DE102007061998A1 - Gas generating composition - Google Patents

Abstract

The The present invention provides a gas generating composition ready, comprising a basic magnesium carbonate, in addition to a fuel and an oxidant, wherein the content of the basic magnesium carbonate is less than 20% by mass.

Description

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The The present invention relates to a gas generating composition, which in a gas generator for an airbag device can be used.

DESCRIPTION OF THE STATE OF THE TECHNOLOGY

One gas generant comprising guanidine nitrate and basic copper nitrate, is for that It is known to be used to produce a gas generator Gas to clean (the concentration of nitrogen oxides, ammonia and to reduce carbon monoxide). Additionally is 5-aminotetrazole known as a fuel to be used and basic copper nitrate as an oxidizing agent.

JP-A No. 2006-76849 discloses a gas-generating composition comprising a tetrazole compound, a guanidine compound, a nitrate, a perchlorate, and a basic carbonate, wherein the content of the basic carbonate is more than 20% by mass but not more than 40% by mass.

Further prior art for the present invention may be the JP-A No. 2002-12493 . JP-A No. 2004-67424 or WO-A No. 03/16244 be.

SUMMARY OF THE INVENTION

The The present invention provides a gas generating composition ready, containing a basic magnesium carbonate, in addition to a fuel and an oxidizer, wherein the content of the basic Magnesium carbonate is less than 20% by mass.

DETAILED DESCRIPTION THE INVENTION

The The present invention provides a gas generating composition ready, which can increase the degree of purification of the exhaust gas and for a Gas generator of an airbag device is suitable.

In In other words, the present invention provides a gas generating A composition comprising a fuel and an oxidizing agent, characterized in that it further comprises less than 20% by mass of a basic magnesium carbonate.

The The present invention further provides a gas generating composition prepared, wherein the content of the basic magnesium carbonate is preferably 18 mass% or less.

The The present invention further provides the gas generating composition wherein the oxidizing agent is preferably basic copper nitrate includes.

The The present invention further provides the gas generating composition the fuel is preferably melamine, melamine cyanurate, Guanidine nitrate and nitroguanidine is chosen.

By Use of the gas generating composition according to the present invention Invention it is possible to increase the degree of purification of an exhaust gas.

EMBODIMENTS OF THE INVENTION

A nitrogen-containing compound which has been used in known gas generants may be used as the fuel of the present invention, such as compounds described in EP-A JP-A No. 2002-12493 . JP-A No. 2004-67424 and WO-A No. 03/16244 , It is preferred that it is at least one or two or more selected from melamine, melamine cyanurate, guanidine nitrate and nitroguanidine.

Of the Content of the fuel in the composition is preferably 10 to 55% by mass, more preferably 12 to 50% by mass, and even more preferably 14 to 45% by mass.

An oxidizing agent which has been used in known gas generating agents can be used as the oxidizing agent of the present invention, such as compounds described in EP-A JP-A No. 2002-12493 . JP-A No. 2004-67424 and WO-A No. 03/16244 , It is preferred that at least one or two or more are selected from basic copper nitrate, basic copper carbonate, potassium nitrate, sodium nitrate, strontium nitrate, potassium perchlorate, sodium perchlorate and ammonium perchlorate.

Of the Content of the oxidizing agent in the composition is preferably 30 to 85% by mass, more preferably 35 to 80% by mass, even more more preferably 40 to 75% by mass.

According to the present The invention is further additional to the fuel and the oxidizer basic magnesium carbonate contain. Basic magnesium carbonate changes during the Combustion in magnesium oxide. Magnesium oxide is a stable compound, and does not function as an oxidizer such as basic copper nitrate and basic copper carbonate, and is obviously an ingredient which for cleaning the exhaust gas is used.

Of the Content of basic magnesium carbonate in the composition is less as 20% by mass, preferably 18% by mass or less, even more more preferably 15% by mass or less. The lower limit is preferably 2% by mass or more.

It it is preferred that the content of the basic magnesium carbonate in the composition is between 18% by mass and 2% by mass.

Provided necessary, the gas generating composition according to the present Invention contain a known binder. Examples of known Binders include carrageenan, pectin, arginine carbomer, sodium alginate, Propylene glycol alginate, xanthan gum, guar gum, gum arabic, Cyclodextrin, sodium polyacrylate, carboxymethylcellulose, carboxymethylcellulose potassium salt, Carboxymethylcellulose sodium salt, carboxymethylcellulose ammonium salt, Cellulose acetate, cellulose acetate butyrate, methylcellulose, ethylcellulose, Hydroxyethylcellulose, ethylhydroxyethylcellulose, hydroxypropylcellulose, Carboxymethylethylcellulose, microcrystalline cellulose, polyacrylamides, Amino compounds of polyacrylamides, polyacrylhydrazide, copolymers acrylamide and acrylic acid metal salt, Copolymers of polyacrylamide and polyacrylate ester compound, polyvinyl alcohol, Acrylic rubber, starch, Silicone and the like.

Under this is carboxymethylcellulose sodium salt from the viewpoint the increase of the degree of purification of an exhaust gas is preferred.

