KR102134696B1 - Hybrid armor with carbon nanotube sheet - Google Patents

Abstract

The present invention relates to a hybrid bulletproof jacket including a carbon nanotube sheet. According to the present invention, the hybrid bulletproof jacket including a carbon nanotube sheet comprises: a first bulletproof fabric sheet; a first carbon nanotube sheet; a second bulletproof fabric sheet provided to absorb a second impact of a bullet; a second carbon nanotube sheet; and a third bulletproof fabric sheet provided to absorb a third impact of a bullet. According to the present invention, the bulletproof and protective performance of a bulletproof jacket can be improved.

Description

Hybrid armor with carbon nanotube sheet {Hybrid armor with carbon nanotube sheet}

The present invention relates to a hybrid body armor including a carbon nanotube sheet. More specifically, a ballistic fabric and carbon nanotubes having ballistic and protective functions, including aramid fibers, are manufactured in a sheet form to form a hybrid laminated material, and energy in each layer on which the ballistic fabrics and carbon nanotube sheets are laminated. A hybrid including a carbon nanotube sheet that can improve the bulletproof and arc performance of body armor by designing a laminated pattern in which a bulletproof fabric and a carbon nanotube sheet are laminated so that the transfer and absorption relationship can be optimized. It's about body armor.

Body armor is a device that protects the human body from bullets and debris, and is mainly used in the military and police, and recently used for civilian purposes such as bodyguards.

Body armor should not only protect the lives of soldiers or police officers when performing operations such as combat, but also have excellent performance, and the body weight of the body armor should be light.

The conventional body armor is mainly made of a wholly aromatic polyamide fiber commonly referred to as aramid fiber among other bullet-proof composite materials.

Aramid fiber has excellent properties such as high strength, high elasticity, and low shrinkage. It is widely used as a bullet-proof composite material because it has a strong strength enough to lift 2 tons of automobiles with a thin thread of about 5 thick.

Bulletproof composite materials using aramid fibers are usually manufactured by using aramid fibers to produce aramid fabrics and impregnating a polymer resin with these aramid fabrics to produce semi-cured aramid fabrics and multiple layers of these semi-cured aramid fabrics in a mold. It is produced by laminating and curing.

However, the body armor using aramid fibers is manufactured by laminating aramid fibers with a significant number of fly to improve the body armor performance. At this time, there is a problem that the weight of the body armor is heavy.

On the other hand, carbon nanotubes (CNTs) have excellent mechanical, thermal, and electrical properties and can be used as an ideal filler for composite materials.

In recent years, in the field of ultra-high strength and ultra-light composite materials, carbon nanotubes are used as fillers, and major studies have been conducted to improve the multi-functionality of composite materials such as heat resistance, flame resistance, abrasion resistance, impact resistance, and resistance to abrasion. Is in progress.

Therefore, when preparing the body armor of a composite material by manufacturing a conventional aramid fiber and carbon nanotubes in a sheet form, an optimized lamination pattern of aramid fibers and carbon nanotubes is designed, thereby improving the body armor performance of the body armor and relatively high weight. There is a need for a new way to reduce the amount of heavy aramid fibers and make the body armor lighter overall.

Prior Art Document: KR Registered Patent Publication No. 10-1424051 (2014.07.28. Announcement)

The present invention has been devised to solve the above-described problems, and comprises aramid fibers to prepare a hybrid laminated material by manufacturing a ballistic fabric and carbon nanotubes having bullet-proof and protective functions in a sheet form, forming a hybrid laminated material, bullet-proof fabric and carbon nano By designing a stacked pattern in which bulletproof fabric and carbon nanotube sheets are stacked so that the energy transfer and absorption relationship in each layer where the tubesheet is stacked is optimized, the bulletproof and arc performance of the body armor is improved, and the weight of the body armor is reduced. The aim is to provide a hybrid body armor including carbon nanotube sheets that can be used.

Hybrid body armor including a carbon nanotube sheet according to the present invention devised to achieve the above object is used as a front agent overlapping a plurality, when the bullet impacts, while absorbing a part of the energy and equipped to blunt the shape of the warhead A first bulletproof fabric sheet; A first carbon nanotube sheet provided to prevent penetration of bullets when a plurality of sheets are overlapped, and when the first bulletproof fabric sheet is torn by the bullets and the bullets penetrate the first bulletproof fabric; A plurality of bullet-proof fabric sheets which are used in overlapping, and are provided to absorb secondary impacts of bullets transmitted from the first carbon nanotube sheet; A second carbon nanotube sheet which is used to overlap a plurality of pieces, and is provided to prevent back deformation from secondary penetration of the bullet and secondary impact of the bullet transmitted from the second bulletproof fabric sheet, and to prevent trauma to the user; And a third bullet-proof fabric sheet which is used as a backing agent in a plurality of layers, absorbs the third impact of the bullets transmitted from the second carbon nanotube sheet, and is provided to prevent back deformation, the first bullet-proof fabric sheet, The 1 carbon nanotube sheet, the 2nd bulletproof fabric sheet, the 2nd carbon nanotube sheet, and the 3rd bulletproof fabric sheet are sequentially stacked at each front portion to the rear portion, and include forming a laminated pattern.

