JP2015155879A - β-RAY RELEASING COATING - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coating that enables the useful effects of β-rays to be exhibited greatly without uselessly making radioactive material stronger or using large quantities of radioactive material.

SOLUTION: Powdery β-ray releasing material is mixed with conductive substance such as powdery carbon, and they are kneaded with binder to obtain a coating.

COPYRIGHT: (C)2015,JPO&INPIT

Description

The present invention relates to a β-ray-emitting paint relating to β-ray emission and accompanying ionization and the like.

So-called radioactive substances are intended to change the structure of unstable nuclei into stable ones by causing radioactive decay, but at that time, helium nuclei are + charged alpha rays and electron beams. It is common to emit certain -charged beta rays and gamma rays of very short wavelength electromagnetic waves. Of these, β-rays give electrons, and this corresponds to reduction, which is the ultimate definition of oxidation and reduction. We have been paying more attention to this, and have produced many trials of products that apply this, and have confirmed many effects in reality.

Utility model registration No. 3151212 Utility model registration No. 3167226

The present inventor has already discovered (confirmed) that such a β-ray-emitting substance has been applied (supported) to, for example, a three-dimensional network, and that the gas or liquid that has passed through the substance clearly exhibits a preferable action / effect. ing. For example, it can be set in an oil cleaner for long-lasting oil, or set (bubbling) in an aquaculture pond for fish to survive disease-free and ikebana for long-lasting.

This is probably because β rays are more penetrating than α rays, so they penetrate into gases and liquids, collide with molecules, ionize them, and generate negative ions, which detoxify harmful active oxygen such as hydroxyl radicals. It is guessed that.

However, in order to make the action more powerful, it is impossible to make the radioactive material used powerfully or use it in large quantities. This is because safety and costs for the human body must be taken into consideration. In addition, when used as a paint, there is a concern that the binder resin, the organic coating material, and the like may gradually deteriorate over time.

In view of this, an object of the present invention is to provide a paint (coating material) that exerts an effect more effectively even in the same amount or quickly eliminates harmful elements.

The present inventor added a black carbon powder to a natural radioactive material with β decay already used to make a paint, and specifically made a filter coated on a three-dimensional network and applied it to a car oil cleaner As a result, it was surprisingly found that the effect was about 1.5 times or more compared to the case where no carbon powder was added.

It was confirmed that the same action and effect were observed when air passing through a similar filter was bubbled into water.

That is, powdery carbon is added to a powdery β-ray emitting material, and these are kneaded together with a binder to form a coating material (in a broad sense of coating materials in general).

However, although the same effect was obtained with conductive powder such as iron (ferrite) or metal such as aluminum, more preferable physical properties as a paint were obtained when carbon powder was used.

As described above, the reason why the action / effect is significantly different as a result of mixing the conductive material powder with the β-ray-emitting substance is that it requires strict academic verification. It is thought that such a reason holds.

In other words, since β decay is always a set in β decay, there is a release of + charge α rays (helium nuclei) simultaneously with the release of -charge electrons, which are β rays. Since the penetrating power into the air is extremely small, + charge is accumulated inside the paint, and this impedes the discharge of −charged electrons. This also impairs the ability to produce, and in turn weakens the ability to remove harmful active oxygen such as hydroxyl radicals.

However, when conductive powder is mixed in the paint, the + charge is transmitted to the inside and outside of the device, and the process of the helium nucleus eventually gaining electrons and dissipating into a small amount of helium gas proceeds smoothly. Will do. This also shortens the time for breaking the paint binder and the plastic molecules of the coated material, making it difficult to deteriorate. Furthermore, some harmful gamma rays are absorbed and shielded. This is thought to be the reason why various beneficial actions and effects were enhanced.

As already described, according to the present invention, the action of β-rays emitted from the coating surface of the paint is further enhanced, while the action of harmful α-rays and γ-rays is weakened to reduce the amount of radioactive substances. Without increasing, it greatly helps to prevent deterioration of oil, carrier and binder resin, improve water quality, and improve the health and environment of human beings and other living organisms. There are many effects such as efficiently radiating beneficial far-infrared rays in a region that absorbs and activates living organisms and water molecules.

A naturally occurring radioactive substance whose radiation level is below the standard value is pulverized to an average particle size of 10 to 15 μm, and 500 g of this is kneaded with 45 g of activated carbon powder having an average particle size of 10 to 15 μm and 250 g of a urethane-based clear paint. To paint.

When this was spray-painted onto a commercially available polyurethane-based three-dimensional network structure and applied to an oil reformer for filling an oil cleaner in Utility Model Registration No. 3151212, the mileage was reduced when the reformer was not used. What was only 5000km now has about 150,000km. By the way, when carbon powder was not mixed, it was about 80,000 km, which means that the performance was improved by at least 1.5 times.

Similarly, when this was installed in the air passage connected to the compressor and applied to underwater bubbling, a remarkable improvement in action and effect was recognized.

The scope of application of the present invention is not limited to the above-described three-dimensional network structure, and may be any one that can be applied, such as an inner surface of a container or a tubular body, a honeycomb structure, a plate, a sheet, or a wall surface, It is a wide variety.

The effects of the present invention are very significant, have great needs, and are easily mass-produced, so that they have sufficient industrial applicability.

Claims (2)

A β-ray-emitting coating material obtained by adding a powdered conductive material to a powdered β-ray-emitting material and kneading these together with a binder. The β-ray-emitting paint according to claim 1, wherein the powdered conductive material is powdered carbon.