DE10138745A1 - Surface flare, useful to generate an artificial target for the defense of infrared controlled steering flight body, comprises a carrier foil and a pyrotechnical active mass, where a part of the foil is formed from a propellant powder - Google Patents

Abstract

Surface flare comprises a carrier foil and a pyrotechnical active mass, where at least one part of the carrier foil is formed from at least one propellant powder.

Description

The The present invention relates to surface flares for fake target generation to ward off infrared-controlled steering search missiles according to claims 1 and 8, the use of foil-shaped propellant powders as surface flares according to claim 11, the use of the same as Carrier films for Flächenflares according to claim 12 and an ammunition according to claim 14.

Infrarotstörstrahler to protect targets against hits by with on infrared radiation appealing sighting machine equipped projectiles, For example, rockets, the approach of the projectile the destination in the adjacent airspace is already declining known.

For example, describes the DE 23 59 758 C1 Surface flares with a Flarewirkmasse, wherein the inert components consist of metal carrier films, which are coated with the Flarewirkmasse. It is an infrared radiator in which the weight or volume ratio between the Flarewirkmassekomponente and the inert component is optimized from the standpoint of extending the radiation duration by slowing down the burnup, without special adaptation of the spectral radiance distribution to that of the simulated target signature.

According to the teaching of DE 23 59 758 C1 a film strip consists of a carrier film, which is sandwiched, provided on both sides with a coating. The carrier film may be made of thin paper, in particular tissue paper, cardboard or thin metal foils, such as aluminum foils. The coating composition consists of a plastic paste, such as polyvinyl chloride paste, plasticizer, for example dioctyl phthalate, dispersants, in particular white spirit and the actual fuel. As fuel in accordance with the teaching of DE 23 59 758 Light metal powder such as magnesium, aluminum or light metal alloy powder or red phosphor used. Flammability can also be improved by additives such as oxidizing agents, for example, inorganic nitrates and metal oxides. According to the teaching of DE 23 59 758 C1 The components of the Flarewirkmassenbeschichtung are dispersed in white spirit to make the coating composition brushable and sprayable.

adversely however, here is that the paper after ignition the Flarewirkmasse burned badly and under certain circumstances the IR signature bothers.

The DE 28 11 016 01 also describes throwing agents for projectiles for the formation of infrared light targets in the form of flammable thin circular segment-shaped flakes.

The Leaflets of the teaching of this prior art exist from a carrier material made of paper or aluminum with a at least applied on one side, slowly burning burning layer from a fire paste.

The fire paste according to the doctrine of DE 28 11 016 consists of boron and / or boron alloys and of a plastic, further up to 40 wt .-% oxygen carrier and / or active metal powder and / or active metal alloy powder. Among others, lead oxide is considered as the oxygen carrier, and manganese powder, zirconium powder, cerium powder and / or boron alloy powder are disclosed as the metal powder. The binder consists essentially of polyvinyl chloride.

Flammable layers of fire paste based on red phosphorus and in particular boron are according to the teaching of DE 28 11 016 prefers.

to Production of the preferably circular segment-shaped leaflets with a fire paste based on red phosphorus is a combination from a plastic paste, preferably a paste of polyvinyl chloride, a plasticizer for polyvinyl chloride, preferably dioctyl phthalate and / or diphenyloctyl phosphate and at least one metal powder, such as magnesium-aluminum or light metal alloy powder by means of an organic solvent, for example white spirit mixed and brushed onto the carrier film and then gelled at a temperature of maximum 180 ° C, respectively dried. If necessary, then a passivation layer of plastic applied to the fire mass and also dried.

Also in the prior art of DE 28 11 016 causes the non pyrotechnic active carrier material that the IR characteristic of the burning flares can be disturbed under certain circumstances.

The DE 43 07 237 C1 describes a process for preparing pyro containing metal powder technical active compositions on an aqueous basis, coated metal powder and their use.

It is the goal of DE 43 07 237 C1 to provide a process for the preparation of pyrotechnic active compositions containing as effective principle red phosphorus and combinations with metal powder among other conventional additives, in which the active material can be processed in an aqueous system, without the part of the active material forming metal powder is inactivated, or can trigger an explosive reaction.

After the apprenticeship of DE 43 07 237 C1 This object is achieved by coating metal powders with a very thin layer of a plastic which is insoluble in water and dilute acids and substantially impermeable to water and oxygen.

The Coating on the metal particles may according to this Teaching of the prior art not more than 5 wt .-%, based on the total mass of the metal powder.

A Such a thin coating will be even Applied to the metal powder by a known per se Fluidized bed process, in particular vacuum fluidized bed process used.