In addition, the surface of each carbon nanotube sheet overlapped by the first carbon nanotube sheet and the second carbon nanotube sheet is treated with polyacrylonitrile (PAN) resin, and the surface of the carbon nanotube sheet and the polyacrylonitrile (PAN ) Chemically bonding the resin to form a physical interface.

In addition, it is provided between the second carbon nanotube sheet and the third ballistic fabric sheet, and may further include a foam supporting the shape of the ballistic fabric sheet and the carbon nanotube sheet.

According to the present invention, it is possible to improve the bulletproof and protective performance of the body armor, and it is possible to reduce the weight of the body armor.

1 is a view showing a laminated pattern of each sheet constituting a hybrid body armor including a carbon nanotube sheet according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, when adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, a preferred embodiment of the present invention will be described below, but the technical spirit of the present invention is not limited to or limited thereto, and can be variously implemented by a person skilled in the art.

1 is a view showing a laminated pattern of each sheet constituting a hybrid body armor including a carbon nanotube sheet according to a preferred embodiment of the present invention.

Hybrid ballistic body including a carbon nanotube sheet according to a preferred embodiment of the present invention, referring to Figure 1, the first bulletproof fabric sheet 10, the first carbon nanotube sheet 20, the second bulletproof fabric sheet 30 , It comprises a second carbon nanotube sheet 40, foam 50, a third bullet-proof fabric sheet 60.

First, the hybrid body armor including the carbon nanotube sheet according to the present invention comprises aramid fibers to prepare a hybrid laminated material by manufacturing a bulletproof fabric sheet and carbon nanotubes in a sheet form having bulletproof and protective functions, and forming a hybrid laminated material, By designing a layered pattern in which bulletproof fabric and carbon nanotube sheets are stacked so that the energy transfer and absorption relationship in each layer where the nanotube sheets are stacked is optimized, the bulletproof and arc performance of body armor is improved, and the weight of the body armor is increased. It can be made lighter, but it has its characteristics.

In addition, when improving the ballistic and arc performance of the body armor and reducing the weight of the body armor, each of the bulletproof fabric sheet and the carbon nanotube sheet is stacked by being stacked by a plurality of fly, to optimize the number of overlapping fly (fly) There are features.

Hereinafter, the components constituting the hybrid body armor including the carbon nanotube sheet according to the preferred embodiment of the present invention and the function of each component will be described in detail.

Referring to Figure 1, the first bullet-proof fabric sheet 10 is used as a front agent for the first impact of the bullet, and when the bullet impacts, some of the kinetic energy is converted into heat or potential energy by cutting the thread, Multiple dogs are used in order to absorb some of the energy and to blunt the shape of the warhead.

Kevlar XP, such as aramid fiber material, may be used as the ballistic fabric sheet.

Referring to FIG. 1, the first carbon nanotube sheet 20 is used by stacking multiple sheets, and because it has high elasticity, it can absorb high kinetic energy and has a high elastic storage energy level, thereby providing a first bulletproof fabric sheet ( When 10) is torn by the bullet and the bullet enters the first bulletproof fabric, it is provided to prevent penetration of the bullet.

A plurality of first carbon nanotube sheets 20 are used overlapping, and stress or deformation caused by an impact applied to the first bulletproof fabric sheet 10 is uniform throughout the first carbon nanotube sheet 20. And, it is continuously absorbed to perform the function of dispersing the impact on each sheet laminated on the rear side of the first carbon nanotube sheet (20).

Referring to Figure 1, the second bullet-proof fabric sheet 30 is used in multiple layers, and is intended to absorb the secondary impact of the bullets transmitted from the first carbon nanotube sheet 20.

Referring to FIG. 1, a plurality of second carbon nanotube sheets 40 are used overlapping, to prevent rear deformation from secondary penetration of bullets and secondary impact of bullets transmitted from the second bulletproof fabric sheet 30, , It is provided to prevent the trauma of the user.

1, a synthetic resin such as a sponge may be used, and when the ballistic fabric sheet and the carbon nanotube sheet are stacked and stacked, the foam 50 is provided to support the expanded form and secure the thickness of the body armor.

