RU2135438C1 - Pyrotechnic composition - Google Patents

Abstract

FIELD: chemical industry, more particularly pyrotechnic heater. SUBSTANCE: composition comprises, wt %: Ti, 26-31%; B is 12-14%; Y′ is 55-62%. Composition is prepared by stirring original components in ball mill. Technical characteristics of pyrotechnic composition: specific gas liberation is 0.3-4 cubic cm/g of mixture, heat liberation is 460-580 cal/g of mixture, burning rate is 50-95 mm/s. EFFECT: improved properties of the composition. 1 tbl

Description

 The invention relates to the field of pyrotechnics and can be used as a pyrotechnic heater (PTN) in various products, where the pyrotechnic composition (PTS) used is required to produce a strictly defined amount of heat in a given time interval with low gas emission.

Known PTS [1] containing a mixture of iron (88 wt.%) And potassium perchlorate (12 wt.%). This composition has a low gas emission value of ~ 1.3 cm ³ / g. However, its disadvantage is a small heat release of ~ 220 cal / g, which limits its use.

PTS [2] based on zirconium (15–50 wt.%) And barium chromate (50–85 wt.%) Are known. These PTS have high values of heat, but they are characterized by a large number of gaseous products of combustion (up to several tens of cm ³ / g). High gas pressure leads to the need to make the body of the structure durable, which affects the increase in its mass and dimensions. Such PTS after combustion change shape and geometric dimensions due to the melting of part of the components of the composition during combustion, which leads to weakening of the thermal contact between the PTH and the heated part of the structure. In addition, the combustion temperature of such compositions is high 2500 - 3000 ^o C, so there is a problem of protecting the structural parts from heat shock.

Closest to the claimed technical solution according to the technical essence is PTS [3], containing titanium and boron powders taken in a stoichiometric ratio or with stoichiometry shifted towards excess titanium. The reaction mixture also contains yttrium powder, taken in an amount from 5 to 35 wt.% Over the composition, which corresponds to a mass fraction of yttrium in the mixture of ~ 4.8 - 25.9 wt.%. This PTS is designed to initiate an explosive reaction by exothermic interaction of the components of the composition with subsequent contacting of the reaction mass with water. The well-known PTS based on the stoichiometric composition of Ti + 2B with the addition of the indicated amount of yttrium is characterized, along with a high heat release value, a high gas release value. So the composition corresponding to the composition of the prototype according to the recipe (table 1, N 5), according to our data, with a heat release of 560 cal / g, it has a specific gas release of 7.2 - 1.5 cm ³ / g (table 1, N 5), therefore, when its use as a heating element, for example in a thermal battery (TB), there are problems associated with an increase in pressure in a sealed enclosure, an increase in thermal conductivity of thermal insulation and possible interaction of the gases formed with the active or useful substance of the product. In addition, the use of such a high-calorie composition implies the presence of additional elements in the heating device that prevent the product from excessive overheating, which undoubtedly complicates its design. In turn, the shift of the formulation towards excess titanium, along with a decrease in the calorific value of the composition, leads to a decrease in the burning rate and, accordingly, to an increase in the inertial period of bringing the heating device to an active state.

 The problem solved by the present invention is to reduce the value of the gas release of the TCP while maintaining high values of heat.

To solve the problem in the known TCP containing powders of titanium, boron and yttrium, according to the invention, the components are taken in the following ratio, wt.%:
Ti - 26 - 31
B - 12 - 14
Y - 55 - 62
The technical result achieved by using the invention is as follows: specific gas evolution of 4 - 0.3 cm ³ / g (the first value corresponds to the maximum gas evolution, the second is characterized by gas content after past absorption); heat emission 460 - 580 cal / g; burning rate 50 - 95 mm / s.

Comparative analysis with the prototype shows that the claimed TCP is different from the known new ratio of components. It was experimentally established that the use of the specified ratio of the components allows not only to maintain a high value of heat (combustion temperature does not exceed 2000 ^o C), but also to obtain a low value of gas evolution. This effect is ensured as a result of the interaction of yttrium with gases, which can go both along the path of the formation of chemical compounds and through sorption or dissolution. In addition, the action of a getter that is activated during a chemical reaction extends to almost all gases, except inert gases, which can be formed both due to combustion of the PTS and heating of the structural parts of the product.

 The inventive TCP is prepared by mechanical mixing of the starting components in a ball mill. To prepare the reaction mixtures, TPAT grade titanium powder, yttrium powder with a particle fraction of less than 40 μm and boron powder with a particle fraction of less than 1 μm were used.

 The heat release of the composition was determined on a calorimeter V-08M. Gas evolution was determined using an MDD-TE pressure sensor with continuous recording on an H017 light-beam oscilloscope. The relative density of the pressing-in composition was 0.7. The burning rate was determined by the response time of the photodiodes located at a fixed distance from each other.

 The results of the experiments are summarized in table.

The table shows that a number of compositions based on the Ti-BY system with a different ratio of components characterized by a low gas evolution value were obtained: 4 - 0.3 cm ³ / g (N 1 - 3, table 1). The composition according to p. N 5 relates to the prototype and has a high value of maximum gas evolution (7.2 cm ³ / g). The composition according to p. N 4 does not correspond to effective gas absorption and has a high minimum gas evolution value of 3 cm ³ / g. The heat dissipation of the compositions according to p. N 1 - 3 is 460 - 580 cal / g, which is sufficient to achieve the product operating temperatures, on the other hand, it allows to abandon the structural additional elements that prevent the product from heat shock.

According to the experimental data given in the table, the optimal technical result is observed for the compositions according to p. 1, 2 and 3, i.e., wt.%:
Ti - 26 - 31
B - 12 - 14
Y - 55 - 62
The inventive pyrotechnic composition allows you to provide a combustion temperature of not more than 2000 ^o C and thus abandon additional designs that prevent the elements of the product from excessive overheating and heat stroke; at the same time, keep high values of the burning rate of 50 - 95 mm / s and heat dissipation of 460 - 580 cal / g, which are necessary, respectively, for quick actuation of the product and achievement of operating temperatures; to lower the value of specific gas evolution (4 - 0.3 cm ³ / g) by bringing the metal additive into an active state during the chemical reaction and efficient absorption of the resulting gases.

 In addition, the creation of a low-gas composition with a large heat release creates favorable conditions for reducing the dimensions of the PTN and, accordingly, their mass.

Claims (1)

Pyrotechnic composition containing titanium, boron and yttrium powders, characterized in that it contains components in the following ratio, wt.%:
Ti - 26-31
B - 12-14
Y - 55-62

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