KR940005407B1 - Net of electric wave dispersion and absorption - Google Patents

Abstract

The radiowave scattering/absorbing disguising cover in which at least one of ferrite powder, carbon ferrite and titanium acid are mixed to be coated on a conductive screen, thereby facilitating maintenance.

Description

Radio wave scattering and absorption camouflage

1 is a plan view of one embodiment of the present invention.

2 is a sectional view taken along the line A-A of FIG.

3 is a plan view of another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1, 2: light and weft yarn 3: radio wave absorber coating

The present invention relates to gastrointestinal fabrics that scatter and absorb radio waves, and more particularly, to gastrointestinal fabrics that scatter and absorb broadband radio waves.

In order to prevent the detection of the target from the monitoring system of radio waves such as radar propagation or to make it difficult to identify the target by the naked eye, the target is prevented by scattering the radio waves emitted from the detection radar by covering the target with a camouflage. Attempts have been made to discern the identification of.

That is, the conventional nonwoven fabric is used as a base, and sprinkled three or short fibers of a conductive metal on the surface thereof, and mixed the short fibers and conductive fibers of synthetic fibers, and spun a spun blended yarn into a net, and bonded the flexible film on both sides thereof, or It is known that a small amount of the conductive metal deposited on the surface of a synthetic resin film was cut and woven (see Patent Application Publication No. 568).

However, the above-described conventional ones do not function at all for a plurality of radar radio waves even if they scatter the radio waves of any of the frequency bands of the radar radio waves currently used, thus achieving the purpose of preventing detection from broadband radar radio waves. This is impossible.

On the other hand, unlike the scattering theory described above, a radar wave is absorbed by forming a plate or a coating film of a wave absorber on a reflective object, which is a conductor, but this also has a limited bandwidth and does not absorb broadband radio waves. Since the intended purpose is achieved only when the conductor is formed, it is not only economically burdensome to install radio wave absorbers in ships, tanks, etc., where the surface area of the conductor is large, but also it is impossible to disguise the target by the naked eye, and it is not flexible. It is not suitable for use in firearms requiring repairs.

It is an object of the present invention to provide a gastrointestinal fabric that scatters and absorbs broadband radar waves in view of the above situation.

Another object of the present invention is to provide a lightweight and breathable gastrointestinal cloth.

In order to achieve the above object, the present invention is characterized in that a conductive material is formed on the surface of the synthetic resin strip, or a fiber made of conductive material is formed of a mesh to form a film of a radio wave absorber on the surface thereof.

According to the present invention, a film of a polyester resin, a polyfluoropropylene resin, etc. is cut into a small amount, and a conductive metal such as iron, aluminum, copper, etc. is vacuum deposited on the surface thereof, or a conductive fiber such as carbon fiber is twisted to form a mesh. Alternatively, the synthetic resin film is slightly cut and twisted into a net, and then ferrite powder or barium titanate powder is mixed into the paint vehicle or ferrite powder and carbon powder is mixed into the paint vehicle or magnetic fluid. The radio wave absorber is applied or the net is immersed in the radio wave absorber to form a film of the radio wave absorber on the surface of the net. Alternatively, a net may be formed after the electromagnetic wave absorber film is formed on the synthetic resin strip or carbon fiber on which the conductive metal is vacuum deposited.

The network of the network used in the present invention is a square that is 1/2 wavelength or less of the upper limit of the frequency to be scattered, or when there are a plurality of frequency bands to be scattered, one side of the network is based on any one of a plurality of frequencies. As described above, the wavelength is set to 1/2 wavelength or less of the upper limit and the other side is set to the other frequency so as to be rectangular in shape.

The shape of the mesh may be not only square but also rhombic and triangular.

The network of the network used in the present invention is different depending on the frequency band to be scattered. The S-band is 5 cm or less, the C-band is 2.7 mm or less, and the X-band is 1.5 cm or less. The lower limit is designed according to the amount of self-reflection of radio waves.

The film thickness of the radio wave absorber is also determined by design depending on the type of frequency to be absorbed.

The present invention will be described in detail with reference to the embodiment drawings.

1 is an embodiment of the present invention to form the warp yarn 1 and the weft yarn (2) as a mesh, but the warp yarn and weft yarn is made of a conductive fiber such as carbon fiber or vacuum deposition of a conductive metal on the surface of the forming resin strip Preferably, the synthetic resin strip or carbon fiber is twisted, and the film 3 of the radio wave absorber is formed on the surface of the net.

FIG. 3 is another embodiment of the present invention, which differs from FIG. 1 in that the inclination 1 is made of nylon filament only, and one side of the mesh is longer than the other side.

Example 1

A strip of 25 micron thick, 4 mm wide aluminum-coated polyester film is used as a weft yarn to form a 1m × 1m mesh of 5 cm on one side of the mesh, and MnZn ferrite powder, carbon powder, and paint vehicle on the surface of the mesh. Was sprayed to a thickness ratio of 0.6: 1 to form a film by spraying a radio wave absorber paint mixed at a weight ratio of 1: 1 to naturally dry to complete the gastrointestinal fabric of the present invention.

The transmission attenuation and back scattering of the gastrointestinal cloth were measured in the C-band X-band, and the following results were obtained.

Example 2

Twist the strips of 35-micron thick, 5-mm-thick, aluminum-mediated polyflofilene film into a warp and weft yarn with nylon filaments to form a mesh of 5 cm x 2.7 cm, and then 85% by weight of NiZn ferrite on the surface. A radio wave absorbing paint containing 15% by weight of a paint vehicle was sprayed to a thickness of 0.65 mm to form a film of a radio wave absorber, and then dried naturally to complete the gastrointestinal fabric of the present invention.

The transmission attenuation and total reflection attenuation of the gastrointestinal cloth were measured from the S-band to the X-band, and the following results were obtained.

As described above, the present invention forms a conductive material on the surface of the synthetic resin strip, twists it into a net, and forms a bell pepper of a radio wave absorber on the surface thereof, so that frequencies of a certain band of the plurality of radar waves are diffusely reflected by the conductive material and the rest Radar propagation of the band is absorbed by the radio wave absorber on the inner surface of the gastrointestinal fabric after a part is absorbed at the surface of the radio absorber and the other penetrates the net to reflect back from the target covered with the gastrointestinal fabric of the present invention.

As described above, the present invention scatters and absorbs a plurality of radar radio waves, thereby preventing the detection of targets from broadband radar radio waves, and forming a network of synthetic resins, making it lightweight and easy to handle and providing good ventilation. It is less likely to break or change its installed shape, and the gastrointestinal fabric of the present invention is easy to print or apply other means for preventing identification by the naked eye, for example, a color such as the surrounding color on the net. Installation of camouflage, such as the surrounding color, also has a simple effect.

Claims (6)

A radio wave scattering and absorption camouflage fabric with a radio wave absorber film formed on the surface of a conductive network. The electroconductive scattering and absorption camouflage according to claim 1, wherein the conductive net is formed by vacuum depositing a conductive material on the surface of the synthetic resin strip. The electric wave scattering and absorption camouflage network according to claim 1, wherein the conductive network is a conductive fiber. The electric wave scattering and absorbing gastrointestinal fabric according to claim 1, wherein the conductive net is twisted strip. The radio wave absorbing material according to claim 1, wherein the radio wave absorber comprises at least one selected from ferrite powder, carbon powder, and barium titanate powder mixed in a paint vehicle. The radio wave absorbing and absorbing gastrointestinal fabric of claim 1, wherein the radio wave absorber is a magnetic fluid.