DE69630965T2 - Rapid-curing, hydroxyl-terminated, molded, gas generating compositions and method of making - Google Patents

Description

technical area

The The present invention relates to device inflators such as protective passive restraint devices or "airbags" used in motor vehicles are used, such as escape slides, life-saving rafts and the like. In particular, the present invention relates to shaped gas generating compositions according to claim 8 used in inflators and a method according to claim 1.

technical background

Lots Devices, for example protective passive restraint devices or "airbags" used in automobiles used, escape slides, life-saving rafts and the like, are usually kept in a drained state and are inflated with gas at the time they are needed. Such devices are generally stored and used in close proximity to people and must therefore be developed with a high security factor that is effective at all times.

The Inflation is generally accomplished using gas, for example Air, nitrogen, carbon dioxide, helium and the like, which under Pressure is retained and continues to be used at the time of use Addition of high temperature combustion gas products is added, generated by the combustion of a gas generating composition become. In some cases the inflation gases are generated solely by gas generating compositions generated.

The Components of gas generating compositions are in mechanical Inflators in the form of powders, granules, pellets or the like contain. A particularly common one Way, gas generating compositions in inflators It is to introduce the compositions into solid structures train or shape.

On The concern with molded gas generating compositions is that they are generally binder components so that they are moldable lock in, some of which are suspected of being dangerous combustion products to create. For example, polyvinyl chloride (PVC) is under the Suspected of producing polychlorinated biphenyls (PCBs) if it is at increased Temperatures is burned.

The The present invention relates to the use of shaped gas generators Compositions in the process of claim 1 which are not binder components lock in, suspected of being dangerous combustion products to create. The present invention particularly relates to use mouldable gas generating compositions in the process of claim 1, which avoids the use of polyvinyl chloride (PVC) binders.

Gas generating compositions containing hydroxyl terminated polybutadiene are from EP 0 194 180 for use in propellant gases US 4,184,031 in rocket propellants and out EP 0 685 368 (State of the art according to Article 54 (3) EPC) for use in hybrid airbag inflation systems.

epiphany the invention

It is accordingly a task of the present invention to use gas generating compositions that can be formed into solid structures.

It Another object of the present invention is gas-generating To use compositions that are injection molded or extruded can be.

It is another object of the present invention, moldable gas generators To use compositions that do not contain binder components lock in, the dangerous Generate combustion products.

It is another object of the present invention, moldable gas generators Use compositions that do not contain polyvinyl chloride binder components contain.

It Yet another object of the present invention is moldable to use gas generating compositions that are hydroxyl terminated Contain polybutadiene (HTPB) binder systems.

It Yet another object of the present invention is moldable use gas generating compositions that are rapidly cured can.

It Yet another object of the present invention is moldable gas generating compositions to use in about 7 minutes or less hardened can be.

A a still further object of the present invention is to provide a A method of molding gas generating compositions according to claim 1 to provide.

It Yet another object of the present invention is a method for forming gas generating compositions which are hydroxyl terminated Polybutadiene (HTPB) -Bindemittelsysteme included that hardened quickly can be provide.

In accordance with this and other objects of the present invention, which will become apparent as the description proceeds, the present invention provides a shaped gas generating composition according to claim 8 which includes:
an oxidizer ingredient;
a hydroxyl-terminated polybutadiene binder component;
a hardener for hardening the hydroxyl-terminated polybutadiene binder component;
and
a curing catalyst to accelerate the curing rate of the hydroxyl-terminated polybutadiene component.

The present invention further provides a method of forming a shaped gas generating composition according to claim 1, which comprises:
Forming a moldable gas generating composition including an oxidizer component, a hydroxyl-terminated polybutadiene binder component, a hardener for curing the hydroxyl-terminated polybutadiene binder component, and a curing catalyst to accelerate the rate of curing of the hydroxyl-terminated polybutadiene component;
Molding the moldable gas generating composition; and
Curing the molded gas generating composition.

The The present invention further provides an inflator Inflation of rescue devices ready, the inflator a shaped gas generating composition according to claim 8 which essentially of an oxidizing agent component and one Hydroxyl-terminated polybutadiene binder component.