When suitable plastics for coating the particles of the metal powder are polymers or copolymers based on acrylic acid, Methacrylic acid, acrylic acid esters and / or methacrylic acid esters described.

The with the plastic coated metal powder can in this Form are stored and used to make a pyrotechnic Active mass slurried in water, for example with red Phosphor mixed and then brought into the desired shape.

The red phosphorus is added as such to the pyrotechnic active material. The production of flares in general and surface flares in particular is described in US Pat DE 43 07 237 C1 not described.

Starting from the prior art of DE 23 59 758 C1 It is therefore an object of the present invention to provide surface flares and ammunition for fake target generation to ward off infrared controlled steering missiles available, which - after ignition - a moderately abbrennendes carrier material made of paper, cardboard or aluminum and the associated disadvantages can at least largely avoid.

The above task is - independently - through the characterizing features of claims 1 and 8 solved.

using Technically The above object is achieved by the characterizing features of claims 11 and 12 solved.

In terms of Ammunition is the solution to the problem by the characterizing features of claim 14.

The Fact that at least a part of the carrier film for the Flächenflare of at least one propellant charge powder is formed, has the advantage that in the state of Technique conventional carrier films made of plastic, Paper, cardboard, cardboard or aluminum can be avoided and that the carrier film itself with in the Infrarotabrenncharakteristik the active mass can be included.

invention Carrier films can be produced with thicknesses of> 0.05 mm are by rolling or film blowing the propellant charge powder, in particular Nitrocellulose.

A another embodiment of an inventive Flächenflares is claimed in claim 8. Here is a mixture of a propellant powder and the pyrotechnic Made active mass and made of this total mixture a film, for example by the blown film process or by rolling, so that the public carrier foil omitted can, because the film directly from pyrotechnic active material with produced therein propellant powder is produced and even stable enough, so that no carrier film required is.

Both Embodiments of the present invention have the particular advantage that they are very insensitive to Are water, so have an excellent hygrocopic behavior.

It that is surprising, that Flächenflares invention subjected to a one-hour water bath and then tested for flammability and burning behavior be, wherein Flächenflares according to the State of the art with tissue paper foil as carrier film showed no reaction while the invention Flächenflares according to both embodiments Although somewhat delayed, they reacted flammable were and completely burned down.

The Flares according to the invention can be used in any Ammunition can be introduced to the fake target generation because they are arbitrary can be dimensioned so that ammunition, which contains surface flares according to the prior art, can be readily replaced by the invention Flächenflares.

One Another advantage of Flächenflares invention is it that they are adjusted to almost every requirement or can be optimized, for example by Type and quantity of aggregates or modification of the substance Geometry so that they improve the respective type of ammunition can.

In addition, an environmental test has shown that the Flächenflares invention the MIL standard 810E fulfill.

Dependent on the type and amount of aggregates, the weight of the invention Surface flares are set.

claim Figure 11 relates to a new use of film-shaped propellant charge powders as Flächenflares, whereby the propellant powder itself together with the pyrotechnic active mass to foil-shaped Forms, which then serve as Flächenflares shaped become.

When Another embodiment of the present invention relates Claim 12 the use of film-shaped propellant charge powders as carrier foils for Flächenflares.

Finally relates to claim 14 an ammunition for fake target generation for defense of infrared-controlled steering search missiles, which as infrared-active active substance surface flares according to the invention contains.

According to claim 2, the propellants are selected from the group consisting of: high-smoke propellant charge powders; smokeless Propellant powders, in particular POL powder (powder without solvent); monobasic propellant powders, in particular those based on Nitrocellulose; polybasic propellant powders, especially those based on nitrocellulose and / or nitroguanidine and / or nitroglycerin (Glyceryl trinitrate) and / or diglycol dinitrate; as well as their mixtures.

When has particularly advantageous according to claim 3 exposed when the carrier film of the invention Flächenflares completely from the propellant charge powder is formed. As a result, the propellant charge powder, for example Nitrocellulose, completely at the pyrotechnic conversion participate, without disturbing influences the poorly flammable materials of the carrier films of the prior art on the infrared characteristics of Flächenflares impact.

A another particular embodiment of the present invention it is when carrier film and active material are identical, which means that, for example, a pure nitrocellulose film already can be used as Flächenflare without any Addition of aggregates.

Preferably are the Flächenflares according to claim 5 coated on both sides with the pyrotechnic active material, however at least on one side of the carrier film.

