RU2696387C1 - Igniting pyrotechnic composition - Google Patents

Abstract

FIELD: technological processes; imploding works.

SUBSTANCE: invention relates to pyrotechnic malogas flammable composition, which can be used for ignition of working charge enclosed in metal shell, during induction heating of ignition and working charges containing metal structures. Igniter composition contains, wt%: lead dioxide is 77.9–87.2 as oxidant, aluminum powder 9.0–12.9 and sulfur powder 1.3–10.8 as combustible. Invention is aimed at reduction of ignition temperature in conditions of kinetic heating, reduction of specific gas release and increase of specific calorie content.

EFFECT: composition has an ignition temperature of less than 200 °C under conditions of kinetic heating, namely 157–198 °C, gas emission 14,9–30,7 cm³/g and high specific caloric content of 2,120–2,740 J/g.

1 cl, 1 tbl, 18 ex

Description

The invention relates to the field of pyrotechnics, namely, to small-gas igniter compositions having a flash point of less than 200 ° C under conditions of kinetic heating. The composition can be used to ignite the working charge, enclosed in a metal shell, during induction heating containing igniter and working charges of metal structures.

Known igniter composition (Canadian patent No. 471931, publ. 6.03.1951), containing (% wt.) As an oxidizing agent lead red (Pb ₃ O ₄ ) 35-80, as a combustible zirconium powder 20-65 and technological additive - nitrocellulose in an amount of at least 1% in excess of 100%. According to our information, the ignition temperature of this composition is 180 ° C. The low ignition temperature of the composition is due to the fact that its ignition is initiated by ignition of nitrocellulose. Specific gas evolution of the composition of the order of 19-20 cm ³ / year

The disadvantage of this composition is that under conditions of low heating rate, nitrocellulose decomposes without ignition. According to our information, after such decomposition, the ignition temperature of the composition increases to ~ 330 ° C.

Another disadvantage is the low calorific value of the composition, which makes it difficult to ignite the working charge in the metal shell. The maximum specific calorific value of the igniter composition according to Canadian patent No. 471931 is 1678 J / g with lead meerk content 79% of the mass. and zirconium powder 21% of the mass.

Known igniter pyrotechnic composition containing lead red lead as an oxidizing agent, zirconium powder as a fuel and technological additive molybdenum disulfide powder in the following ratio of components, mass. %: red lead 65-80; zirconium powder - 20-30; molybdenum-3-6 disulfide powder (RF patent No. 2297404, published April 20, 2007, Bull. No. 11). The ignition temperature of the composition is 240-520 ° C; specific gas evolution of 8-12 cm ³ / g

The disadvantage of this composition is a rather high flash point - 240-520 ° C and low calorific value of the composition. The maximum specific calorific value of the composition is equal to 1530 J / g with the content of lead red lead 76.7% by mass, zirconium powder 20.3% by mass. and molybdenum disulfide 3% of the mass.

Closest to the claimed composition in technical essence is a pyrotechnic igniter composition (RF patent No. 2202528, published on 04/20/2003, Bull. No. 11), containing lead oxide and potassium perchlorate as an oxidizing agent, as a combustible aluminum and boron and a binder - organosilicon varnish .

The disadvantage of this composition is the high ignition temperature (more than 250 ° C), significant gas evolution (139.5-145 cm ³ / g) and low maximum specific calorific value (1710 J / g with a content of 78% by weight of lead minium, 5% by weight. potassium perchlorate, 5% by weight of aluminum, 8% by weight of boron and 4% by weight of organosilicon varnish).

The problem solved by the present invention is to reduce the ignition temperature of the composition under conditions of kinetic heating, reduce specific gas evolution and increase specific calorific value.

When using the invention, the following technical result is achieved:

- ignition temperature when heated at a speed of 10 ° / min. makes 157-198 ° C:

- gas evolution is 14.9-30.7 cm ^-3 / g;

- specific calorie content is 2120-2740 J / g.

The problem and the technical result are achieved due to the fact that the igniter pyrotechnic composition containing lead oxide as an oxidizing agent, aluminum powder as fuel, according to the invention, it contains lead dioxide as lead oxide, and additionally contains sulfur powder as fuel in the following ratio of components, mass. %:

lead dioxide 77.9-87.2 aluminum powder 9.0-12.9 sulfur powder 1.3-10.8

Significant differences of the proposed technical solution are the replacement of the oxidizing agent - lead minium with lead dioxide, the introduction of sulfur as an additional fuel, and a new ratio of components, which made it possible to lower the ignition temperature, decrease the specific gas evolution, and increase the specific calorific value of the composition.

For experimental testing of the inventive composition, aluminum (Al) powders of the ASD-4 grade TU 1791-007-49421776-2011, sulfur (S) grade of the OSCH-14-4 grade of TU 6-09-2546-77 and lead dioxide (PbO ₂ ) of the grade were used CHDA TU 6-09-1568-77. These components were rubbed through a sieve with a mesh size of 150 microns and mixed in a drunk barrel mixer. Then, tablets with a diameter of 8 mm were pressed from them. The weight of one tablet was approximately 1 g.

The ignition temperature was determined by changing the temperature of the thermocouple in contact with the surface of the sample when it was heated in vacuum at a linear rate of 10 ° C / min. Heating was carried out in a calibrated volume setup, which made it possible to determine the gas evolution of the composition.

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

These tables show that the claimed composition has the following characteristics:

- the ignition temperature of 157-198 ° C (examples 4-12) instead of more than 250 ° C in the prototype. The ignition temperature of the composition rises to more than 350 ° C when the content of the components is outside the claimed range (examples 13-18);

- specific calorie content 2120-2740 J / g (examples 4-12) instead of 1690-1710. J / g of the prototype.

- gas evolution is 14.9-30.7 cm ³ / g (examples 4-12) instead of 139.5-145 in the prototype.

Claims (2)

An igniter pyrotechnic composition containing lead oxide as an oxidizing agent, aluminum powder as a fuel, characterized in that it contains lead dioxide as lead oxide, and additionally contains sulfur powder as a fuel in the following ratio of components, wt. %: lead dioxide 77.9-87.2 aluminum powder 9.0-12.9 sulfur powder 1.3-10.8