RU2483050C2 - Pyrotechnical composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to pyrotechnics, particularly to a composition for use in different devices as an incendiary element for reliable transfer of combustion in a pyrotechnical chain and accelerated formation of a combustion front of gas-generating compositions. The composition contains the following, wt %: molybdenum powder 85-96, potassium perchlorate powder 3-10, molybdenum disulphide powder 1-5. The composition is prepared by mixing starting components in a ball mill. Rate of combustion is equal to 149-549 mm/s; specific heat liberation is equal to 62-202 cal/g; specific gas release is equal to 0.1-1.2 cm³/g; combustion temperature is 1050-1370°C; cinders do not change geometrical dimensions of the starting material; the relative hazard class of manual work under friction is 2-6 and the relative hazard class under impact is 20.

EFFECT: invention increases specific heat liberation of the composition, rate and temperature of combustion, while maintaining low specific gas release.

6 ex, 1 tbl

Description

The invention relates to the field of pyrotechnics and can be used in various devices for reliable transfer of combustion in the pyrotechnic chain and the formation of the combustion front of the working charge, for example, from gas-generating compositions.

Known RF patent No. 2091917, IPC H01M 6/36, publ. 09/27/97, which shows the pyrotechnic composition for a heater of a thermal chemical current source. It has rather high values of the burning rate of 60-290 mm / s and critical burning thicknesses of 0.2-1.2 mm and consists (wt.%) Of iron 67-85, potassium perchlorate 10-18, molybdenum 5-15. The pyrotechnic composition is prepared by mechanical mixing of the components in the mixer and is intended for use in backup-type heat batteries as a heating element, as well as in devices with high heat generation. The main drawback of the composition is the rather high slag mobility at high burning speeds (more than 150 mm / s), which limits the possibility of its use as an ignition composition in gas generators with a large volume of generated gas and shut-off pyrotechnic valves.

Also known is the pyrotechnic composition (RF Patent No. 2091359, IPC СВВ 29/04, published on 09/27/1997), having rather high values of specific heat emission of 350-480 cal / g, burning rate of 140-290 mm / s and critical burning thickness of 0, 3-1.0 mm. It consists (wt.%) Of titanium 82-92, potassium perchlorate 6-8, aluminum 2-10. This composition has a combustion temperature of ~ 1700 ° C and has slow-moving slags, works reliably in the fire chain when gas generators with a large volume of generated gas and shut-off pyrotechnic valves are used. To obtain a pyrotechnic composition with such characteristics, finely dispersed titanium powder is used, which is obtained by laborious technology, which affects its cost.

The closest in technical essence to the claimed solution is a pyrotechnic composition that ensures the reliability of the fire circuit for short-term delay circuits when detonators are triggered (FR 2603576 (A1), IPC S06B, 29/02, publ. 11.03.1988). The pyrotechnic composition contains an oxidizing agent - potassium chlorate or perchlorate and at least one of two reducing agents - molybdenum or tungsten powder. The amount of oxidizing agent - potassium chlorate or perchlorate in the composition does not exceed 5 wt.%. This pyrotechnic composition may additionally contain components such as manganese, nickel and silicon, the melting points of which are higher than the combustion temperatures of the compositions in which they are used.

When used in the inventive pyrotechnic composition of manganese, nickel and silicon, the formulation of the composition wt.% Is as follows

molybdenum / tungsten 65-98; potassium perchlorate 2-5; manganese / nickel / silicon 0-30.

The pyrotechnic composition can be used to provide a time delay in detonators during mining (mine) blasting operations.

The pyrotechnic composition containing (wt.%): Molybdenum - 97, potassium perchlorate - 3 (patent FR 2603576 (A1), example No. 8), allows for a time delay of 14.7 ms / mm at a burning rate of 68 mm / s. The combustion temperature of such a pyrotechnic composition is 900 ° C.

The disadvantages of this composition, selected as a prototype, is the low specific heat of the composition (does not exceed ~ 52 cal / g), a relatively small value of the burning rate (not more than 70 mm / s), which limits the possibility of their use in the pyrotechnic chain as an ignition composition in quick-generating gas generators with a large volume of generated gas. The low specific heat of the composition (low calorie content) also limits the possibility of its use in the fire chain in the case of the transfer of combustion through a thin indestructible metal barrier to another pyrotechnic composition having a low ignition temperature (T _rep ~ 200 ° C). In addition, according to our data, the composition is very sensitive to friction, has a second hazard class.

The objective of the present invention is to increase the specific heat of the composition, speed and temperature of combustion while maintaining a low value of specific gas and initial geometric dimensions of the slag (solid inactive slag).

The technical result achieved by using the proposed technical solution is to manufacture a pyrotechnic composition with the following combustion characteristics:

- the burning rate varies depending on the selected formulation from 149 to 549 mm / s, and the burning temperature - from 1050 to 1370 ° C;

- specific gas evolution - from 0.1 to 1.2 cm ³ / g,

- specific heat (calorific value) - from 62 to 202 cal / g;

- the level of safety when exposed to friction increases from the relative hazard class of manual work - 2 to the relative hazard class of manual work - 6;

- the degree of relative hazard when exposed to impact on the composition is low, hazard class - 20;

- the degree of sensitivity to an electric spark is high (50% response energy is 0,00042 J);

- the ignition temperature of the composition in air is not less than 235 ° С, in argon - not less than 490 ° С;

- Thin (0.4-1.0) mm layers of the composition reliably (at least 0.9999 with a confidence level of 0.9) burn out at a temperature of minus 50 ° C at a speed of at least 128 mm / s, and tablets with a thickness of ( 0.4-1.0) mm at this temperature reliably ignite a tablet of a gas generating composition located in the metal housing of the gas generator;

- slags of the composition in thin ignition layers (~ 1 mm) are solid and practically do not change the geometric dimensions of the initial pressed composition;

- the composition has good formability and compressibility;

- the possibility of mass application of the composition is due to the availability and relatively low cost of components in the Russian Federation.