According to claim 6, a pyrotechnic active material is preferred, which is suitable for infrared decoy target generation. This is especially one based on microencapsulated red phosphorus, preferably a mixture of:
Plastic binders, in particular polyvinyl chloride, polyvinyl chloride copolymers with butadiene, polyvinyl acetate, acrylic and methacrylic acid derivatives, chloroprenes;
Plasticizers, in particular dioctyl phthalate;
Dispersants, in particular white spirit;
red phosphorus and / or
Light metal powders, in particular those of magnesium and / or aluminum, and / or light metal alloys; Manganese; Zirconium; Cerium; as well as their mixtures; with the individual grains of metal powder in front preferably plastic coated; such as
Oxidizing agents selected from the group consisting of:
Metal oxides, in particular highly oxygen-containing oxides of iron and copper, nitrates and perchlorates of the alkali and / or alkaline earth metals.

According to claim 7, the active material by means of an adhesion promoter on the propellant charge carrier film arranged. It is preferred that constituents or Aggregates of pyrotechnic active material in the carrier film be incorporated, so that here on the one hand a special affinity of the active material to the carrier film results and on the other hand, the surface of the carrier film - depending grain size of aggregates - roughened so that the pyrotechnic active mass better off liable.

a particular advantage is the use of microencapsulated red Phosphorus as active ingredient component of flares on aqueous Basis, as well as the red phosphorus in fine distribution be critical so that it can be in microencapsulated form within the Flarewirkmasse inert storage is inertized, but not when burned obstructed by the microencapsulation.

Of course can Flarewirkmasse the invention to a special infrared signature can be set, such as by setting a certain warm-cold ratio, so that too working in so-called dual mode Lenkflugsuchkörper the surface flares according to the invention Detecting ignition as a fake target and thus on the protected Object be routed away.

Further Advantages and features arise from the description of Embodiments.

Example 1: Flächenflares with Carrier films of nitrocellulose

Microencapsulated red phosphorus is obtained from Clariant AG, Frankfurt and Knappsack. For the production of coated magnesium powder, first of all a magnesium powder having an average particle size of 90-140 μm is used. 9.0 kg of this magnesium powder are vortexed in a vacuum fluidized bed. A solution of 3.5% methacrylic acid-methyl methacrylate-1: 2 copolymer in acetone / methanol (12%: 88%) is sprayed on. The following process conditions are observed: System pressure: about 250 mbar Gas inlet temperature: about 90 ° C spray pressure: about 40 bar spray rate: about 80 g / min Temperature of the spray solution: about 60 ° C Condensing temperature: about -35 ° C

It 7.71 kg of solution were sprayed, which was a film order of about 3 wt .-%, based on the total powder metal mass corresponds.

A pyrotechnic active material with:
62% microencapsulated red phosphorus
10% plastic-coated magnesium powder
18% aqueous PVC dispersion with 50% solids
10% aggregates such as alkali nitrates, alkaline earth nitrates, perchlorates
is first mixed for coarse mixing in a Diosnakneter, brought in a dispersing with water to the desired viscosity and then by brushing on a carrier film made by the film blown films from the propellant powder nitrocellulose, which previously by admixing of about 0.01% additives was roughened as a bonding agent; and which has a layer thickness of about 30 microns, continuously applied with a layer thickness of about 200 microns on the first page.

The applied Flarewirkmasse is then in a Three-chamber convection oven dried. The temperature may be 140 ° C do not exceed, otherwise the adhesion of the active material is attacked on the substrate. The three chambers of the convection oven are operated at different temperatures. The first chamber is operated at 90 ° C. The two remaining Chambers are heated to 120 ° -140 ° C for complete drying operated.

The second side is after drying the first page to the same Way as the first coated and then again dried.

To the second coating, the Kannte be cut so that punchable Flarebahnen arise. The actual flares are either with punched punching machine or cut out with a cutting roller. The punching tool is preferably minimized waste on the stamped grid. The cutting salt does not produce a punched grid.

The flares of the invention are then in a conventional Wurfkörper introduced and the throwing body with a suitable propellant from a suitable for this purpose Shooting cup shot down.

The Ignition and ejection mechanisms are those skilled in the art well known.

The Flares according to the invention are outstanding Infrared light targets used to protect aircraft, vehicles, Tanks, ships, buildings and technical equipment used can be.

A corresponding projectile is, for example, in the DE 28 11 016 C1 described.

Example 2: Area flares off Nitrocellulose without separate carrier foil

The pyrotechnic active material without PVC / without plasticizer from example 1 is added in the ratio 1: 1 with nitrocellulose and kneaded. Then the kneaded mass becomes sheets with a layer thickness rolled of about 500 microns and then at 30 ° C. dried for 2 hours until the film is released from the substrate.

Either the flares according to Example 1 as well as those according to Example 2 are excellent as producers of infrared decoys suitable.

