JP2009137821A - Gas generating agent composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas generating agent composition capable of reducing the amount of a coolant filter and suppressing the generation of phosphorus oxide by lowering the combustion temperature. <P>SOLUTION: The gas generating agent composition contains (A) fuel, (B) an oxidizing agent containing a strontium compound, (C) a binder, (D) a phosphorus compound and (E) a strontium compound which does not function as an oxidizing agent, wherein the strontium compound except the (B) component and/or the (E) component is not contained. The ratio of the number of strontium atoms (Sr) to the number of phosphorus atoms (P) satisfies a relation of (the number of Sr atoms)/(the number of P atoms)≥1.67. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a gas generant composition that can be used in an inflator for an airbag device.

  Among inflators for vehicle airbag devices, those that use a gas generating agent as a gas generating source include a coolant filter for cooling and filtering the combustion gas. Since the coolant filter is a component that occupies the maximum mass in the inflator, it is the largest cause of the increase in the mass of the inflator, and the coolant filter is required to be reduced from the viewpoint of weight reduction.

  As a method for reducing the amount of the coolant filter, it is known to reduce the combustion temperature of the gas generating agent.

  Patent Document 1 describes an invention in which the combustion temperature of a gas generating agent is lowered by adding glass powder. However, glass powder is expensive and does not generate gas from itself, resulting in an increase in the mass of the gas generant.

Patent Document 2 describes a gas generating agent in which aluminum hydroxide and a phosphate are blended together with a fuel and an oxidizing agent. Although the invention is useful for reducing the mass of the coolant filter due to a decrease in the combustion temperature, there is room for improvement in terms of removing phosphorus oxide generated by the combustion of phosphate.
Japanese National Patent Publication No. 10-502610 JP 2006-76824 A

  An object of the present invention is to provide a gas generant composition that can reduce the amount of coolant filter and suppress the generation of phosphorus oxide by lowering the combustion temperature.

The invention of claim 1 contains (A) a fuel, (B) an oxidant, (C) a binder, (D) a phosphorus compound, and (E) a strontium compound that does not function as an oxidant. A gas generant composition not containing a strontium compound,
Provided is a gas generant composition in which the ratio of the number of strontium atoms (Sr) to the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67 To do.

The invention of claim 2 contains (A) fuel, (B) an oxidant containing a strontium compound, (C) a binder, and (D) a phosphorus compound, and does not contain any strontium compounds other than the component (B). A gas generant composition,
Provided is a gas generant composition in which the ratio of the number of strontium atoms (Sr) to the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67 To do.

The invention of claim 3 contains (A) a fuel, (B) an oxidant containing a strontium compound, (C) a binder, (D) a phosphorus compound, and (E) a strontium compound that does not function as an oxidant. ) And a gas generant composition not containing a strontium compound other than the component (E),
Provided is a gas generant composition in which the ratio of the number of strontium atoms (Sr) to the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67 To do.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the strontium compound as the oxidizing agent for the component (B) is selected from strontium nitrate, strontium perchlorate, and strontium chlorate. A gas generant composition is provided.

  The invention of claim 5 is any one of claims 1 to 4, wherein the phosphorus compound of component (D) is selected from ammonium dihydrogen phosphate, ammonium phosphate, ammonium magnesium phosphate, and ammonium polyphosphate. A gas generating composition according to claim 1 is provided.

  In the invention of claim 6, the strontium compound of the component (E) is strontium oxide, strontium titanate, strontium chromate, strontium carbonate, strontium chloride, strontium hydroxide, strontium molybdate, strontium niobate, tungsten oxide The gas generating composition according to any one of claims 1 to 5, wherein the gas generating composition is selected from strontium oxide, strontium twelve iron strontium oxide, strontium zirconate, strontium stannate, strontium oxalate, and strontium stearate. I will provide a.

  The gas generant composition of the present invention can lower the combustion temperature by the action of a phosphate, and can reduce the amount of phosphorus oxide produced by the action of a strontium compound.

The present invention is
(I) (A) Fuel, (B) Oxidant, (C) Binder, (D) Phosphorus compound, and (E) Strontium compound that does not function as oxidant, and contains strontium compounds other than the component (E) Ungenerated gas generant composition;
(II) (A) Fuel, (B) Oxidant containing strontium compound, (C) Binder and (D) Phosphorus compound, and gas generator composition containing no strontium compound other than the component (B) object;
(III) (A) a fuel, (B) an oxidant containing a strontium compound, (C) a binder, (D) a phosphorus compound and (E) a strontium compound that does not function as an oxidant, It can be set as three embodiment of the gas generant composition which does not contain strontium compounds other than E) component. Hereinafter, each component will be described.

<(A) Fuel>
Examples of the component (A) fuel include nitrogen-containing organic compounds selected from tetrazole compounds, guanidine compounds, triazine compounds, and nitroamine compounds.

