RU2202528C1 - Thermostable ignition compound - Google Patents

Abstract

FIELD: pyrotechnic low-gas thermostable ignition compounds for first-fire charges in aviation and rocketry. SUBSTANCE: proposed compound contains oxidizer - red lead and potassium perchlorate, combustible agent aluminum and boron and binder silicon organic varnish. EFFECT: improved ignitability at temperatures up to 250 C. 1 tbl

Description

The invention relates to pyrotechnic means of ignition of low-temperature heat-resistant compositions used to equip explosive devices (WU) of aviation and rocket technology (moderators, fuses, self-liquidators), withstanding heat up to a temperature of 250 ^o C.

 A number of pyrotechnic compositions are known: US Pat. U.S. Pat. No. 3,753,811 of 19.73, US Pat. U.S. 3,793,100 of 1974, US Pat. U.S. 3,712,222 of 1973, US Pat. U.S. 3,617,403 of 1972, US Pat. Germany 3018210 from 1982, US Pat. England 1344609, US Pat. France 2216248 from 1974 and others, which are recommended as a means of ignition.

 But most of these compounds burn with high gas emission and are designed to initiate solid rocket fuel.

Other patented compositions have such disadvantages as low power, poor flammability and low heat resistance (can withstand heating up to 150 ^o C).

 The above disadvantages do not allow the use of these compounds in modern WU.

The closest analogue of the invention is (U.S. Pat. %:
Fuel - Boron or Silicon - 3-12
Oxidizing agent - lead minium or lead oxide - 80-95
Fluoropolymer "Viton A" (CF ₂ CH ₂ CF ₂ ) _x - 2-12
The composition of the prototype is heat-resistant, insensitive to shock, but has poor flammability from KB and EV, therefore, for reliability of its ignition and transmission of ignition to a low-gas composition, prepressing, for example, smoke powder, is necessary. And this leads to a loss of thermal stability of WU.

 The technical task of this invention is the creation of a new heat-resistant igniter composition with improved flammability.

The technical result of the invention is the achievement of trouble-free ignition of low-gas heat-resistant compositions at t up to 250 ^o .

The technical result is achieved due to the fact that lead oxide and potassium perchlorate are used as an oxidizing agent, aluminum and boron, and an organosilicon varnish are used as fuel, and the components are taken in the following ratio, wt. %:
Lead minium - 78-82
Potassium Perchlorate - 4-5
Aluminum - 7-8
Boron - 4-5
Organosilicon varnish - 3-4
The listed components are used separately in some pyrotechnic compositions, giving these or those qualities, however, in such a combination the composition is used for the first time and meets the task, namely: to ensure trouble-free ignition of low-gas heat-resistant compositions both under normal operating conditions of the VU and at temperatures up to 250 ^o With exposure for 8-10 hours.

 The ratio of components and characteristics of the patented composition and prototype are presented in the table.

 These tables show that the flammability and flammability of the patented composition is higher than that of the prototype. Gas evolution and heat resistance are approximately at the same level.

 The patented composition has found application in the fire-transfer units of the VU, provides reliable and safe ignition of heat-resistant MGS.

Claims (1)

The composition is igniter heat-resistant, containing an oxidizing agent, fuel and a binder, characterized in that it contains lead minium and potassium perchlorate as an oxidizing agent, boron and aluminum as a fuel, and an organosilicon varnish as a binder, in the following ratio of components, wt.% :
Lead minium - 78 - 82
Potassium Perchlorate - 4 - 5
Boron - 4 - 5
Aluminum - 7 - 8
Organosilicon varnish - 3 - 4-

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