JPH073197Y2 - Protective clothing - Google Patents

Description

[Detailed Description of the Invention] Industrial Field of Application [0001] The present invention relates to protective clothing used for the physical protection of personnel in police, the military, and the like.

2. Description of the Related Art Protective clothing is a material that protects the human body against weapons such as bullets and blades, or sharp metal or glass fragments, or diffuses impact. As such a protective garment, there has been proposed one in which a sheet of aramid fiber is interposed inside the garment (for example, Japanese Utility Model Publication No. 60-132744).

However, aramid fibers are vulnerable to heat, and if a fire or explosion is encountered during battle or at the scene of arrest of a criminal,
The fiber itself deteriorates and loses its function as protective clothing.

An object of the present invention is to provide a protective garment which is excellent in heat resistance and whose intended strength does not decrease even at high temperatures.

Means for Solving the Problems That is, the present invention provides a protective garment having an oxynitride glass fiber layer.

Oxynitride glass, which is a glass fiber raw material used in the present invention, has a structure in which oxygen atoms of oxide glass are replaced by nitrogen, and the bond valence of nitrogen atoms is 3
Therefore, it has a higher elastic modulus than conventional glass. In the method for producing such oxynitride glass,
There are sol-gel method of hydrolyzing and dehydrating condensation of metal alkoxide, melting method of melting metal nitride of metal oxide, N ₂ gas blowing method, NH ₃ gas treatment method of porous glass, etc. It is possible to obtain an elastic modulus of 12,500 kg / mm ² or more, which could not be achieved with glass fibers.

The oxynitride glass fiber used as the reinforcing fiber in the present invention is Si13-24at%, Ca10-21at%, Mg0-5.2.
at%, Al0 to 15.1at%, N7.5 to 25at%, M0 to 5at%, (M: Z
r, Sr, Ba, Y, Ce, Na, B, La, K, Ti) are preferred.

If the Si content is less than the above range, the final state is reached and the glass state cannot be obtained. Also, if it is more than this range, the elastic modulus is
It decreases to 12500kg / mm ² or less.

Further, if the content of Ca is less than the above range, crystallization occurs, while if it exceeds this range, the elastic modulus decreases to 12500 kg / mm ² .

If the Mg content exceeds the above range, crystals will form.

Further, if the content of nitrogen is less than the above range, the effect of containing nitrogen is not exerted, and if it exceeds this range, crystallization occurs.

Oxynitride glass used in the present invention has strength,
From the viewpoint of the N ₂ content, it is preferable to manufacture by the melting method.
To obtain oxynitride glass by a melting method, a metal nitride is added to a metal oxide and melted at a high temperature.

Examples of the metal _{oxide, SiO 2, CaO, MgO,} Al 2 O 3, Sr
O, Na ₂ O, K ₂ O, La ₂ O ₃ , Y ₂ O ₃ , ZrO ₂ , TiO ₂ , Na ₂ O, K ₂ O,
BaO, etc. B ₂ O ₃ and the like.

Examples of metal nitrides include Si ₃ N ₄ and AlN.

To melt a mixture of these metal oxides and metal nitrides, use a heating furnace such as an electric furnace or an image furnace, and treat them in a nitrogen atmosphere at a temperature of 1400 to 1900 ° C and a heating rate of 10 to 800 ° C / min. To do.

The obtained glass is heated and melted at a temperature of 1100 to 1600 ° C. in a nitrogen atmosphere and spun at a spinning speed of 20 to 3000 m / min to obtain continuous fibers.

The elastic modulus of the obtained glass fiber is 12500 to 18000 kg / mm ² ,
A tensile strength of 70 to 500 kg / mm ² can be obtained.

The fiber diameter of the glass fiber is preferably 3 to 150 μm. If the fiber diameter is smaller than this range, spinning is difficult, while if it exceeds this range, the strength is extremely reduced, which is not preferable.

Next, in order to produce a protective clothing using the oxynitride glass fiber as a protective layer, a woven or non-woven fabric made of oxynitride glass fiber is sewn and bonded to a usual clothing layer by a method such as adhesion. . The woven fabric made of oxynitride glass fiber may have the same structure as the conventional glass cloth, or may be a mixed fiber with other fibers. Further, it may be in the form of a sheet of fibers in one direction only. The glass fiber layer may be one layer or two or more layers depending on the required strength.

EXAMPLES Next, the present invention will be described more specifically by way of examples.

Production Example 1 SiO ₂ 20.0 mol%, CaO 40.8 mol%, MgO 12.0 mol%, Al ₂ O ₃ 1
4.4 mol% was mixed and melted in air at 1500 ° C. for 2 hours. After cooling the mixture, it was crushed to about 10 μm using a ball mill,
Si ₃ N ₄ 12.8 mol% was added, and the mixture was melted in nitrogen at 1750 ° C. for 30 minutes using a boron nitride crucible to obtain an oxynitride glass. The obtained glass was placed in a boron nitride crucible placed in a spinning device, and using a cylindrical carbon heating element whose periphery was kept warm by a heat insulating material, heated at 1380 ° C. in a nitrogen atmosphere, spun and wound into a winder. It was Continuous fibers having a diameter of about 15 μm were obtained at a spinning speed of 1500 m / min. The tensile modulus of elasticity of the obtained glass fiber was 12600 kg / mm ² .

Example 1 A specific example of the protective garment of the present invention produced by using the glass fiber obtained in Production Example 1 is shown in FIG. FIG. 1 (a) is a front view of the protective clothing of the present invention, and FIG. 1 (b) is a sectional view thereof. In FIG. 1, a protective garment 1 comprises an oxynitride glass fiber layer 2 and a clothing layer 3 which are sewn or bonded with an adhesive. It is excellent in terms of heat resistance and elasticity that the glass fiber layer 2 comprises a plurality of oxynitride glass fiber woven fabrics, preferably about 3 layers.

On the other hand, the clothing layer 3 may be any conventionally known clothing material. Further, these surfaces may be covered with a synthetic resin sheet to impart waterproofness.

Effect of the Invention The protective clothing of the present invention has excellent bulletproof and blade-proof physical properties even under high temperature, and is flexible in weighing and comfortable to wear.

[Brief description of drawings]

FIG. 1 (a) is a front view of the protective clothing of the present invention, and FIG. 1 (b) is a sectional view thereof. The main symbols in the figure are as follows. 1: Protective clothing, 2: Oxynitride glass fiber layer, 3: Clothing layer.

Claims (1)

[Scope of utility model registration request] 1. A protective garment comprising an oxynitride glass fiber layer.