  The tetrazole compound is preferably 5-aminotetrazole or bitetrazole ammonium salt. The guanidine compound is preferably guanidine nitrate (guanidine nitrate), aminoguanidine nitrate, nitroguanidine, triaminoguanidine nitrate or the like. The triazine compound is preferably melamine, cyanuric acid, melamine cyanurate, ammelin, ammelide, ammeland and the like. The nitroamine compound is preferably cyclo-1,3,5-trimethylene-2,4,6-trinitramine or the like.

  10-60 mass% is preferable and, as for content of (A) component in a composition, 20-50 mass% is more preferable.

<(B) Oxidizing agent>
The (B) component oxidizing agent is either (B-1) an oxidizing agent not containing strontium and (B-2) an oxidizing agent containing a strontium compound.

  (B-1) The oxidizing agent which does not contain strontium of a component can mention what is chosen from basic metal nitrate, nitrate, perchlorate, and chlorate.

  Basic metal nitrates include basic copper nitrate, basic cobalt nitrate, basic zinc nitrate, basic manganese nitrate, basic iron nitrate, basic molybdenum nitrate, basic bismuth nitrate, basic aluminum nitrate, basic nitric acid Examples thereof include magnesium and basic cesium nitrate.

  Examples of the nitrate include alkali metal nitrates such as potassium nitrate and sodium nitrate, and ammonium nitrate.

  Examples of the perchlorate include ammonium perchlorate, potassium perchlorate, sodium perchlorate, and barium perchlorate.

  Examples of chlorates include potassium chlorate, sodium chlorate, and barium chlorate.

  (B-2) The oxidizing agent containing the component strontium compound forms a reaction product with phosphorus oxide generated from the phosphorus compound of component (D) at the time of combustion together with the oxidizing action, and phosphorous oxide in the combustion gas It is a component that also acts to reduce the production amount of. (B-2) As an oxidizing agent of a component, what is chosen from strontium nitrate, strontium perchlorate, and strontium chlorate can be mentioned.

  10-60 mass% is preferable, as for content of (B-1) component in a composition, 15-50 mass% is more preferable, and 20-45 mass% is still more preferable.

  10-60 mass% is preferable, as for content of (B-2) component in a composition, 15-50 mass% is more preferable, and 20-45 mass% is still more preferable.

<(C) Binder>
As the binder of component (C), carboxymethyl cellulose, carboxymethyl cellulose sodium salt, carboxymethyl cellulose potassium salt, carboxymethyl cellulose ammonium salt, cellulose acetate, cellulose acetate butyrate, methyl cellulose, ethyl cellulose, hydroxyethyl cellulose, ethyl hydroxyethyl cellulose, hydroxypropyl cellulose, Hydroxypropylmethylcellulose, carboxymethylethylcellulose, microcrystalline cellulose, polyacrylamide, polyacrylamide amination, polyacryl hydrazide, acrylamide / metal acrylate copolymer, polyacrylamide / polyacrylate copolymer, polyvinyl alcohol, polyvinyl Pyrrolidone, acrylic go , It may be mentioned guar gum, starch, silicone.

  0.1-15 mass% is preferable and, as for content of (C) component in a composition, 1-10 mass% is more preferable.

<(D) Phosphorus compound>
The phosphorus compound as component (D) is a component that acts to lower the combustion temperature, and is preferably selected from ammonium dihydrogen phosphate, ammonium phosphate, ammonium magnesium phosphate, and ammonium polyphosphate.

  1-12 mass% is preferable, as for content of (D) component in a composition, 3-11 mass% is more preferable, and 5-10 mass% is still more preferable.

<(E) Strontium compound that does not function as an oxidizing agent>
(E) Strontium compounds that do not function as component oxidants form reaction products with phosphorus oxides generated from the phosphorus compounds of component (D) during combustion, reducing the amount of phosphorus oxide produced in the combustion gas It is a component that acts to cause

  As the strontium compound of component (E), strontium oxide, strontium titanate, strontium chromate, strontium carbonate, strontium chloride, strontium hydroxide, strontium molybdate, strontium niobate, strontium tungstate, strontium tungsten Examples thereof include strontium nonoxide, strontium zirconate, strontium stannate, strontium oxalate, and strontium stearate.

(E) Component content is:
(B-2) When not containing the oxidizing agent containing the strontium compound of a component, 1-45 mass% is preferable, 5-40 mass% is more preferable, 10-30 mass% is still more preferable,
(B-2) When the oxidizing agent containing the strontium compound of a component is contained, 0.5-35 mass% is preferable, 1-25 mass% is more preferable, 5-20 mass% is still more preferable.

