DE2536099A1 - PYROTECHNICAL MEANS - Google Patents

Description

The invention relates to pyrotechnic means which are so composed are that they develop gas when burned. In particular, the invention relates to pyrotechnic means used in Combustion evolves a non-toxic, low temperature gas. Among the uses for such a gas is the inflation of a security bag in a vehicle, the the movement of an occupant in the vehicle is limited in the event of a collision, or in the case of slow-burning mixtures that are in an embodiment to be defined later and which use a gas produce at a relatively low temperature, the essentially non-toxic gas that is formed can be used to ret

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• Α.

Tung rafts, plug-in life chutes, buoys, tires or others inflatable devices to inflate.

Pyrotechnic means must be able to meet certain criteria to be useful for use with a vehicle safety bag or other inflatable device be. The pyrotechnic agent must withstand storage in an environment of about -40 ° C (-40 ° F) to about 104 ° C (220 ° F). For use in vehicle safety bags, it is also necessary that the agent can be burned quickly, such as within milliseconds, and that it can be burned completely with formation of gas. With some others Slow burning is not a disadvantage in applications, and a relatively cool gas is extremely beneficial, as will be discussed will. It is required that the gas produced is negligible Contains amount of toxic gases such as nitrogen oxides or carbon monoxide.

Pyrotechnic means known to be used normally contain an organic binder. The organic binder also acts as a fuel and tends to keep the flame temperature of the gas to an unacceptable level. As a result, the temperature of the exterior surface of the vehicle security bag would be or other inflatable device using such known compositions so high that the occupant or user could be burned.

This is understandable as the compositions utilize such binders for applications as rocket propellants high energy were intended where low temperature was not an objective was. Reference is made to U.S. Patents 2,929,697 and 2,994,598

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pointed out. Also, produce many of the known compositions a poisonous gas such as that disclosed in U.S. Patent 3 O2O 180 and 3 O47 524.

The pyrotechnic agent according to the invention evolves a substantially non-toxic, low temperature gas upon combustion for the desired application. This gas is useful for inflating various devices such as a security bag in a vehicle. A safety bag is inflated, to limit the movement of an occupant of the vehicle in the event of a collision. If a composition that a gas lower Temperature produced when burning relatively slowly, is used, as will be discussed later, is the use advantageous for other inflatable devices already mentioned. In general, the pyrotechnic means comprises one Fuel, an inorganic oxidizing agent and a coolant or a combined binder and coolant (hereinafter referred to in the description is also referred to as a coolant), which consists of magnesium hydroxide, magnesium carbonate or a mixture consists of magnesium carbonate and magnesium hydroxide. It has been found that as much of the bond coolant is used can, as is required in the pyrotechnic agent, in order to obtain the desired binding properties for the agent, without the flame temperature of the gas that is produced during combustion is formed to increase to an unacceptable level. The fuel can be selected from the group of carbonaceous materials, Aluminum and magnesium can be selected. The inorganic oxidizing agent can be selected from the group of a metal chlorate, a metal perchlorate, a metal nitrite, ammonium chlorate, Ammonium perchlorate and ammonium nitrite can be selected.

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This pyrotechnic agent, when burned, evolves a non-toxic, low temperature gas to inflate a vehicle security bag or other inflatable device. In general, the agent comprises a fuel from the group of carbonaceous materials (such as carbon, soot or lamp black), aluminum and magnesium, an inorganic oxidizing agent from the group of alkali chlorates, such as potassium chlorate or sodium chlorate, the alkali perchlorates, such as potassium perchlorate or sodium perchlorate, the alkali nitrates, such as potassium nitrate or sodium nitrate, ammonium chlorate, ammonium perchlorate and ammonium nitrate as well as a coolant or a combined binder and coolant from the magnesium carbonate group. Magnesium hydroxide and mixtures of magnesium carbonate and magnesium hydroxide. A typical composition of this pyrotechnic agent includes carbon, which acts as a fuel, potassium chlorate (KClCU), or potassium perchlorate (KClO.), Which acts as an oxidizing agent, and a magnesium carbonate (MgCO ₄ )

and magnesium hydroxide (MGOH ₀ ) in a mixture with one another, which acts as a coolant and binder.

