Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Reexamination Certificate
2000-06-27
2002-03-12
Michl, Paul R. (Department: 1714)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
C524S044000
Reexamination Certificate
active
06355707
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates, in general, to an electromagnetic wave-shielding coating material and, more particularly, to an electromagnetic wave-shielding coating material which paints are mixed with electroconductive polymers, so that may be superior in both paintability and electromagnetic wave shielding activity.
With a great technical advance in the electronics field, electronic appliances, which are indispensable for daily life, become better and better in performance and function. In addition, electronic appliances are also developed in dimension with an inclination to lightness and slimness. In this regard, cases of electronic appliances are changed into plastics, which are light and comfortable to carry. Whereas being light, strong, and easy to mold, plastics, however, are restricted in their uses owing to their nonconductivity. One of the most serious problems that plastics have results from electromagnetic waves. In general, plastic itself cannot shield electromagnetic waves. If they do not cope with electromagnetic waves, plastics, however graceful in appearance or convenient in use they may be, cannot be used for the fear of the malfunction of the electronic appliances.
In an effort to solve such problems, there have been developed various techniques for shielding electromagnetic waves. At present, the shielding of electromagnetic waves is conducted by use of, for example, plating, electroconductive paints, vacuum deposition, and electroconductive polymers. Of them, plating is most prevalently used because the other methods show significant disadvantages over the plating method.
For example, electroconductive polymers are relatively poor in shielding ability, vacuum deposition requires expensive facilities, and electroconductive polymers are restricted in their materials. For these reasons, a plating method is prevalently used now. However, the plating method is disadvantageous in that plating materials are expensive.
An electromagnetic wave consists of vibrating electric and magnetic fields which move with the same phase at a given time. The electric field, determined by the intensity of charges, is shielded by any of electroconductive materials while the magnetic field, depending on the motion of charges, is penetrative of all materials. In particular, electric fields are known to be more harmful to the body than are electric fields.
Electromagnetic waves are generated by electric and electromagnetic apparatuses, such as household appliances, wireless communication systems, control systems, power systems, high frequency-generating instruments, lighting instruments, and the like, and power lines. In recent, the most serious artificial noise is sourced from digital systems, including computers.
Electromagnetic waves cause various dysfunctions in the body although they are not the same in severity. Recently, active research has been directed to the protection of the body from electromagnetic waves.
SUMMARY OF THE INVENTION
Therefore, it is an object of the present invention to overcome the above problems encountered in prior arts and to provide a coating material which is able to effectively shield electromagnetic waves with a broad band of frequencies and be coated onto cases of various electromagnetic apparatuses, thereby protecting the body from electromagnetic wave pollutions.
In addition, it is another object of the present invention to provide an antistatic coating material.
In accordance with an embodiment of the present invention, there is provided an electromagnetic wave-shielding coating material, comprising polyaniline (ES) with a solid content of 1-50%, a matrix polymer with a solid content of 1-50%, and additives at a predetermined amount.
In one version of this embodiment, the matrix polymer is selected from the group consisting of a vinyl emulsion and an acrylic emulsion. In another version of this embodiment, the additives comprise a wetting agent, a coalescing agent, a freeze/thaw stabilizer, a defoamer, a thickner or mixtures thereof.
In accordance with another embodiment of the present invention, there is provided an electromagnetic wave-shielding coating material, prepared by mixing polyaniline (ES, 100%), an acrylic resin and additives at predetermined amounts and adding the mixture with a hardener and a mixed solvent at predetermined amounts just before use.
In one version of this embodiment, the additives comprise a dispersion agent, a defoamer, a leveling agent, a UV stabilizer, a UV absorber, a catalyst or mixtures thereof. In another version, a hardener is further added.
DETAILED DESCRIPTION OF THE INVENTION
One of the hottest electromagnetic wave issues is that the body is damaged when being exposed to weak electromagnetic waves with low frequencies for a long period of time. As for the harmfulness of strong electromagnetic waves, it is scientifically verified. Recent legislation, in response to electromagnetic wave concerns, has been enacted to prescribe maximal exposure limits for the protection of the body.
It is reported that, when the body is exposed to electromagnetic waves of low frequencies for a long period of time, currents are induced in the body to incur an imbalance in concentration between various intracellular and extracellular ions such as Na
+
, K
+
, Cl
−
and so on, affecting hormone secretion and immune cells.
An electromagnetic wave, as mentioned previously, consists of electric and magnetic fields. The intensity of an electric field is determined by the magnitude of a potential while the intensity of a magnetic field is determined by the magnitude of a current. An electric field is greatly shielded by a highly conductive material whereas a magnetic field is difficult to shield because it can be shielded only by special alloys which are very highly magnetic. When exposed to electric fields, the body may suffer from a thermal disease such as eczema as a current flows through the body. On the other hand, magnetic fields are found to penetrate into the body to affect the iron molecules in blood. Electromagnetic waves are more harmful to blood corpuscles, which proliferate rapidly, the genital organs, lymphatic glands and children.
Examples of the symptoms that electromagnetic waves may cause include languidness, insomnia, nervousness, headache, reduction in the secretion of melatonin responsible for sound sleep, and pulse decrease. In addition, recent reports have argued that electromagnetic waves may cause diseases such as leukemia lymph cancer, brain cancer, central nerve cancer, breast cancer, dementia, abortion, and deformed child parturition. Besides, many other diseases are reported to be caused by electromagnetic waves.
Much effort has been made to prevent the evils of electromagnetic waves. In result, many electromagnetic shielding products are developed. Especially, in accordance with the present invention, developed is an electromagnetic wave-shielding coating material which itself is resistant to electromagnetic waves.
In general, coating materials are used for printing and exemplified by varnish and paints. Undercoating materials have the function of anti-corrosion. Medium and finishing coating materials are to provide resistance against external conditions for targeted materials. Usually, such coating materials are composed of pigments, resins and organic solvents.
Suitable for use in the purpose are benzene, toluene, xylene, methylethyl ketone, methylisobutyl ketone, and combinations thereof.
The present invention is directed to a coating material for shielding electromagnetic waves, comprising polyaniline with a solid content of 1-50%, which is an electroconductive polymer having self-resistance to electromagnetic waves, a matrix polymer with a solid content of 1-50%, and additives at predetermined amounts.
As the matrix polymer for the coating material for shielding electromagnetic waves, a vinyl emulsion or an acrylic emulsion resin is available.
As for the additives suitable in the present invention, they comprise a wetting agent, a coalescing agent, a free
Jang Jin Ouk
Park Jin Woo
F. Chau & Associates LLP
Michl Paul R.
Samhwa Paints Ind. Co., Ltd.
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