition time                                           
          Initiator    Overloading-resistibility    
  目   录
1  绪论    1
1.1  本实验研究的目的及意义    1
1.2  火工品过载实验研究现状    1
1.3  霍普金森杆实验国内外研究现状    2
1.4  本文的研究内容    3
2  霍普金森压杆过载实验方法    4
2.1  实验原理    4
2.1.1  自由式Hopkinson法应力波加载实验    4
2.1.2  分离式Hopkinson法应力波加载实验    5
2.2  实验仪器与装置    7
2.2.1  气动系统    7
2.2.2  压杆系统    8
2.2.3  采集及测量系统    8 电火工品在Hopkinson压杆高过载条件下的损伤特性研究:http://www.751com.cn/huaxue/lunwen_10162.html