KR890004506B1 - Microwaves absorbent - Google Patents

Abstract

The electromagnetic wave absorber is made of mixture of ferrite powder, carbon powder, and high polymer. The composition ratio of the ferrite powder, carbon powder and high polymer are 67-91 wt.%, 1- 15 wt.%, 7-33 wt.% respectively. The magnetic material for the absorber is soft fervite powder or hard ferrite. The absorber prevents the electromagnetic wave leakage from microwave ovens, TV etc..

Description

Radio wave absorber

The present invention relates to a radio wave absorber, and more particularly, to an improvement of a carbon ferrite wave absorber.

The radio wave absorber prevents radio waves from various radio equipments that are rapidly increasing to the outside of the electronic equipment, causing malfunction of other equipment, adversely affecting the human body, animals and plants, or causing normal obstacles, It has been used to remove radio waves reflected from structures, tanks, large vehicles, large buildings, and the like.

For example, a microwave oven, which is one of the most widely used electronic devices, is a useful tool for cooking food stored in a microwave within a short time due to the radiation generated by supplying power to an oscillation tube called a magnetron. . However, when the remaining radio waves leak through the door after cooking, it can have a devastating effect on the human body and other electronic devices. Thus, a radio wave absorber is installed between the main body and the door to absorb leakage waves.

In another example, the radio wave reflected from the ship's radar or the surrounding steel structures is received by the radar to generate ghosts, which hinders the safe operation of the ship, and the wave reflected from bridges made of large steel structures is similarly phased. Can cause a ship accident.

In addition, radio waves reflected from high-rise buildings cause ghosts on the screen of the TV set.

In order to prevent the absorption and reflection of the above-mentioned radio waves, initially, a carbon wave absorber using conductive loss is known, followed by a ferrite wave absorber using magnetic loss. However, the above two wave absorbers are used for maintaining the accuracy of the thickness and for the use thickness and workability. There are many problems.

In addition, the carbon ferrite radio wave absorber for improving the above problems has been disclosed in Japanese Patent Application Laid-Open No. 54-127,000, but this also has a undesirable thickness and radio wave absorption ability. In addition, in the case of the carbon ferrite radio wave absorber, the absorbing ability is different depending on the composition ratio of the radio wave absorber, and it has a fatal effect on the workability depending on the thickness of the radio wave absorber. In particular, it has been found that paint-type radio wave absorbers having good workability have many problems in maintaining their thickness and uniformity.

The present invention is also invented to solve the above problems, as well as to reduce the thickness of the coating film, as well as to improve the radio wave absorption ability and the workability will be described in detail based on the embodiment.

Example 1

91 wt% powdered magnetic material (generally called ferrite, represented by M · Fe ₂ O ₃ , M means divalent metal such as Mn, Mg, Zn, Co, Cu, etc.) and powdered carbon 1 After loading and kneading the weight percent and 8 weight percent of the holding material into the kneader, extruding it into strips of 2.5 mm thick and 7.5 mm wide, and installing them on the door of the microwave oven, the amount of radio leakage is measured by KS microwave leak propagation method. As a result of the measurement, the radio wave leakage amount was 0.05 mW / cm 2 to obtain a good result.

Example 2

After mixing 75% by weight of powdery or flake-like magnetic material powder, 10% by weight of fibrous or flake carbon, 15% by weight of holding material was kneaded into a kneader, a 2.5 mm thick plate-shaped radio wave absorber (30 cm x 30 cm) was formed. As a result of measuring the reflection attenuation of the radio wave absorber at the center frequency of 5.0 GHz by the reflected power method, an excellent absorption capacity of 33.2 dB was obtained.

Example 3

67% by weight of powdery or fibrous magnetic material, 15% by weight of fibrous or flake carbon and 18% by weight of retaining material were charged and mixed in a paint mixer to form a radio wave absorbing paint. After coating the paint to a thickness of 1.65 mm on a metal plate and drying it, an excellent absorption capacity of 32.0 dB was obtained by measuring the amount of reflection attenuation of the radio wave absorber at the center frequency of 9.8 GHz by the reflected power method.

As the magnetic material used for the preparation of the radio wave absorber, soft ferrite powder, hard ferrite powder, carbonyl iron or semiconductor crushing materials are known. Ferrite containing the above-mentioned divalent metal can also be used.

In addition, various carbon blacks obtained from organic materials, inorganic carbons such as earth graphite and impression graphite, various carbon fibers, and the like are known as carbons used in the preparation of the above-mentioned radio wave absorber. On the other hand, as the holding material for producing the radio wave absorber, various organic polymers such as chloroprene rubber, polyolefin resin, polyamide resin, epoxy resin, polyester resin, polyurethane resin, acryl resin, silicone resin, alkyd resin, chlorination Most resins, such as propylene and ethylene rubber and PVC, can be used, and also the vehicle (paint base) of the above-mentioned polymer resin for various paints is one of the known holding materials. In addition, various inorganic powders such as silica powder, ceramic powder, kaolin powder, talc powder and calcium carbonate powder can be used as the holding material. Since the present invention as described above can be made thin, the workability can be improved, the radio wave absorbing ability is excellent, and the paste can be prepared in the form of a paste.

Claims (1)

67-91% by weight of magnetic, powdered, flake or flake magnetic material, 1-15% by weight of powdered, fibrous or flake carbon and 7-33% by weight of powdered, fibrous or flake-like holding material Radio absorbers.