KR20030035063A - Gluc to shicld the electromagnetic semant pouda - Google Patents

Abstract

PURPOSE: An electromagnetic wave shielding cement powder is provided for use as construction materials applied to walls, floor and outer surfaces by using metal(Cu, Al, Ni and C) powder and cement. CONSTITUTION: The metal-cement powder for shielding electromagnetic wave and water vein wave is prepared by mixing 500g of cement powder with metal powder containing 100g of nickel, 150g of Copper, 150g of aluminum and 100g of conductive carbon, The nickel powder is obtained by dissolving 150g of nickel chloride into water, adding 10ml of hydroxine as a reductant, filtering and drying precipitates at 100deg.C.

Description

Cement powder that can block electromagnetic waves {Gluc to shicld the electromagnetic semant pouda}

The present invention relates to the production of functional cement that can block electromagnetic waves. Electromagnetic waves have electric and magnetic fields. Currently, it has been reported in the academic field that the electric field can be blocked as an aluminum cooking coil. However, magnetic fields have been reported to block magnetic fields by alloying with highly conductive metals. Currently, silver is attracting attention as a metal that can block electromagnetic waves, but its price is high and its use is difficult to popularize. In the present invention, in order to simultaneously block electric and magnetic fields of electromagnetic waves, 150 g of nickel chloride is dissolved in the water, 10 ml of hydroxyxine as a reducing agent is dissolved in the solution, and the nickel is filtered and dried by heating at 100 ° C. and mixed with 100 g of powder and 150 g of powder. 500g of powder mixed with 150g of aluminum powder and 150g of electric carbon is mixed with 500g of cement powder to make electromagnetic shielding cement and applied to the floor, wall or ceiling to provide electromagnetic shielding cement powder that can block not only electromagnetic waves but also water veins It is a technique to do. Currently, metals that can block electromagnetic waves include silver, and aluminum cooking coils have been reported to block electric fields. It is not developed. In the present invention, copper, aluminum, and nickel are mixed with copper powder, aluminum powder and nickel chloride, which are not available in an alloy, and conductive carbon is mixed with cement powder by mixing conductive carbon with cement powder. It can block electromagnetic waves as well as water veins. Currently, copper aluminum is effective as a metal that can block water vein, and the copper plate is buried in the floor to block water vein. At present, as the fiber blocking electromagnetic wave, copper and nickel are coated on the fiber in PyeongChang industry and it is widely used as an electromagnetic wave blocking fiber. In addition, the Korea Research Institute of Standards and Science has confirmed that there is an electromagnetic shielding effect of 95%. The main focus of the present invention is that copper, nickel and aluminum are not alloyed with the three metals, and the alloying technology has not been developed yet. The present invention is to provide a technology that can easily block the electromagnetic waves at a low cost as a building material by synthesizing the powder of the metal, that is, copper powder, aluminum powder, nickel powder and synthesized like cement powder.

At present, it is not necessary to explain that electromagnetic waves are harmful to human body, and they are recognized as the second environmental pollution. In addition, the vein is also harmful to the factor has been transmitted to the word of mouth, the construction of the copper plate is buried in the floor to block the vein is widely performed. The present invention synthesizes a copper powder having excellent conductivity, which is difficult to alloy with a metal and a metal, and a metal powder obtained by simply synthesizing an aluminum powder and a nickel chloride, while blowing chlorine with nickel chloride as a heat, thereby making a nickel having excellent conductivity. The copper powder, aluminum powder, and nickel powder conductive carbon were synthesized and mixed with the cement powder to form an electromagnetic wave blocking functional cement powder. In addition, when diluting with water, nickel chloride is dissolved in water and absorbed by fine particles of copper powder and aluminum powder. These metals, which are synthesized with cement and are not alloyed, are synthesized to block electromagnetic waves as well as water veins. . In addition, the electromagnetic wave shielding cement powder will be corrected by inspecting the test result that can be proved by the electromagnetic shielding agency. In addition, a simple method for confirming that the electromagnetic wave blocking cement powder of the present invention is blocked the electromagnetic wave is made of a square tube of 20cm in width, 20cm in height, 20cm in height in order to test the functional cement powder of the present invention and coated with the existing cement After applying the electromagnetic wave shielding powder of the present invention, it is confirmed that the bell does not ring on the mobile phone even when the mobile phone is put therein and a signal is sent. Moreover, it has been confirmed that the TV does not grow even when the cement powder of the present invention is applied to the plywood, placed in front of the TV and the remote control is pressed. The present invention is a technology that can provide a functional cement powder that can block the electromagnetic waves by applying the various techniques in a simple way to all the living space flowing electricity.

The present invention exemplifies in detail the synthesis of copper powder, aluminum powder, nickel chloride, and the like synthesized with cement powder in the preparation of functional cement powder capable of blocking electromagnetic waves in more detail as follows.

Example 1

1st process

Dissolve 150 g of nickel chloride in 200 ml of water.

2nd process

Quantify 10 ml of hydroxyxin, a reducing agent.

3rd process

The chemicals of the second step are added to the first step, reacted and filtered to obtain a Nickel solid.

4th process

The third process is dried by heating at 100 ° C. to blow off chlorine contained in nickel chloride and mix to form powder.

5th process

150g of copper powder, 150g of aluminum powder, and 100g of conductive carbon are quantified, and 100g of silver and nickel powder of the fourth process is weighed and mixed to make 500g of metal powder powder.

6th process

Weigh 500 g of cement powder.

7th process

Synthetic mixing of the fifth step metal powder and the cement powder of the sixth step synthesizes the electromagnetic wave blocking cement powder of the present invention.

Example 2

How to use

1st process

It is a method of apply | coating to the floor or the wall surface by kneading with water in the ratio which synthesize | combines 100 g of fine sand to 500 g of the electromagnetic wave shielding cement powder of the 7th process of Example 1.

The present invention is too prevalent in the electromagnetic wave or vein factor. However, while building a house, the electromagnetic wave blocking effect is applied to the electromagnetic wave blocking cement powder of the present invention at a simple and low price on the wall or ceiling floor surface.

Claims (1)

Dissolve 150g of nickel chloride in 200ml of water, add 10ml of hydroxyxine as a reducing agent, react, filter the nickel solid and dry it to 100 ° to make powder. 100g of the powder, 150g of copper powder 150g of aluminum powder and 100g of conductive carbon synthetic powder 500g Metal Cement Powder used for electromagnetic wave blocking and water vein blocking by mixing 500g of cement powder