In the case of the composition with carbonaceous fuel, inorganic oxidizer and magnesium carbonate refrigerant will be a low temperature gas (approximately 427 ° C (800 ° F) at a Embodiment) develops relatively slowly (for example in about 1 to 3 seconds) and can, for example, through contact with a metal chip layer, cooled to a temperature of 93 C (200 ° F) to 316 ° C (600 ° F) to create an inflatable Establishments such as a liferaft, an inflatable buoy, a tire, an escape slide, etc. to inflate that then come into contact

can be brought with the user.

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The pyrotechnic agent according to the invention comprises in percent by weight less than 1 to about 10% of any of the above fuels, such as carbon, about 30 to 70% of any of the above inorganic fuels Oxidizing agents, such as potassium chlorate, and about 10 to 60% of one of the above refrigerants or combined binders and Coolants such as magnesium carbonate or a mixture of magnesium carbonate and magnesium hydroxide.

Preferably, in one embodiment, the pyrotechnic agent comprises, in percent by weight, about 3 to 7% of one of the above fuels, such as carbon, about 40 to 60% of one of the above inorganic oxidizing agents, such as potassium chlorate, and about 35 to 55% of one of the above combined binders and agents Coolant such as a mixture of magnesium hydroxide and magnesium carbonate. When such compositions are burned in the presence of air, the magnesium hydroxide reacts with carbon dioxide (CO ₂ ) in the air to form magnesium carbonate (MgCO ₃ ). Magnesium carbonate is a highly oxygenated, cementitious material and does not inherently provide any binding properties. The conversion of magnesium hydroxide into magnesium carbonate gives the binding effect. Neither the magnesium hydroxide nor the magnesium carbonate acts as a fuel. Since magnesium hydroxide and magnesium carbonate are both coolants and not fuels, you can use as much as you need. As a result, one has enough binder for the composition without raising the flame temperature of the gas to unacceptable levels. The free oxygen formed from the inorganic oxidizer such as potassium perchlorate is consumed by the fuel such as carbon to form carbon dioxide and generate heat which is cooled by the magnesium hydroxide.

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• C.

In this last-mentioned embodiment (in the preceding Paragraph) it is preferred in most cases to use a mixture of magnesium hydroxide and magnesium carbonate instead of magnesium hydroxide to start without magnesium carbonate. One should use enough magnesium hydroxide in the mixture to make the desired To obtain the binding effect caused by the carbonization of the magnesium hydroxide. But you should only do enough Use magnesium hydroxide to obtain the necessary physical properties as a binder, as in compositions using a mixture of magnesium hydroxide and magnesium carbonate was found to be the reaction time the longer, the higher the ratio of magnesium hydroxide to magnesium carbonate in the agent.

Should be more specific in this last discussed embodiment the magnesium hydroxide in the pyrotechnic agent in weight percent not less than about 10% of the total composition and preferably comprise about 10 to 30% of the total composition. In cases where a mixture of magnesium hydroxide and magnesium carbonate is used as the combined binder and coolant, the composition can be about 10 to 30% by weight Magnesium hydroxide and about 20 to 40% by weight magnesium carbonate, both based on the total composition. In many Compositions it was found to be advantageous for the mixture of magnesium hydroxide and magnesium carbonate that this consisted about half of magnesium hydroxide and about half of magnesium carbonate.

In the preferred embodiment mentioned above (carbon as fuel, potassium chlorate or perchlorate as oxidation

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medium and magnesium carbonate as coolant), in which a relatively slow-burning composition is a gas relatively lower
Temperature produced (which can optionally be further cooled, as already discussed), it was surprisingly found that the magnesium carbonate burns in the presence of the oxidizing agent and the carbon fuel and supports the combustion at a very high temperature, but burns relatively slowly, whereby the magnesium carbonate decomposes and absorbs the heat and the gas product is relatively lower
Temperature produced, which consists essentially of carbon dioxide
(CO ₂ ) and oxygen with trace amounts of carbon monoxide (CO).