To solve this problem and achieve a technical result, the pyrotechnic composition containing a mixture of molybdenum powders and potassium perchlorate, according to the invention additionally contains molybdenum disulfide in the following ratio, wt.%:

molybdenum powder 85-96 potassium perchlorate 3-10 molybdenum disulfide 1-5

The use of these components and the experimental selection of their ratios allowed the authors to create a pyrotechnic composition that can be used, in particular, as an igniting element of a gas reactor with a sufficiently high burning reliability in thin layers of 0.4-1.0 mm, as well as reliable transfer of combustion to chain of fire through a thin indestructible metal barrier. The required level of combustion temperature and specific heat, combustion rate, combustion reliability and combustion transfer in the fire chain is ensured by the choice of compounding composition. The experimentally obtained combustion characteristics of the claimed composition is higher than that of the prototype. The specific gas evolution during combustion of the claimed compositions varies slightly and remains extremely small (0.1 to 1.2 cm ³ / g). Slags of the claimed composition are inactive and practically do not change their initial geometric dimensions in thin layers of the igniting element. The use in the pyrotechnic composition of a phlegmatizing additive - molybdenum disulfide, as well as the selection of the ratio of components, made it possible to increase the pyrotechnic characteristics and the level of safety during manual work of the inventive composition and at the same time ease the conditions of its pressing. The relative hazard class of the pyrotechnic composition during manual work and exposure to friction varies from 2 to 6, and when exposed to impact it remains at level 20. A high degree of sensitivity of the composition to an electric spark (to the discharge of static electricity) remains high - the 50% response energy does not exceed 0, 00042 J.

For experimental verification of the claimed composition, several pyrotechnic compositions were prepared based on the Mo-KClO ₄ -MoS _{2 system} with different ratios of the starting components, the characteristics and parameters of which are presented in the table. The composition is prepared by mixing the starting components in a ball mill. For the preparation of pyrotechnic compositions were used molybdenum powders (TU 14-22-160) grade PM99.95, potassium perchlorate (TU 6-09-3801) grade "h", molybdenum disulfide (TU 48-19-133) grade DMI-7 .

In the manufacture of the compositions, powders of the starting components were used at the stage of their delivery by the manufacturer. They had powder particle sizes less than 100 microns for Mo and MoS ₂ and less than 250 microns for KClO ₄ . In the experiments, mainly used dried powder KClO ₄ with particle sizes less than 40 microns. The results of the experimental data are shown in the table.

The inventive pyrotechnic composition (p.2-6 table) after combustion gives dense slag, while maintaining the original form of the composition. Removal of slag from thin (~ 1 mm) layers of the igniting element and its shrinkage is not observed. Slight shrinkage of the slag (but not more than 0.08 mm) in diameter and height of the burned composition tablet is noted on the composition tablets pressed into metal cups with a diameter of 11 mm and a height of 6 mm for compositions with a long processing time in the mixer.

Combustion characteristics, such as specific heat, combustion temperature, burning rate of the claimed pyrotechnic composition (p. 2-6 of the table) are significantly higher than that of the prototype specified in p. 1. of the table (the burning speed does not exceed 70 mm / s, the combustion temperature is 900 ° C, specific heat - 51 cal / g)

According to the experimental data presented in the table, the optimal technical result is observed for the compositions according to items 4, 5 of the table.

Pyrotechnic compositions containing 1-5 wt.%. molybdenum disulfide (p. 2-6 table) have a lower degree of sensitivity to friction (relative hazard class manual work 3-6) compared with the prototype. These compositions have a fairly high level of burning rate, 149-549 mm / s, specific gas evolution - from 0.1 to 1.2 cm ³ / g, specific heat - from 62 to 202 cal / g, combustion temperature - from 1050 to 1370 ° C, an acceptable level of reliability of combustion in a thin layer (~ 1 mm), after combustion form solid slag, preserving the original form of the composition. Pyrotechnic compositions according to claim 4-6 provide reliable transfer of combustion in the fire chain through a thin indestructible metal barrier. The degree of sensitivity to shock remains low (the class of relative danger of manual work is 20). The degree of sensitivity to an electric spark remains high - the energy of 50% of the response does not exceed 0,00042 J. Using the oxidizing powder of potassium perchlorate of various fractional composition (40 and 250 microns) in the claimed pyrotechnic compositions allows you to vary the burning rate of the composition.

Experimental verification at a temperature of minus 50 ° С of pyrotechnic compositions (items 2-6 of the table), designed for reliable transfer of combustion in the pyrotechnic chain and accelerated formation of the combustion front of gas-generating compositions, gave positive results when used in a thin layer (0.4-1 , 0 mm) of the firing element.

Claims (1)

The igniter pyrotechnic composition containing molybdenum and potassium perchlorate, characterized in that it additionally contains molybdenum disulfide in the following ratio of starting components, wt.%:
molybdenum powder (Mo) 85-96 potassium perchlorate powder (KClO ₄ ) 3-10 molybdenum disulfide powder (MoS ₂ ) 1-5