<Other ingredients>
Although the composition of this invention can contain the various well-known additive mix | blended with a gas generating agent as needed, a strontium compound is not contained in the said additive. Examples of the additive include copper oxide, iron oxide, zinc oxide, cobalt oxide, manganese oxide, molybdenum oxide, nickel oxide, bismuth oxide, silica, alumina, and other metal oxides; cobalt carbonate, calcium carbonate, basic zinc carbonate, Metal carbonates such as basic copper carbonate or basic metal carbonates; complex compounds of metal oxides or hydroxides such as acid clay, kaolin, talc, bentonite, diatomaceous earth, hydrotalcite; aluminum hydroxide, hydroxide Examples include magnesium; metal acid salts such as sodium silicate, mica molybdate, and cobalt molybdate, molybdenum disulfide, calcium stearate, silicon nitride, and silicon carbide.

In the composition of the present invention, the ratio of the number of strontium atoms (Sr) and the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67. The ratio is calculated from the theoretical ratio of the contained components.
By satisfying the above relationship, the strontium compound contained as the component (B) and / or the component (E) in the composition reacts with the phosphorus compound of the component (D), so that a high melting point strontium apatite is obtained. Since it is generated, generation of phosphorus oxide is suppressed.

  The composition of the present invention can be molded into a desired shape, and can be formed into a single-hole cylindrical, porous cylindrical, or pellet-shaped molded body.

  These molded products are prepared by adding water or an organic solvent to the composition, mixing and extruding (single-hole cylindrical or porous cylindrical molded body) or compression-molding using a tableting machine (pellet-like). ). The single-hole columnar shape and the porous columnar shape may be either those in which the hole penetrates in the length direction or those in which the hole does not penetrate and forms a recess.

  The composition of the present invention or a molded body obtained from the same is, for example, an inflator for an airbag of a driver seat of various vehicles, an inflator for an airbag of a passenger seat, an inflator for a side airbag, an inflator for an inflatable curtain, an inflator for a knee bolster, It can be applied to inflators for inflatable seat belts, inflators for tubular systems, and gas generators for pretensioners.

  The inflator using the composition of the present invention or a molded product obtained from the composition is either a pyro-type gas supply only from a gas generating agent or a hybrid type in which both a compressed gas such as argon and a gas generating agent are used. But you can.

  Furthermore, the composition of the present invention or a molded product obtained therefrom can also be used as an ignition agent called an enhancer (or booster) for transmitting the energy of a detonator or squib to a gas generating agent.

Example and Comparative Example 16 parts by mass of ion-exchanged water was added to 100 parts by mass of each component shown in Table 1, and mixed using a kneader. Next, using the obtained massive mixture, it is extruded at a pressure of about 8000 kPa with a drawing machine, cut and dried to obtain a cylindrical gas generating composition having an outer diameter of 5 mm and a length of 50 mm. It was.

(1) Combustion temperature (K)
This is a simulation value based on a thermochemical equilibrium calculation program.
(2) Presence / absence of strontium apatite generation An energizable nichrome wire was attached to the end face of the obtained cylindrical gas generant composition, and set in a stainless steel pressure-resistant airtight container having an internal volume of 1 L. Then, the cylindrical gas generant composition was ignited and burned by energizing the nichrome wire. The combustion residue after combustion was analyzed with an X-ray diffractometer to examine the presence or absence of strontium apatite.

Claims (6)

(A) Fuel, (B) Oxidant, (C) Binder, (D) Phosphorus compound, and (E) Strontium compound that does not function as oxidant, and no strontium compound other than the component (E) A gas generant composition,
The gas generant composition in which the ratio of the number of strontium atoms (Sr) and the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67. (A) Fuel, (B) an oxidizing agent containing a strontium compound, (C) a binder and (D) a phosphorus compound, and a gas generant composition containing no strontium compounds other than the component (B). ,
The gas generant composition in which the ratio of the number of strontium atoms (Sr) and the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67. (A) a fuel, (B) an oxidant containing a strontium compound, (C) a binder, (D) a phosphorus compound, and (E) a strontium compound that does not function as an oxidant, and the components (B) and (E) Is a gas generant composition not containing any strontium compound,
The gas generant composition in which the ratio of the number of strontium atoms (Sr) and the number of phosphorus atoms (P) in the composition satisfies the relationship represented by the following formula: Sr number / P number ≧ 1.67.   The gas generant composition according to any one of claims 1 to 3, wherein the strontium compound as the oxidizing agent of the component (B) is selected from strontium nitrate, strontium perchlorate, and strontium chlorate.   The gas generating agent according to any one of claims 1 to 4, wherein the phosphorus compound as the component (D) is selected from ammonium dihydrogen phosphate, ammonium phosphate, ammonium magnesium phosphate, and ammonium polyphosphate. Composition.   The strontium compound of component (E) is strontium oxide, strontium titanate, strontium chromate, strontium carbonate, strontium chloride, strontium hydroxide, strontium molybdate, strontium niobate, strontium tungstate, strontium tungstate The gas generant composition according to any one of claims 1 to 5, which is selected from strontium nonoxide, strontium zirconate, strontium stannate, strontium oxalate, and strontium stearate.