KR101045844B1 - A bullet-proof composite material in which unconstrained shear thickening fluid impregnated fabrics are inserted, a bullet-proof body armor and a method to manufacture the said material - Google Patents

Abstract

PURPOSE: A bulletproof composite material, body-armor and manufacturing method using shear thickening fluid laminated fabric of unconfined condition are provided to improve bulletproof performance especially when impact is added at high speed. CONSTITUTION: Shear thickening fluid is laminated in a fabric of fixed width in order to manufacture a shear thickening fluid laminated fabric(200) of unconfined condition. The general bullet-proof textile(100), having wider width than the shear thickening fluid laminated fabric, is arranged on both faces of the shear thickening fluid laminated fabric in more than one layers. The edge part of the general bullet-proof textile, excluding the shear thickening fluid laminated fabric, is combined with each other by a sewing method, adhesion method, or a tightening method.

Description

A bullet-proof composite material in which unconstrained shear thickening fluid impregnated fabrics are inserted, a bullet-proof body armor and a method to manufacture the said material}

The present invention, by inserting a non-binding shear thickening fluid impregnated fabric between the known general bulletproof fabrics, and then put the edges of the ordinary bulletproof fabrics only to each other, or to bond or fasten the edges to give a certain constraint, any conventional bulletproof material The present invention relates to a ballistic composite material, a body armor, and a method of manufacturing the same, in which a shear thickening fluid-impregnated fabric of an unconstrained condition is inserted, which is more excellent in ballistic performance, is light in weight, and is good to be worn, and the manufacturing cost is also reduced.

Shear Thickening Fluid (STF) is a fluid whose viscosity increases as the shear rate of the fluid increases. It behaves like a liquid when the impact from the outside is applied at low speed and as a solid when the impact is applied at high speed. Refers to the material.

Recently, research into a method of manufacturing a liquid body armor using a material made by impregnating a shear thickening fluid into a fabric, that is, a shear thickening fluid impregnated fabric, is being conducted at the US Army Research Institute and the University of Delaware. 2 is the outcome.

If the shear thickening fluid impregnated fabric is used as a body armor material, it is possible to manufacture a body armor that is much lighter and more flexible than conventional body armor.

However, shear thickening fluid impregnated fabrics have both properties of fabric and shear thickening fluid. When the impact from the outside is applied within a certain speed, the ballistic performance increases in proportion to the speed. Performance worsens. That is, the body armor to which the shear thickening fluid impregnated fabric is applied can be pierced by a high speed bullet.

United States Patent Publication 2006/0234572 United States Patent Publication 2006/0234577

The present invention relates to an improvement or application technology of a bulletproof composite material using a shear thickening fluid impregnated fabric, and can exhibit high ballistic performance even when an impact is applied at high speed from the outside, and in the case of the same ballistic performance, a ballistic composite material It is possible to reduce the number of layers of the fabric constituting more than conventional, cost-effective, lightweight and flexible deformation, excellent fit, bulletproof composite material with a non-binding shear thickening fluid impregnated fabric An object of the present invention is to provide a bulletproof body made of a bulletproof composite material and a method of manufacturing the same.

The present invention capable of solving the above problems is made on the basis of the knowledge and results obtained from many experiments and studies that the present inventors have performed, and it is not bound between ordinary bullet-proof fabrics that are subjected to certain constraints by stitching, bonding or fastening edges. Characterized in that the condition is configured by inserting a shear thickening fluid impregnated fabric.

Specifically, the bulletproof composite material in which the non-binding shear thickening fluid-impregnated fabric is inserted according to the present invention is a non-binding shear thickening fluid-impregnated fabric made by impregnating the shear thickening fluid into the fabric, and the shear thickening of the non-binding condition. It is characterized by consisting of a general ballistic fabric is arranged in more than one layer on both sides of the fluid impregnated fabric, the edge portion except for the shear thickening fluid impregnated fabric is constrained by stitching or bonding or fastening.

Herein, the above-described bulletproof composite material of the present invention comprises the steps of preparing a shear thickening fluid-impregnated fabric of non-constrained condition by impregnating a shear thickening fluid in a fabric having a predetermined width, and a general bulletproof fabric having a wider width than the shear thickening fluid-impregnated fabric. Disposing the shear thickening fluid impregnated fabric in one or more layers, and the step of restraining the edge portion of the general bulletproof fabric other than the shear thickening fluid impregnated fabric by stitching or bonding or fastening.

In addition, the body armor according to the present invention is characterized in that the plurality of body armor composite material produced in a predetermined area is produced in the form of adjacent to each other or the edge portion overlap each other at an extremely small interval of about several mm. However, the shape of the body armor is not different from the conventional.

Shear thickening fluid-impregnated fabric according to the present invention, for example, can be made by impregnating the shear thickening fluid in a general ballistic fabric, in this case can be used aramid-based bullet-proof fabric or polyethylene-based bullet-proof fabric as a general ballistic fabric. Examples of aramid-based bulletproof materials include kevlar, starbond, and the like, and dyneema may be used as a polyethylene-based bulletproof material. Glass fibers or carbon fibers may also be used as the material of the bulletproof fabric.

According to the bulletproof composite material and the body armor of the present invention configured as described above, the bullet speed and impact of the bullet is primarily reduced by the general ballistic fabric in which the edges are bound to each other, and the shear thickening fluid under non-constrained conditions. As the impregnated fabric is deformed in the direction of the bullet's progression, the velocity and impact of the bullet decreases secondarily and the bullet cannot penetrate. Therefore, higher anti-ballistic performance is achieved than the anti-ballistic material or body armor of the conventional structure.

