RU2000680C1 - Material for protecting against electromagnetic radiation - Google Patents

Abstract

Use: for protection against exposure to electromagnetic radiation. The protective material comprises a synthetic fabric backing driven by metal sulfide conductive compounds and a coating of nickel and cobalt and / or iron and / or copper and / or lead and / or graphite and / or zinc; and / or tin. Sulfide compounds are selected from the group of metals Ad, Cu, Nl. Co, Fe, Zn, Cd, Mn. 1 tablet, 2 ill.

Description

The invention relates to means for protection against electromagnetic radiation and can be used in various fields of the national economy, for example, for the protection of devices and equipment.

Known radar absorbing material containing a dielectric matrix with particles of ferromagnetic material distributed therein.

The disadvantage of this material is the low absorption and dissipation of the radiation energy on the particles of the ferromagnetic filler, as a result of which the material has a low coefficient of protection. In addition, this material has a large thickness and is practically unsuitable for the manufacture of, for example, protective clothing.

Known flexible sheet radar absorbing material containing a base of felt and metal (or metallized) particles randomly placed in the base. Particles act as secondary energy emitters under the influence of radiation of CBM radio waves incident on the material. As a result, additional energy dissipation occurs at the base.

However, this material also provides attenuation at high frequencies of the order of 1720 dB, has a large thickness, bends poorly and is practically not used for protective clothing and shielding of equipment.

A material for protection against electromagnetic radiation is known, comprising a neoprene substrate on which a metal layer is applied.

This material can be used for the above purposes, is quite flexible, has a small thickness, but its protective properties are small, especially in the frequency ranges up to 5 MHz.

An electromagnetic radiation protection material is known comprising a fabric base and a metallic nickel coating. The material is used to shield various objects from exposure to electromagnetic radiation.

A disadvantage of the known material is the poor attenuation of the magnetic field at frequencies from 0.1 to 5 MHz.

An object of the invention is to increase the protective properties of a material over a wide frequency range.

In order to achieve the goal in the material for protection against the effects of electromagnetic radiation, containing a fabric base and a few materials, such as nickel plating, locks 73 C

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additionally contains cobalt and / or iron, and / or copper, and / or lead, and / or graphite, and / or zinc, and / or tin, and is again impregnated with conductive compounds of metal sulfides selected from the group Ad, Cu , N1, Co, Fe, Zn, Cd, Mn.

No technical solutions are known for a similar purpose containing features of the characterizing part of the claims. Therefore, the invention meets the criterion of significant differences.

The proposed material makes it possible to attenuate the magnetic field at frequencies of 0.1-5 MHz by 3-32 dB, which proves that the criterion has a positive effect.

In Fig.1 shows a material section; figure 2 - it is, with an increase of x200.

The electromagnetic radiation protection material comprises a synthetic fabric backing 1. The base is impregnated with a conductive compound 2 based on metal sulfides. The base is coated 3.

The material is made as follows. The fabric is kept in an ammonia solution of metals until completely wet, washed, kept for 1–2 minutes in a solution of sodium sulfide, washed, coated with a galvanic method. washed and dried.

The thickness of each deposited layer may be from 1 to 500 microns depending on the purpose of the material.

As can be seen from Figure 1, each yarn included in the warp structure consists of a plurality of fine fibers. Each fiber is impregnated with metal sulfide compounds and has a metal coating on the surface. Thus, the resulting material is a multilayer

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a pie in which each fiber has a low (0.5-1.5 Ohm / P) resistance on the surface and a high (100-100000 Ohm / o) in the middle. With a strong increase (figure 2) on the surface of the material, metal-coated ultrathin elements randomly protruding from the base are visible.

When electromagnetic radiation is directed to a material, partial reflection of energy from its surface occurs, the dissipation and partial absorption of energy in the material itself occurs due to multiple changes in the wave path on surfaces with different resistivities.

Tests of samples of the developed material with various base compositions (lavsan, polyamide, man-made fibers) and various layers of metal coating confirm the presence of a positive effect.

Claims (1)

In examples 1, 2, 3, 4 of the table, the nickel layer thickness is 4 μm, the copper layer (examples 2, 4) is 2 μm, in example 3 20% cobalt is contained in the alloy with nickel, in example 4 the thickness of the cobalt layer 1 micron. SUMMARY OF THE INVENTION A material for protection against electromagnetic radiation, comprising a fabric base and a metallic nickel coating, characterized in that, in order to increase the protective properties over a wide frequency range, the coating further comprises cobalt and / or iron and / or copper and / or lead and / or graphite and / or zinc and / or tin, the base being impregnated with conductive compounds of metal sulfides selected from the group Ad, Cu, N1, Co. Fe, Zn, Cd. Mn. Test Results Table § «.I, т 2 5 Щр | ЩёЕ2вЩШШ Table continuation Figs