超细LLM-105短脉冲起爆特性（英）

Q3 Engineering

Hanneng Cailiao/Chinese Journal of Energetic Materials Pub Date : 2016-09-25 DOI:10.11943/J.ISSN.1006-9941.2016.09.016

付秋菠, 李敏, 郭菲, 王猛, 王窈

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引用次数: 1

摘要

设计两种飞片，研究超细2,6 -二氨基- 3,5 -二硝基吡嗪-1-氧化物(LLM-05)的短时间脉冲起爆特性。采用基于飞片速度分析的d -最优方法实现了LLM-105超细弹的射击试验。结果表明，随着脉冲电流的增大，飞片速度逐渐增大。通过对比小尺寸飞锭，大尺寸飞锭的速度对电流变化比较敏感。大型飞片存在速度一致性差的问题，这与空气阻力有关。气流阻力随飞片尺寸的增大而增大。超细LLM-105的50%烧成电流为2.14 kA，几乎等于HNS-Ⅳ的起始阈值。结果表明，超细LLM-105可作为冲击雷管起爆药。LLM-105爆炸系统将满足垂发雷管的发展趋势，即脱敏、低输入能量等。

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超细LLM-105短脉冲起爆特性（英）

The two types of flyer were designed to study short duration pulse shock initiation characteristics of ultrafine 2, 6-diamino-3, 5-dinitro-pyrazine-1-oxide(LLM-05). The firing testing of ultrafine LLM-105 is implemented by D-optimal method based on analysis of flyer velocity. It is found that the flyer velocity is increasing as increasing pulse current. The velocity is sensitive to current variety for large dimension flyer by contrasting small dimension flyer. The inferior velocity consistency for large flyer exists, which has the relationship with air resistance. The air resistance is increasing with improvement of flyer dimension. The 50% firing current, of ultrafine LLM-105 is 2.14 kA by small dimension flyer, which is almost equal to initiating threshold of HNS-Ⅳ. It is indicated that ultrafine LLM-105 would be used for initiation explosive at slapper detonator. The LLM-105 explosion system will satisfy the development trend of slappde detonator, namely, desensitization, low input energy, and so on.

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来源期刊

Hanneng Cailiao/Chinese Journal of Energetic Materials Engineering-Industrial and Manufacturing Engineering

CiteScore

1.90

自引率

0.00%

发文量

4271

期刊介绍： Chinese Journal of Energetic Materials is a vital forum for the exchange of science and technology in energetic materials, and information on - Propellants - Explosives - Pyrotechnics - Ignition, combustion and detonation