In addition, the shear thickening fluid-impregnated fabric of the non-constrained condition according to the present invention is made by impregnating the shear thickening fluid in the general bulletproof fabric, and excellent anti-ballistic performance compared to the general bulletproof fabric, the conventional bulletproof material consisting only of ordinary bulletproof fabric The same ballistic performance can be achieved with fewer layers. Therefore, even if some cost increases due to the use of shear thickening fluid, there is an effect of reducing the manufacturing cost of the bulletproof composite material or bulletproof clothing as a whole.

In addition, since the anti-ballistic composite material according to the present invention is lighter in weight than the conventional anti-ballistic material having the same anti-ballistic performance and the weight is light, it is possible to manufacture a body armor lighter than the conventional body armor. In addition, the shear thickening fluid-impregnated fabric of the non-constrained condition according to the present invention absorbs the impact of the bullet, thereby reducing blunt injury caused by the non-penetrating bullet. Therefore, it is more comfortable to wear than conventional body armor and can increase the survival of the combatant even without disturbing the activity.

1 is an exploded perspective view showing the basic configuration of a bulletproof composite material is inserted non-constrained shear thickening fluid impregnated fabric according to the present invention.
Figure 2a is an embodiment of a bulletproof composite material consisting of a shear thickening fluid impregnated fabric and a general bulletproof fabric of unconstrained conditions according to the present invention and the bulletproof composite material mounted on a clay witness (speed of 300m / s) Drawing showing the results of the ballistic experiment.
Figure 2b is a comparative example of Figure 2a, a ballistic test at a speed of 300m / s by mounting a ballistic composite material consisting of shear thickening fluid impregnated fabric and ordinary ballistic fabric of the constraint condition to the clay witness.

Hereinafter, with reference to the accompanying drawings will be described a ballistic composite material inserted into a shear thickening fluid impregnated fabric of a non-constrained condition and a method of manufacturing the same. Here, among the terms used in this specification, the term "constraints" refers to stitching or superimposing the edges of each fabric to prevent loosening from the edges of the fabrics produced or cut to a certain size. A portion of two or more fabrics is defined as sewn, glued or fastened. Thus, the term "non-constrained condition" means a state in which such a binding process is not performed.

As illustrated in FIG. 1, the bulletproof composite material in which the non-binding shear thickening fluid-impregnated fabric according to the present invention is inserted is basically a non-binding shear thickening fluid-impregnated fabric made by impregnating the shear thickening fluid into the fabric. (200) and the general bullet-proof fabric is arranged in one or more layers on both sides of the non-constrained shear thickening fluid impregnated fabric 200, the edge portion except for the shear thickening fluid impregnated fabric 200 is constrained by stitching or bonding or fastening It consists of 100.

As shown in the figure, the individual bulletproof fabric 100 is formed with a restraint 100 along the edge of the fabric, which is stitched, for example, with the edge of the fabric wrapped with stitch tape. You can make

Figure 2a is an embodiment of the anti-ballistic composite material according to the present invention, and the result of ballistic experiment at a speed of 300m / s by mounting the bulletproof composite material in a clay witness (clay witness), two shear thickening fluid impregnated fabric Two general bulletproof fabrics 100 are placed in front and 200 normal bulletproof fabrics 100 are disposed between them.

Shear thickening fluid impregnated fabric 200 is both unconstrained, and Kevlar was used as the fabric material. On the other hand, all three bulletproof fabrics 100 are constraints, and Kevlar was used as the fabric material.

The ballistic experiment was conducted in a state where a bulletproof composite material was disposed so that one sheet of bulletproof fabric 100 faces the clay witness side. The photo on the right shows the clay witness cut in half after the end of the ballistic experiment, where the depressions in the upper side are pushed in by bullets.

FIG. 2B is a comparative example of FIG. 2A. Instead of the unconstrained shear thickening fluid impregnated fabric 200 shown in FIG. 2A, the shear thickening fluid impregnated fabric 300 of the constraint condition in which the restraints 310 are formed on both sides is shown. It shows the case of using. The bullet penetrated the clay witness as shown in the photograph on the right, although there was no difference except that the restraint portion 310 was formed.

Accordingly, it can be seen from the comparison of FIGS. 2a and 2b that the ballistic performance is maximized when the edge portion of the shear thickening fluid-impregnated fabric is not bound.

100 .... General Bulletproof Fabric
110.Restriction
200 ... Shear Thickening Fluid Impregnated Fabrics
Shear Thickening Fluid Impregnated Fabric
310 ... Restriction

Claims (3)

Shear thickening fluid impregnated fabric (200) of non-constrained condition made by impregnating the shear thickening fluid into the fabric; And
General anti-ballistic fabric 100 is arranged on both sides of the shear thickening fluid impregnated fabric 200 of the non-constrained condition and the edge portion except for the shear thickening fluid impregnated fabric 200 is constrained by stitching or bonding or fastening;
Bulletproof composite material is inserted into the shear thickening fluid impregnated fabric of the non-constrained condition, characterized in that consisting of. Body armor made of the bulletproof composite material of claim 1. Manufacturing a shear thickening fluid-impregnated fabric 200 under non-constrained conditions by impregnating a shear thickening fluid into a fabric having a predetermined width;
Disposing one or more layers of the general bulletproof fabric 100 having a wider width than the shear thickening fluid impregnated fabric 200 on both sides of the shear thickening fluid impregnated fabric 200; And
Restraining the edge portions of the general bulletproof fabric 100 except for the shear thickening fluid impregnated fabric 200 by stitching, gluing, or fastening;
Method for producing a bulletproof composite material is inserted into the shear thickening fluid impregnated fabric of the non-constrained condition, characterized in that consisting of.

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