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Trinitride and synthesis method thereof, and application thereof as heat-resisting initiating explosive

A technology of azide compound and synthesis method, applied in the field of pyrotechnics, can solve the problem of not being able to pass 250°C and the like

Inactive Publication Date: 2014-06-18
中国兵器工业第二一三研究所
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  • Abstract
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Problems solved by technology

[0010] It can be seen from the above table that BNCP and LA have the best temperature resistance, but the practical application of these two types of pyrotechnics shows that they still cannot pass the high temperature test at 250°C for 6 hours

Method used

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Embodiment Construction

[0031] Describe the present invention below in conjunction with specific embodiment:

[0032] One of the purposes of the present invention is to disclose a high temperature resistant priming agent—cadmium azide, referred to as CA, whose molecular formula is: Cd(N 3 ) 2 .

[0033] The second object of the present invention is to disclose the preparation principle, steps and process conditions of a novel high-temperature-resistant priming agent CA.

[0034] The third object of the present invention is to disclose the basic properties of CA and its evaluation. According to its characteristics and test results, CA can be used as a high-temperature-resistant primer for deep well oil exploration blasting devices, engineering detonators and military temperature-resistant detonators.

[0035] Firstly, the present invention discovers a new high-temperature-resistant primary explosive from azide compounds. Cadmium is one of zinc, cadmium, and mercury in group IIB elements of the peri...

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Abstract

The invention proposes a trinitride and a synthesis method thereof, and application thereof as a heat-resisting initiating explosive. The chemical name of the trinitride is azide cadmium, the molecular formula is Cd(N3)2, the trinitride reacts through a cadmium nitrate solution and a sodium azide solution under the conditions of required reaction temperature, material ratio, charging sequence, reaction time and pH value of a reaction solution, so as to obtain the azide cadmium. The performance of the azide cadmium is subjected to comprehensive assessment by a test. The impact sensitivity of carbonic anhydrase (CA) is equivalent to that of lead azide while the friction sensitivity and the static-electric sensitivity are more insensitive than those of the lead azide; the decomposition peak temperature of the CA is higher than that of the lead azide, and achieves 334-370 DEG C; the explosion temperature can be up to 417-426 DEG C; the initiating power of the CA is much stronger than that of the lead azide. Thus, the CA can be applied to heat-resisting detonators and various miniature detonators instead of the lead azide.

Description

technical field [0001] The invention relates to the technical field of pyrotechnics, in particular to an azide compound, a synthesis method thereof, and an application as a high-temperature-resistant priming charge. Background technique [0002] In recent years, the use environment of pyrotechnics is getting worse and worse, whether it is for civilian use or military use. According to the analysis of environmental effects, the extreme service environments encountered by pyrotechnics mainly include complex electromagnetic interference environments, harsh mechanical environments, and natural climates such as extreme high temperature and high humidity. When pyrotechnics are in service under such extreme electromagnetic, force, temperature, humidity and other stresses, their performance may be changed and damaged, so that they may malfunction or fail to function. The primary explosive is the key energetic material of pyrotechnics, it is the energy source for reliable action of ...

Claims

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Application Information

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IPC IPC(8): C01B21/08C06B35/00C06C7/00
Inventor 盛涤伦陈利魁朱雅红杨斌张裕峰
Owner 中国兵器工业第二一三研究所
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