It are sinking speeds (in standardized downpipe, length = 1.0 m, diameter 0.2 m) of about 0.8 m / s achieved, so that the Sinking speed significantly <1 m / s is located.

The hygnoscopic behavior was assessed by means of a 1 h water bath at one Temperature of 20 ° C tested. The invention Flares were flammable and completely burned while the flares of the prior art with tissue paper could no longer be ignited as a carrier film.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 2359758 C1 [0003, 0004, 0004, 0020]
• - DE 2359758 [0004]
• - DE 281101601 [0006]
• - DE 2811016 [0008, 0009, 0011]
• - DE 4307237 C1 [0012, 0013, 0014, 0019]
• - DE 2811016 C1 [0054]

Cited non-patent literature

• - MIL standard 810E [0031]

Claims (14)

Flächenflare for fake target generation to ward off infrared-controlled steering search missiles with a carrier film and a pyrotechnic active material, characterized in that at least a portion of the carrier film is formed from at least one propellant charge powder. Flächenflare according to claim 1, characterized that the propellant charge powder is selected from the group consisting of: high-smoke propellant powders; smokeless Propellant powders, in particular POL powder (powder without solvent), monobasic propellant powders, in particular those based on Nitrocellulose; polybasic propellant powders, especially those based on nitrocellulose and / or nitroguanidine and / or nitroglycerin (Glyceryl trinitrate) and / or diglycol dinitrate; as well as their mixtures. Flächenflare according to claim 1 or 2, characterized characterized in that the carrier film completely is formed from the propellant charge powder. Flächenflare according to any one of claims 1 to 3, characterized in that the carrier film and effective mass are identical. Flächenflare according to any one of claims 1 to 3, characterized in that the active mass at least on one side of the carrier film, preferably on both Pages, arranged as a coating. Flächenflare according to any one of claims 1 to 5, characterized in that the active mass a is that which is suitable for infrared decoy generation, in particular based on microencapsulated red phosphorus, preferably a mix of: Plastic binders, in particular polyvinyl chloride, Polyvinyl chloride copolymers with butadiene, polyvinyl acetate, acrylic and methacrylic acid derivatives, chloroprenes; plasticizers, in particular dioctyl phthalate; Dispersants, in particular White spirit; red phosphorus and / or Light alloy powders, especially those of magnesium and / or aluminum, and / or Light metal alloys; Manganese; Zirconium; Cerium; as well as their mixtures; wherein the individual grains of the metal powder preferably are plastic coated; such as Oxidants, selected from the group consisting of: Metal oxides, especially high oxygenated oxides of iron and copper, nitrates and perchlorates of Alkali and / or alkaline earth metals. Flächenflare according to any one of claims 1 to 6, characterized in that the active material by means of a Adhesive, in particular components of the active mass itself, is arranged on the carrier film. Flächenflare, characterized in that it from a mixture of a propellant powder and a pyrotechnic Active composition, preferably without binder, in film form. Flächenflare according to claim 8, characterized that the propellant charge powder is selected from the group consisting of: high-smoke propellant powders; smokeless Propellant powders, in particular POL powder (powder without solvent), monobasic propellant powders, in particular those based on Nitrocellulose; polybasic propellant powders, especially those based on nitrocellulose and / or nitroguanidine and / or nitroglycerin (Glyceryl trinitrate) and / or diglycol dinitrate; as well as their mixtures. Flächenflare according to claim 8 or 9, characterized characterized in that the active mass is one which is suitable for infrared decoy generation, in particular on Base of microencapsulated red phosphorus; Light alloy powders, especially those of magnesium and / or aluminum, and / or Light alloys; Manganese; Zirconium; Cerium; as well as their mixtures; being the individual Grains of metal powder preferably plastic coated are; such as Oxidizing agents selected from Group consisting of: Metal oxides, in particular highly oxygen-containing Oxides of iron and copper, nitrates and perchlorates of and / or alkaline earth metals. Use of film-shaped propellant charge powders as surface flares. Use of film-shaped propellant charge powders as carrier foils for Flächenflares. Use according to claim 11 or 12, characterized that the propellants are selected the group consisting of: high-smoke propellant powders; smokeless Propellant powders, in particular POL powder (powder without solvent), monobasic propellant powders, in particular those based on Nitrocellulose; polybasic propellant powders, especially those based on nitrocellulose and / or nitroguanidine and / or nitroglycerin (Glyceryl trinitrate) and / or diglycol dinitrate; as well as their mixtures. Ammunition for the generation of dummy targets to ward off infrared-controlled steering search missiles, characterized that they are surface active substances as infrared active substance according to at least one of the claims 1 to 10 contains.