RU2113427C1 - Process of production of aerosol attenuating electromagnetic radiation of ehf range - Google Patents

Abstract

FIELD: masking means for offensive and defensive operations with the use of flame, gas or smoke. SUBSTANCE: components attenuating electromagnetic radiation of EHF range are placed separately from main pyrotechnic composition. With inflammation of aerosol-forming composition they are positioned in gas stream of combustion products of mentioned composition and are transferred into aerodispersive state due to utilization of heat and kinetic energy of gas stream of combustion products of main pyrotechnic composition. Process allows aerosol screens displaying masking action in visible and EHF ranges of electromagnetic radiation to be produced. EFFECT: increased efficiency of masking by smoke-pot.

Description

 The invention relates to camouflage means in military affairs for conducting offensive and defensive operations using flame, gas or smoke, and in particular to methods providing an increase in the effectiveness of masking a smoke bomb.

 It is known that aerosols can be obtained in two ways: by dispersion and by condensation. Obtaining an aerosol by dispersion is reduced to grinding a solid or liquid substance by breaking, spraying or spraying it with an explosion. Thus, the energy expenditure required to obtain an aerosol by dispersion is reduced to the performance of a known mechanical work. The condensation process proceeds spontaneously and requires only the expenditure of a certain amount of energy to produce a supersaturated vapor (Veitser Yu.I., Luchinsky GP Chemistry and physics of masking fumes. - M .: Oborongiz, 1938).

 The prototype of the invention adopted a method for producing an aerosol, in which the pyrotechnic aerosol forming composition (AOS) is ignited. In this case, combustion (redox reaction) of the pyrotechnic AOS occurs, sublimation of the combustion products into the atmosphere by a gas stream, vapor condensation in the atmosphere.

 The chemocondensation method allows to obtain an aerosol, the particles of which are comparable with the wavelength of the visible portion of the spectrum of electromagnetic radiation (EMP), which allows masking in this range (Paly A. I. Radio-electronic warfare - M .: Military Publishing House, 1981, pp. 143-146) . However, this is currently not enough. Modern means of destruction operate not only in the visible, but also in the radar wavelength ranges of electromagnetic radiation and, in particular, in the high-frequency (EHF) range.

 At the same time, the sizes of aerosols obtained by the chemocondensation method are several orders of magnitude smaller than the wavelengths of the EHF range, which does not allow them, even at high AOS costs and large sizes of the aerosol layer, to attenuate the EMR of this range.

 The solution to this problem is possible through the use of additional components having dimensions in the aerodispersed state commensurate with the wavelength of the EHF band of the EMP. One of these components can be modified graphite (MG).

 However, the experimental results show that the direct introduction of MG into the AOS formulation leads to a decrease in the masking characteristics of the basic composition in the visible range due to the fact that MG is not involved in the aerosol formation process, and the additionally introduced component violates the stoichiometric ratio.

 The objective of the invention is to preserve the masking characteristics of the main pyrotechnic composition in the visible range and to expand the range of its masking action in the EHF range by using additional components such as modified graphite, weakening the EHF of the EHF range and transferred to the aerodispersed state using the thermal and kinetic energy of hot gases released as a result of the combustion reaction of a pyrotechnic aerosol forming composition.

 The task is achieved by placing these components before igniting the combustion products of the composition into the gas stream and transferring them to the aerodispersed state by utilizing the thermal and kinetic energy of the gas stream.

 A common sign with the prototype is the presence of the above stages of obtaining an aerosol.

 A distinctive feature of the proposed method is a separate location from the main pyrotechnic aerosol-forming composition of components that attenuate electromagnetic radiation of the EHF range so that when the aerosol-forming composition is ignited, they are in the gas stream of combustion products of the specified composition.

 Execution example. To confirm the feasibility of the proposed method for producing an aerosol that attenuates EMP in the EHF range, laboratory studies were carried out. To do this, model checkers were made (metal cylinders with a diameter of 30 mm and a height of 50 mm) and filled with metal chloride aerosol-forming composition. Modified graphite was placed on top of a perforated plate. When the metal chloride composition is ignited by the flow of hot gases released as a result of the exothermic reaction of the combustion of the composition, the conversion of modified graphite to the aerodispersed state was observed. The attenuation of the electromagnetic radiation of the EHF range was recorded by the corresponding equipment.

 EFFECT: invention makes it possible to obtain aerosols weakening the EHF of the EHF range while preserving the masking characteristics of the main pyrotechnic aerosol-forming composition in the visible range.

Claims (1)

 A method for producing an aerosol, including igniting a pyrotechnic aerosol forming composition, characterized in that, separately from the main pyrotechnic aerosol forming composition, components that attenuate electromagnetic radiation of the EHF range are arranged so that when the aerosol forming composition is ignited, they are in the gas stream of combustion products of the specified composition.