DE1282530B - Process for the production of a flare - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

C06d

German class: 78 d- 1/02

Number: 1282 530

File number: P 12 82 530.8-45 (A 48233)

Filing date: January 26, 1965

Open date: November 7, 1968

The present invention relates to a method for producing a flare. Such sentences will be Among other things as a tracer for ammunition and as flares for flare grenades or similar Purposes used.

A flare grenade is fired like an ordinary projectile and at a certain height Disassembled, which frees the flare attached to a parachute, the parachute opens and the flare is ignited.

One already has a method of making pressed sets for tracer and missile projectiles proposed in which the powdery material with a few thousand atmospheres under reduced Compressed air or in a vacuum. However, only compressed sentences could be used with this with insufficient strength and durability.

It is also known to use flare sets using one in one for the oxidation ao sufficient amount of present inorganic oxygen salt and one with strong heat generation to produce burning metal and a glue-like binder, and as a binder for such Sentences have also already been proposed for epoxy resins.

As a result of the way in which the flare is used, certain strength requirements must be met to be met. In practice, a binder, e.g. B. a plastic mass for a flare required ingredients, namely an oxidizing agent and a reducing agent, which react with each other Resulting reaction products of high temperature together.

In itself it would be best if the sentence were just this Would contain oxidizing and reducing agents that were chosen to be high in the reaction To generate temperature and to give the light a suitable color.

The presence of a binder is from the point of view the light output from a disadvantage, since the binder reduces the light output and is also the cause of undesired smoke development. So far one has tried the crowd of the binder as much as possible, but the lowest limit for a cast or light pack molded in another way with low pressure is approximately 10% of the full pack.

There has been no lack of attempts to reduce the specified percentage of binder even further. An attempt was made to press the photocomposition instead of pouring it. When doing a relationship procedure for the production of a flare

Applicant:

Aktiebolaget Bofors, Bofors (Sweden)

Representative:

Dr. W. Koch, Dr. R. Glawe

and Dipl.-Ing. K. Delfs, patent attorneys,

2000 Hamburg-Großflottbek, Waitzstr. 12th

Named as inventor:

Mats Jürgen Martin Olsson, Bofors (Sweden)

Claimed priority:

Sweden 29 January 1964 (1062)

When using moderately low press pressure, the light packs show poor strength and great variation in the burning properties.

If the compression pressure is increased to, for example, 1500 kgf / cm ² or more, the light packs will tear when they are removed from the mold unless the pack is kept under pressure in the mold for an inappropriately long time from a production point of view. In addition to the formation of cracks, the phenomenon occurs that the plastic mass serving as a binding agent is partially pressed against the surface of the photocomposition when it is removed from the mold. This phenomenon causes undesirable variations in the content of plastic mass and thus in the burning properties of the finished product.

The object of the present invention is to create a method by means of which a flare which has excellent strength properties without protective covers, regardless of the amount of Binder is below 10%. The flare according to the invention is particularly suitable for use in projectiles, since it is not destroyed by the acceleration to which the projectile is exposed.

In the case of flares with high demands on strength, it is desirable that these ^{can withstand a pressure of up to 100 kg / cm 2} , and in the case of flares according to the invention this pressure is not fallen below, although only a reduced amount of binder (less than 10%) is used .

According to the invention, a flare is made, which is preferably made of magnesium or from Aluminum or other suitable material

809 630/812

can consist, which results in a high temperature during combustion, and an oxidizing agent in an amount required for incineration. Nitrates are preferred as oxidizing agents or perchlorates of alkali or alkaline earth metals, such as preferably sodium nitrate or strontium nitrate or barium perchlorate is used. Other types of oxidizing agents are of course also possible applicable.

The mixture is further added to a binder made of an epoxy resin with a suitable Tougher.

The method according to the invention for producing a flare from an inorganic oxygen salt present in an amount sufficient for oxidation and a metal that burns with strong heat generation and epoxy resin as a binder is therefore characterized in that the set with a binder content of <10% in a mold or the like is introduced and pressed at a vacuum of about 7 mm Hg with a pressure equal to or greater than 1500 kp / cm ² .

The set is mixed in a suitable vessel with a stirrer and then poured into molds, which above all form cylindrical flares.

After the aforementioned molds have been filled, they are exposed to a vacuum of up to about 7 mm Hg. One can of course choose incomplete air dilution. When the molds have been sufficiently evacuated, the sets are pressurized, for example by suitable pistons. This pressure should increase to at least 1500 kp / cm ² . The pressure is to be maintained for a certain time, preferably 1 to 5 seconds, after which the luminous elements are pressed out of the molded sleeve and set up to harden the binding agent.

The time and temperature required for curing depends on the one used Binder dependent.

It has been shown that in the case of luminous sets produced according to the invention, the amount of binding agent is reduced down to 2% and still achieve a satisfactory strength. The light intensity of the flare is increased by the fact that the amount of binder has been reduced.

Tests with regard to strength and light intensity are made with containing different amounts of binder Luminous sets have been carried out. The results of these experiments are summarized below.

The actual strength tests were carried out in such a way that one flares up in a cylinder shape with a diameter of 22 mm and a length of 22 mm. This cylinder was inserted between two panes, which were then subjected to pressure. The value in breaking on the cylinder was recorded.

Cylindrical bodies with a diameter of 13 mm were used to determine the light output and a length of 15 mm. Each sample cylinder became light with a small amount of one ignitable pyrotechnic charge initiated. The light intensity was measured with photocells, the sensitivity of the eye are adapted for different wavelengths, measured. The light output was calculated as the product of the average luminous intensity and burn time divided by the set weight. The results of the tests carried out are summarized in the table below.

Mg in »/» 58.8 57.6

NaNO ₃ in »/ 0 39.2 38.4

Binder in% 2.0 4.0

Breaking test values in kp 3 390 4120

Luminous efficiency *) in cds / g 25 900 26

*) Candela seconds per gram

Claims (3)

Patent claims: 1. A process for the production of a flare from an inorganic oxygen salt present in an amount sufficient for the oxidation and a metal which burns with strong heat generation and epoxy resin as a binder, characterized in that the set with a binder content of <lO ° / o in a form od. Like. Introduced and pressed at a vacuum of about 7 mm Hg with a pressure equal to or greater than 1500 kp / cm ^2. 56.4
37.6
6.0
3 480
21500 52.3 36.8 8.0 3,830
16400 54.0 36.0 10.0 4130 8 900 2. The method according to claim 1, characterized in that that magnesium is used as a reducing agent in the manufacture of the flare will. 3. The method according to claim 1 or 2, characterized in that sodium nitrate is used as the oxidizing agent in the manufacture of the flare. Documents considered: German Patent No. 712 092; German interpretative document No. 1129 408; Ellern, "Modem Pyrotechnics," 1961, p. 84. 809 630/812 10.68 © Bundesdruckerei Berlin