摘要静电放电现象存在于电雷管的整个生命周期,在制造、装配、运输、勤务处理、贮存及使用过程中,电雷管时刻都面临着静电冲击的危险。静电会造成电雷管的意外发火,引起意外燃烧爆炸事故。本文在前人的基础上,从机理上分析了电雷管的静电安全问题,并着重分析了人体静电对电雷管的危害。介绍了电雷管的典型防静电结构和最常用的防静电设计技术,并针对某小型化敏感型电雷管进行防静电设计,从空气隙泄放,使用绝缘环,涂覆导电胶三个方面进行设计和试验验证,认为对小型化敏感性电雷管而言,进行防静设计,涂碳化硅导电胶是可以优先选用的方法。73511
毕业论文关键词 电雷管 静电危害 防静电设计 导电胶
毕业设计说明书外文摘要
Title Optimization design of detonator in electro-static sensitivity
Abstract
Electro-static discharge is existed in the whole life cycle of electro-detonator, in process of manufacturing, assembling, transporting, servicing process, storaging and employing, electric-detonator is facing the danger of static shock all the time。 Static may cause the accidental ignition of electro-detonator, leading to the accidental combustion explosion。Based on the predecessors, this paper analyses static problem of electro-detonator from the mechanism, especially the harm of human body static to electro-detonator。This paper introduced typical structure of anti-static electro-detonator and most commonly used technology of anti-static,and provided some anti-static design scheme for a sensitive miniaturized electro-detonato,which contained three aspects, adopting air gap discharge static, using insulation ring, coating conductive adhesive。Tested and validated the three anti-static design scheme, the results showed that coating conductive adhesive was the best way for a sensitive miniaturized electro-detonato to prevent static。
Keywords electro-detonator harm of electro-static design of anti-static conductive adhesive
目 次
1。 引言 1
1。1 电雷管静电安全问题的背景及意义 1
1。3 本课题研究的主要内容 3
2。 电雷管静电问题分析 4
2。1 静电的产生及危害 4
2。2 静电感度的概念及分类 4
2。3 电雷管静电安全分析 5
2。4 抗静电电雷管的结构分析 7
2。5 电雷管防静电设计技术 9
3。 某电雷管抗静电问题研究 12
3。1 某电雷管主要战术技术指标 12
3。2 某电雷管结构 12
3。3 某电雷管的工艺规程流程图 14
3。4 某电雷管的防静电设计 14
3。5 静电放电试验与分析 17
3。6 对使用导电胶电雷管进行性能测试 电雷管静电感度优化设计:http://www.youerw.com/huaxue/lunwen_83887.html