The following examples, in which all percentages are percentages by weight, serve to further illustrate the invention.

example 1

The composition used consisted of 5% carbon than
Fuel, 50% potassium chlorate as an inorganic oxidizing agent and 45% of a mixture of magnesium hydroxide and magnesium carbonate as a binding coolant. The proportion of the mixture consisted of about half the magnesium hydroxide and half the magnesium carbonate, so that the magnesium hydroxide and magnesium carbonate each made up 22 1/2% of the total composition.

Example 2

The agent comprised 5% carbon, 50% potassium chlorate and 45%
Magnesium hydroxide.

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Example 3

The agent comprised 5% carbon, 51% potassium chlorate and 44% magnesium hydroxide.

Example 4

The agent comprised 6% carbon, 50% potassium chlorate and 44% magnesium hydroxide.

The compositions of the above examples each produce a gas with a flame temperature of about 816 ° C (1500 F) to less than 1093 ° C (2000 ° F).

The above pyrotechnic means according to the invention are flexible with respect to the amount of binder that can be used, thereby meeting the objective of producing a gas with lower Flame temperature and a negligible amount of toxic gases such as nitrogen oxides or carbon monoxide.

Example 5

The composition comprised 3% carbon as fuel, 45% potassium chlorate as inorganic oxidizer and 52% Magnesium carbonate as a coolant.

In one embodiment it was found useful to use the pyrotechnic To pelletize agents according to the invention in order to achieve a predictable combustion behavior of the agent, when these pellets were used instead of a powdered agent. Pelletizing can be achieved by vigorously mixing the pulverized Ingredients and subsequent use of a pill press to produce pellets or by granulating the pulverized mixture and extruding the same through one

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Sieve made to form noodles. Pelletizing was found to be advantageous because of the subsequent undesirable effects Properties of a powder mixture. The powder tends to segregate, with the oxidizer at the bottom and the Fuel accumulates in the upper part. When the powder burns, it burns with different properties depending on the degree to which the powder mixture is homogeneous. In addition, the powder can be loosely or tightly packed, which also allows the Combustion or combustion properties affected. The result is that sometimes you get absurd results when you use the remedy in powder form. If If the agent is used in pellet form, results are generally more consistent. If necessary, it can be used during pelletizing an organic lubricant such as stearic acid or Carbowax (Trade name Union Carbide Corporation for polyethylene glycols) may be added.

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Claims (5)

Claims 1. Pyrotechnic agent, which in the combustion is an essentially Non-toxic low temperature gas evolves and as fuel a carbonaceous material, aluminum and / or Magnesium and, as an oxidizing agent, a metal chlorate, metal perchlorate, Metal nitrate, ammonium nitrate, ammonium chlorate and / or ammonium perchlorate, characterized in that it additionally Contains magnesium hydroxide, which, after being converted into magnesium carbonate during combustion, acts as a binding and cooling agent works. 2. Pyrotechnic agent according to claim 1, characterized in that that it contains magnesium hydroxide and carbonate refrigerants. 3. Pyrotechnic agent according to claim 2, characterized in that that it contains magnesium carbonate as a carbonate coolant. 4. Pyrotechnic agent according to claim 1 to 3, characterized in that it is about 10 to 30% by weight of magnesium hydroxide
and about 20 to 40% by weight of magnesium carbonate, both based on the total composition. 5. Pyrotechnic agent according to claim 1 to 4, characterized in that it is about 1 to 10% by weight, preferably about 3 to 7% by weight of fuel, about 30 to 70, preferably about 40 to 60% by weight of oxidizing agent and about 10 to 60,
preferably 35 to 55% by weight of the combined binding and
Coolant based on the weight of the total composition . 6U9813 / 0657