RU2003032C1 - Pyrotechnic heater low-temperature charge - Google Patents

Description

the loads after the reaction of the wall and the bottom of the body were deformed due to swelling of the mixture, increasing the initial volume of the body by 5-10%.

A change in the heat release rate can be achieved by changing the stiffness of the shell (for example, by tightening it with a clamp).

To enable activation without introducing sealing rods, a component that is reactive with a separately stored component (water) with a large volume increase can be added to the mixture. Thus, quicklime was added to a mixture of 95% AI, 5% NaNOa, which has a density of "3.4 g / cm3 (see brief chemical encyclopedia. M: SE 1963, T.2. C. 138. 380). With the addition of water, Ca (OH) 2 was formed with a density of about 2.2 g / cm 2 with heat generation, compaction, and shear of the main mixture, resulting in prolonged heat generation with deformation of the aforementioned body.

Charge was made from the above mixture into the shell during preliminary pressing of aluminum with sodium nitrate with a force of 10 kgf / cm2, water was added, which ensured the reaction with its attenuation due to the formation of a dense film on aluminum. The movement of the mixture layers with a rod with a diameter of 5-6 mm with a force of 10-15 kg ensured the occurrence of a reaction.

When applying the above mixture to emery surfaces and rubbing these surfaces against each other, a reaction was also carried out with its attenuation and subsequent resumption upon friction of the surfaces.

Thus, the production of a charge with a ratio of components beyond the concentration limit of combustion, with a compaction coefficient that ensures the existence of interconnected pores, along which an external oxidizer fills the entire volume of the charge, allows a decrease in the reaction temperature for

5 due to the shear and deformation of the fuel particles, which leads to the destruction of the dense protective oxide film and the heat release due to the reaction of the active metal to higher oxides.

0 Experiments with the aforementioned charge with all initiation options confirmed the presence of prolonged low-temperature heat release (only in experiments with quicklime, the temperature during extinguishing increased above 150 ° C) with a temperature of 45-89 ° C with a natural heat sink into the air.

(56) Zhabrova G.M. Heat without flame. M ,: AN 0 USSR, T945, pp. 24-28.

Shidlovsky N.A. Fundamentals of pyrotechnics. M .: Engineering. 1973, p. 289.

Claims (1)

The claims CHARGE OF A LOW-TEMPERATURE PYROTECHNICAL HEATER, characterized in that, in order to increase the efficiency of operation, it is made in in the form of pieces of a pyrotechnic composition with a compaction coefficient of not more than 0.9, including oxidizing agent and fuel, taken in excess. k