Examples preferred additives include metal oxides such as iron oxide, zinc oxide, Cobalt oxide, manganese oxide, molybdenum oxide, Nickel oxide, bismuth oxide, silica or alumina; metal hydroxides, such as cobalt hydroxide or iron hydroxide; Cobalt carbonate, calcium carbonate; a composite compound of a metal oxide and a hydroxide, including Japanese Acid clay (Japanese acid clay), kaolin, tallow, bentonite, kieselguhr or hydrotalcite; Metal acid salts, such as sodium silicate, mica molybdate, cobalt molybdate, or ammonium molybdate; Silicon, molybdenum disulphate, Calcium stearate, silicon nitrite, and silicon carbide.

The gas generating composition according to the present invention can be in a desired shape can be shaped and shaped as a shaped body in the shape of a cylinder with a single hole, a cylinder with a variety of holes or a pellet.

The shaped body can be prepared by a process in which water or an organic solvent is added and mixed with the gas generating composition, followed by extrusion molding (molded body in the shape of a cylinder with a single hole or a cylinder with a variety of holes) or by a method in which the mixture is compression molded is made using a pelletizer (pearled shaped Body). The holes in the cylinders with a single hole or cylinder with one Variety of holes can be carried out in the longitudinal direction or depressions that are not performed.

The gas generating composition according to the present invention or a molded body this may apply to an airbag generator for a driver's side, an airbag generator for one Passenger next to the driver, a side airbag generator, a generator for one deployable curtain, a generator for a knee pad, a generator for one deployable seat belt, a generator for a pipe or hose system and be used as a belt tensioner, which in different Vehicles are attached.

One Generator using a gas generating composition of the present invention or a molded body of this, can of a be pyrotechnic type, with gas only from the gas generating agent supplied or of a hybrid type, where the gas is both from the compressed Gas, such as argon, and the gas generating agent is supplied.

Of Further, the gas generating composition according to the present Invention or a molded body Out of this can also act as an ignition agent used as an enhancer (or a driver) or the like, which is used to transmit the energy of a igniter or ignition initiator serves for the gas generating agent.

EXAMPLES

Examples and Comparative Examples

The gas generant compositions consisting of those shown in Table 1 Components were made. gas concentrations were produced by the following procedure using gas generators Measured compositions.

Measurement of the gas concentration

The Compositions of Examples and Comparative Examples (Compositions in a powdery Condition before molding were from those shown in Table 1 Constituents) were placed in a mortar range of a predetermined Mold introduced, removed from this after compression and for 5 seconds under pressure of 14.7 MPa with a hydraulic pump held and shaped around a cylindrical strand with an outside diameter of 9.55 mm and a length of To get 12.70. The drying was then carried out at 110 ° C for 16 hours. One Epoxy resin adhesive of chemical reaction type "Bond Quick 30" manufactured by Konishi Co., Ltd. was on the side surface of the cylindrically shaped body applied to obtain a sample which ignited only from the end surfaces and is burnt without being ignited by the side surface (progressing from a surface Combustion).

BCN:

basisches Kupfernitrat

BCC:

basisches Kupferkarbonat

BMC:

basisches Magnesiumkarbonat

Subsequently, the cylindrical strand (mass 2.00 g) was placed inside a sealed cylinder made of SUS and having an inner capacity of 1 liter, and the inside of the cylinder was pressurized to 7 MPa and stabilized at this pressure while the entire atmosphere in the cylinder was replaced by nitrogen. A predetermined current was then passed to nichrome wires which were in contact with the end surfaces of the strand, and the strand was ignited and burned by the melting energy of the strand. After waiting for 60 seconds for the gas inside the cylinder to be homogeneous, an open plug portion of the predetermined Teddler container equipped with a plug was connected to a gas discharge portion of the cylinder from the combustion gas disposed inside the cylinder , a sample was taken by transferring to the container, and the concentrations of NO, NH ₃ and CO were determined by Gastec detection tubes (No. 10 for detection of NO ₂ and NO; No. 3L of NH ₃ ; No. 11) for detection of CO) using a detector GV-100S manufactured by Gastec Corporation. Table 1 Gas generating composition (% by mass) Composition of the exhaust gas (ppm) melamine BCN BCC BMC CMCNa NO NH ₃ CO example 1 16.32 73.86 0 5 5 62 90 120 Example 2 15.28 69.72 0 10 5 13 55 120 Example 3 14.24 65.76 0 15 5 10 26 100 Comparative Example 1 13.2 61.8 0 20 5 no ignition Comparative Example 2 16.82 73.18 5 0 5 120 85 140 Comparative Example 3 16.29 68.71 10 0 5 55 100 150 Comparative Example 4 15.75 64,25 15 0 5 18 65 170 Comparative Example 5 15.21 59.79 20 0 5 18 80 180

BCN:

basic copper nitrate

BCC:

basic copper carbonate

BMC:

basic magnesium carbonate

It It is obvious that the invention thus described, to many Species can be varied. Such variations are not considered considered a departure from the spirit and scope of the invention, and all modifications for a person skilled in the art should be aware of the scope the following claims includes his.

Claims (4)

A gas generant composition comprising basic magnesium carbonate, in addition to a fuel and an oxidant, wherein the content of the basic magnesium carbonate is less than 20% by mass. A gas generant composition according to claim 1, wherein the content of the basic magnesium carbonate is 18% by mass or less is. A gas generant composition according to claim 1, wherein the oxidizer comprises basic copper nitrate. A gas generating composition according to any one of claims 1 to 3, wherein the fuel is selected from the group consisting of melamine, melamine cyanurate, guanidine nitrate and nitroguanidine.