Referring to Figure 1, the third bullet-proof fabric sheet 60 is used as a backing agent that is placed closest to the user's body part by overlapping a plurality, absorbs the third impact of the bullets transmitted from the second carbon nanotube sheet, It is provided to prevent the rear deformation of body armor.

Here, the first bulletproof fabric sheet 10, the first carbon nanotube sheet 20, the second bulletproof fabric sheet 30, the second carbon nanotube sheet 40, foam 50, the third bulletproof fabric sheet 60 is sequentially stacked from the front portion to the rear portion, and forms a laminated pattern.

On the other hand, a plurality of first carbon nanotube sheet 20 and the second carbon nanotube sheet 40 are stacked and used to overlap each other.

At this time, the adhesion between the stacked and overlapping carbon nanotube sheets may be reduced, thereby deteriorating the mechanical properties of the entire carbon nanotube sheet.

Therefore, in the present invention, the surface of each carbon nanotube sheet overlapped by the first carbon nanotube sheet 20 and the second carbon nanotube sheet 40 is treated with polyacrylonitrile (PAN) resin to form a carbon nanotube sheet. The surface of the polyacrylonitrile (PAN) resin is chemically combined to form a physical interface.

This physical interface improves the mechanical properties of the carbon nanotube sheet, including interfacial shear stress and fracture toughness.

Meanwhile, the first bulletproof fabric sheet 10, the first carbon nanotube sheet 20, the second bulletproof fabric sheet 30, the second carbon nanotube sheet 40, foam 50, and the third bulletproof fabric sheet When (60) is laminated, when each sheet is bonded with a separate adhesive, the adhesive strength may be lowered due to the interfacial characteristics between each sheet.

In addition, in the case of the carbon nanotube sheet, a problem may be caused that the interfacial bonding force between the ballistic fabric sheet and the adhesive strength is weak due to the low activity and smoothness of the fiber surface.

Accordingly, the first carbon nanotube sheet (to increase the adhesion strength and improve the mechanical strength by increasing the surface free energy expressed by the attraction force between the carbon nanotube sheet and the ballistic fabric sheet, that is, between molecules generated between different compositions) 20) and the surfaces of the second carbon nanotube sheet 40 are subjected to a sizing treatment using a silane-based, sulfide-based, or imide-based interface binder.

The above description is merely illustrative of the technical spirit of the present invention, and those of ordinary skill in the art to which the present invention pertains can make various modifications, changes, and substitutions without departing from the essential characteristics of the present invention. will be. Therefore, the embodiments and the accompanying drawings disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings. . The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

10-1st bulletproof fabric sheet 20-1st carbon nanotube sheet
30-2nd bulletproof fabric sheet 40-2nd carbon nanotube sheet
50-Foam 60-3rd bulletproof fabric sheet

Claims (3)

A first bullet-proof fabric sheet that is used to overlap a plurality of dogs and to absorb a portion of energy and blunt the shape of a warhead when the bullets are impacted;
A first carbon nanotube sheet provided to prevent penetration of the bullet when a plurality of sheets are overlapped and the first bullet-proof fabric sheet is torn by the bullet and the bullet enters the first bullet-proof fabric;
A plurality of bullet-proof fabric sheets which are used in overlapping, and are provided to absorb secondary impacts of bullets transmitted from the first carbon nanotube sheet;
A second carbon nanotube sheet which is used to overlap a plurality of pieces, and is provided to prevent back deformation from secondary penetration of the bullet and secondary impact of the bullet transmitted from the second bulletproof fabric sheet, and to prevent trauma to the user; And
A third bullet-proof fabric sheet is provided to prevent the deformation of the back surface by absorbing the tertiary impact of the bullets transmitted from the second carbon nanotube sheet, which is used as a backing agent by overlapping multiple dogs.
Including,
The first bulletproof fabric sheet, the first carbon nanotube sheet, the second bulletproof fabric sheet, the second carbon nanotube sheet, and the third bulletproof fabric sheet are sequentially stacked at each front portion to the rear portion to form a laminated pattern.
It includes,
The surface of each carbon nanotube sheet overlapping the first carbon nanotube sheet and the second carbon nanotube sheet is treated with polyacrylonitrile (PAN) resin, and the surface of the carbon nanotube sheet and the polyacrylonitrile (PAN) resin. Chemically bonding to form a physical interface
A hybrid body armor including a carbon nanotube sheet comprising a. delete According to claim 1,
A foam provided between the second carbon nanotube sheet and the third bulletproof fabric sheet, and supporting the shape of the bulletproof fabric sheet and the carbon nanotube sheet
Including, a hybrid body armor including a carbon nanotube sheet.

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