Best way that Execution invention

The The present invention relates to gas generating compositions the after ignition quickly great Quantities of gaseous Generate reaction products. The gas generating compositions, which are used in the present invention are moldable. In this regard, you can these are manufactured so that they have a suitable viscosity for injection molding, for Have extrusion or the like. After molding, the composition be hardened to form solid structures.

at The gas generating compositions are used in solid forms shaped in mechanical inflators, for example protective passive restraint devices or "airbags" used in automobiles used, escape slides, life rafts or the like are included. The present gas generating compositions can used in conjunction with inflators that are used in primarily on stored pressurized gas and combustible gas generating compositions are based on the pressure of the stored Gases to supplement at the time of use. Alternatively, the present gas generating compositions as the primary gas source used to inflate an inflator become.

When incorporated into mechanical inflators, the shaped gas generating compositions of the present invention can be ignited by a conventional ignition source or starter. When used in conjunction with protective passive restraints or "airbags" det be used in motor vehicles, electrical ignition initiators, which are activated after a perceived impact of the motor vehicle, can be used to ignite the gas-generating compositions.

The gas generating compositions useful in the present invention according to claim 8 used, close an oxidizer component, a binder component, which serves as a fuel, a hardener for the binder component and a curing catalyst on. For the purposes of gas generation include essential components the oxidizer component and the binder component. For the Forming and hardening purposes of the gas generating composition, the hardener and the hardening catalyst are regarded as essential or essential components. However, it should be clear that the curing catalyst is only then is necessary when accelerating the curing rate of the compositions he wishes is.

suitable Oxidizing agent used in the gas generating compositions can be conclude Alkali metal borates, alkali metal perchlorates and mixtures thereof on. examples for close these oxidizers Sodium chlorate, potassium chlorate, lithium chlorate, sodium perchlorate, Potassium perchlorate and lithium perchlorate. Other oxidizing agents, that can be used conclude Alkaline earth metal perchlorate and ammonium perchlorate.

On Oxidizing agent that is suitable for the purposes of the present invention have been found to be particularly useful has is potassium perchlorate.

The Binder component used in the gas generating compositions is a hydroxyl-terminated polybutadiene (HTPB). This binder serves both as a binder and as a fuel component in the composition. It has been found that hydroxyl terminated Polybutadiene a desirable one Binder ingredient is because it has no dangerous compounds Combustion produces.

On Harder for the Binder is included in the gas generating composition. The hardener causes that the binder component during the molding process cures.

Hardeners include isocyanates and diisocyanates, especially di-polyfunctional diisocyanates on. Exemplary hardeners conclude Hexamethylene diisocyanate, polyphenylmethylene isocyanate, isophorone diisocyanate, Dimeryl diisocyanate and the like.

In addition to hardener becomes a curing catalyst included in the gas generating compositions. The curing catalyst accelerates the curing speed of the gas generating compositions so that they can be rapidly Molds hardened can be.

The curing are selected from the group which consists of dibutyltin dilaurate and mixtures thereof. The curing catalyst accelerates hardening of the gas generating compositions so that they are quickly molded can be.

In preferred embodiments the oxidizing agent component comprises about 83 to 95% by weight of the gas generators Compositions comprise the binder component and the hardener together approximately 5 to 17% by weight of the composition and comprises the curing catalyst about 0.025 up to 0.5% by weight of the composition.

In more preferred embodiments the oxidizer component comprises about 85 to 90% by weight of the gas generators Composition, include the binder component and the curing agent together roughly 10 to 15% by weight of the composition and comprises the curing catalyst approximately 0.025 to 0.5% by weight of the composition.

In even more preferred embodiments the oxidizer component comprises approximately 88% by weight of the gas generators Compositions, the binder component and the hardener together approximately 11.8 to 11.9% by weight of the composition and the curing catalyst approximately 0.1 to 0.2% by weight of the composition.

The gas generating compositions used in the present invention have a curing rate of less than 7 minutes and typically between about 3 to 5 Minutes over a temperature range of about 93.3 to 190.6 ° C (200 to 375 ° F). The rate of curing of the gas generating compositions used in the present invention depends on the curing temperature as would be expected. The fastest curing times are achieved at higher curing temperatures. The upper limit of the curing temperature is just below the decomposition temperature of the composition. Therefore, for the purposes of the present invention, the upper curing temperature should be limited to approximately 190.6 ° C (375 ° F).

