Susceptibility of Electro-Explosive Devices to high pulsed electric fields

2012 IEEE International Power Modulator and High Voltage Conference (IPMHVC) Pub Date : 2012-06-03 DOI:10.1109/IPMHVC.2012.6518716

D. Reale, J. Mankowski, J. Dickens

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引用次数: 1

Abstract

Commercially available Electro-Explosive Devices (EEDs), such as blasting caps, use electrical current to initiate a primary charge. Various detonators including bridge wire, match-type, exploding bridge wire, and slapper. The basic operating principle of the match-type device is to heat the ignition element to the ignition temperature of the primary explosive. The normal operation current profiles, both constant current and pulsed excitation, are well known, as is the ignition temperature. However, as safety and reliability are of great concern, both in the operation and storage of EEDs, the susceptibility of these devices to transient or spurious fields is of interest. The susceptibility of match-type EEDs to high pulsed electric fields is examined. A Finite Element Method (FEM) simulation is performed using COMSOL to determine the induced current in the bridgewire due to applied electric fields and the resulting Joule heating of the wire. Several situations are investigated including the EED in conductive and non-conductive media and leads open or terminated representing operational and storage conditions.

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电爆炸装置对高脉冲电场的敏感性

商业上可用的电爆炸装置(eed)，如爆破帽，使用电流来启动一次充电。各种雷管，包括桥丝、火柴式、爆炸桥丝、击雷管等。火柴式装置的基本工作原理是将点火元件加热到原爆的点火温度。正常工作电流分布，包括恒定电流和脉冲激励，是众所周知的，因为是点火温度。然而，由于安全性和可靠性是非常重要的，无论是在操作和存储，这些器件对瞬态或伪场的敏感性是感兴趣的。研究了匹配型等离子体对高脉冲电场的敏感性。利用COMSOL进行了有限元模拟，以确定由于外加电场和导线产生的焦耳加热而产生的桥导线中的感应电流。研究了几种情况，包括导电和非导电介质中的EED，以及代表操作和存储条件的引线打开或终止。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE International Power Modulator and High Voltage Conference (IPMHVC)

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