RU2005706C1 - Ignition mixture for explosive cartridges - Google Patents

Abstract

FIELD: shooting. SUBSTANCE: mixture includes the following ingredients, % by weight: plumbous ferrocyanide 25-75, fluorine-containing organic rubber; potassium perchlorate for the balance. The composition is processed by conventional methods. The characterization of the end product is as follows: flash point 350-385 C, combustion heat 920 Kcal/kg. EFFECT: enhanced efficiency. 1 tbl

Description

 The invention relates to pyroautomatics.

 Various means of pyroautomatics are widely used for remote control of automation units of rocket and space technology: pyro-cartridges, electric igniters, electric igniters, etc.

Existing tools provide not operate at temperatures over 120 ° ^C. Their operation at higher temperatures will be available when creating the thermal protection, which leads to complication of the design of devices and to a decrease in the reliability of their operation.

Heat resistance of products can be enhanced by the use of more heat-resistant pyrotechnic compositions. US Pat. No. 3,960,083 proposes an ignition composition based on potassium perchlorate and titanium hydride. The composition has a flash point over 530 ^{° C,} it can be used for the squibs with equipment operating temperature over 300 ° ^C. However, this compound has a large opening pressure variation, as HYDRO titanium has no constant chemical composition. High dispersion of the components of the composition makes it difficult to process.

Known pyrotechnic composition SVGr 45 / 55-2 OST B84-556-72 (prototype), containing iron-iron-lead sulfide 45%, potassium perchlorate 55% and rosin 2% in excess of 100%. The composition is widely used to equip various pyrotechnic devices. The composition provides operation of these products at 130 ^{° C} for not more than 3 hours. Operation products at higher temperatures, for example at ¹⁵⁰ ° C and above, in sealed structures products leads to their destruction or disassembly, such shift of the cap or a departure together with the composition, which ultimately leads to failures in the operation of pyroautomatics systems.

 The destruction of products occurs under the influence of high pressure created by the sublimation of volatile components of the composition when exposed to high temperatures. Such components are primarily rosin.

 The squib equipped with the composition of the SVGr 45 / 55-2, provides a dispersion of the response pressure (20-25)% of the nominal. Such a spread is explained by insufficiently stable combustion processes, primarily due to rosin, which has an unstable chemical composition and unstable characteristics at elevated temperatures.

 When creating modern pyroautomatics tools and systems, pyrotechnic devices with a smaller variation in response pressure are required, which increases the stability and reliability of their functioning.

 The aim of the invention is to increase the heat resistance, radiation resistance, stability, and reliability of the composition in the squibs operated at high temperatures.

This is achieved by the fact that the igniter composition based on ferruginous lead and potassium perchlorate as a granulator contains organofluorine rubber in the following ratio, wt. %:
Ferruginous
lead 25-75
Organofluorine Rubber 1-5
Potassium Perchlorate
A significant improvement in the energetic, thermochemical and other properties of the igniter composition for pyro cartridge with the introduction of organofluorine rubber is explained by the fact that fluorine has a very high binding energy in the molecule of the organofluorine compound, thereby significantly increasing the thermal stability of the compounds and compositions in which these compounds are used.

 The table shows the results of comparative tests of the proposed pyrotechnic composition and composition of the prototype.

 From the data table shows that the proposed composition provides higher heat resistance, radiation resistance. Products equipped with this composition have higher stability in terms of developed pressure. These advantages are achieved when the content of the components within the claimed limits.

 The high calorific value of the composition of samples 2, 3, 4 provides a more stable pressure on the products than on samples 1.5.

 The proposed composition can be processed using existing technology, which does not require readjustment of equipment. Currently, the composition is widely used in the equipment of experimental and serial pyro cartridge.

 Higher technological characteristics of the proposed composition can improve the reliability and stability of the existing and developed pyrotechnic devices.

 (56) OST B 84-556-7.

Claims (1)

Igniting composition for pyrocartridges based on lead-iron-lead hydrogen, potassium perchlorate and granulator, characterized in that, in order to increase the ignition reliability, thermal and radiation resistance, it contains organofluorine rubber as a granulator in the following ratio of components, wt. %:
Ferruginous Lead 25 - 75
Organofluorine Rubber 1 - 5
Potassium Perchlorate

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