In preferred embodiments it has been found that a composition containing approximately 88% by weight of the oxidizing agent component, about 11.8 to 11.9% by weight of the Binder component and about 0.1 to 0.2% by weight of the curing catalyst included a hardening rate between approximately 3 to 5 minutes at 176.7 ° C (350 ° F) had.

The gas generating compositions useful in the present invention are used by mixing the individual components made with each other. In the preparation of the composition can the binder component and the oxidizer component be premixed together. It is preferred to use the hardener and the curing catalyst to the binder component and the oxidizer component add just before molding and extruding the composition, so that the composition does not start to harden prematurely.

The Components can using conventional Mixers, Mixer, grinders etc. are mixed together, which are known to be used for Mixing pyrotechnic compositions can be used.

During one typical extrusion process is an extrudable mass of Composition prepared by mixing the ingredients together. The extrudable mass is then introduced into an extruder and extruded and blocked or broken into blocks as required. Next the extrudable mass is extruded, cut freely and hardened.

The viscosity the mixed composition can, as necessary, by incorporation a removable solvent such as ethyl acetate, acetone, ethyl alcohol or mixtures of these, can be set. The necessary viscosity for the extrusion (or injection molding) can be easily based on the specifications of the processing device used be determined.

In addition to The components discussed above may include other components, for example conventional stabilizers, dyes, opacifiers and the like as desired be included. A preferred stabilizer used in the following examples used includes triphenyl bismuth, maleic anhydride and magnesium oxide, which together are in substantially the same Proportions or roughly 2: 1: 1 can be used.

characteristics and characteristics of the present invention are further apparent from the subsequent, non-limiting Examples understandable be the for exemplary purposes are included. In these examples and throughout the description the percentages are given as percentages by weight, unless otherwise indicated.

example 1

In This example included four gas generating compositions the following formulations:

TABLE 1

The The above preparations were mixed, one for 3 minutes at 176.7 ° C (350 ° F) cure molding subjected and showed the following properties.

TABLE 2

This Data show that the formulations meet the requirements for airbag generators (Inflator) applications.

Claims (8)

A method of forming a molded gas generating composition suitable for use in inflators comprising: forming a moldable gas generating composition containing an oxidizing agent component selected from the group consisting of alkali metal chlorates, alkali metal perchlorates, alkaline earth metal chlorates, alkaline earth metal perchlorates, ammonium perchlorate and mixtures thereof, a mixture thereof, terminated polybutadiene binder component, a hardener selected from the group consisting of isocy anates, diisocyanates and mixtures thereof for curing the hydroxyl-terminated polybutadiene binder component, and a curing catalyst selected from the group consisting of triphenyl bismuth, dibutyltin dilaurate and mixtures thereof for accelerating the curing rate of the hydroxyl-terminated polybutadiene binder component; Molding the moldable gas generating composition by injection molding or extrusion; and curing the molded gas generating composition. Process for forming a shaped gas generating The composition of claim 1, wherein the gas generating composition a curing rate 5 minutes or less at a temperature of 93.3 to 190.6 ° C (200 to 375 ° F). Process for forming a shaped gas generating The composition of claim 1, wherein the gas generating composition still a removable solvent having. Process for forming a shaped gas generating The composition of claim 1, wherein the moldable gas generant Approximate composition 85 to 95% by weight of the gas generating composition, which Hydroxyl-terminated polybutadiene in the agent component and the hardener together roughly 5 to 15% by weight of the gas generating composition, and the curing catalyst makes up about 0.025 to 0.5% by weight of the gas generating composition. Process for forming a shaped gas generating The composition of claim 4, wherein the moldable gas generant Approximate composition 85 to 90% by weight of the gas generating composition, which Hydroxyl-terminated polybutadiene binder component and that hardener together roughly 10 to 15% by weight of the gas generating composition, and the curing catalyst makes up about 0.025 to 0.5% by weight of the gas generating composition. Process for forming a shaped gas generating The composition of claim 5, wherein the moldable gas generant Approximate composition Makes up 88% by weight of the gas generating composition which is hydroxyl terminated The polybutadiene binder ingredient and the curing agent together are about 11.8 account for up to 11.9% by weight of the gas generating composition, and the curing catalyst makes up about 0.01 to 0.2% by weight of the gas generating composition. Process for forming a shaped gas generating The composition of claim 6, wherein the gas generating composition a curing time of about 3 minutes at a temperature of about 176.7 ° C (350 ° F). Shaped gas generating composition available from the method according to claim 1.