CN105802313A - Paint for eliminating and transforming electromagnetic wave into far infrared rays - Google Patents

Abstract

The invention provides paint for eliminating and transforming electromagnetic wave into far infrared rays. The paint is prepared from multiple conductors with irregular shapes, a particle electromagnetic wave absorber, far infrared powder and a binder by uniform mixing. Objects such as an electric appliance product housing, a building metope, a pad and clothes are coated with the paint. The electric conductors with irregular shapes can block and shield electromagnetic wave, the particle electromagnetic wave absorber absorbs electric energy of the blocked electromagnetic wave and transforms the electric energy into heat, the heat stimulates the far infrared powder and the far infrared powder produces far infrared energy beneficial for the human body so that a good heat radiation function is obtained. The paint has a health effect of transforming electromagnetic wave harmful for the human body into far infrared energy conducive to the human body.

Description

Eliminate electromagnetic wave and convert the coating of far infrared to

Technical field

The present invention relates to a kind of electromagnetic wave that eliminates and convert the coating of far infrared to, espespecially a kind of coating being easy to be coated on the objects such as electric appliance housing, building wall, pad, medicated clothing, harmful electromagnetic wave can be efficiently converted into the far-infrared ray power contributing to human body by this coating.

Background technology

Along with science and technology is flourish, in the daily life of the electronic product such as computer, mobile phone modern extensively and profoundly, bring quite a lot of convenience to people's life.But, electronic product mostly can produce harmful electromagnetic wave while using, and according to medical report, be chronically exposed to the people higher than electromagnetic wave standard value, it is easy to feel that physical fatigue, eyes be tired, shoulder pain, headache etc., also can cause the diseases such as immune function decline, leukemia, tumor what is more, therefore, how to intercept electromagnetic wave, to reduce the electromagnetic wave injury to human body, be important topic during modern lives.

Electromagnetic wave kind is quite a lot of, as: human tissue cell all can be caused injury in various degree by the electromagnetic wave of static radiation, χ ray, gamma-rays and base station electromagnetic wave, high tension electric tower electromagnetic wave etc., and existing modal electromagnetic wave proof method is mainly and covers and electromagnetic wave absorption, its embodiment is to utilize high-conductivity metal material to make housing or demihull shape, carrys out electromagnetic wave shielding by metallic reflection characteristic；But, its cost intensive, and only there is electromagnetic wave shielding function, and cannot absorb, eliminate electromagnetic wave, then, those skilled in the art has been developed for eliminating electromagnetic method with electromagnetic wave absorption particle absorbed, but electromagnetic wave absorption particle material does not have effect that electromagnetic wave shielding penetrates, therefore must arrange in pairs or groups metal shell in implementation process or lamellar body uses in the lump, therefore, the shortcoming still having cost intensive, and the anti-electromagnetic wave product of collocation metal shell or lamellar body lacks flexibility and lightness, restriction on using to cause it to implement, even and if can cover and electromagnetic wave absorption, but cannot further electromagnetic wave be converted to the energy kenel that human body is useful.

Summary of the invention

In order to solve above-mentioned shortcoming and defect, inventor is full of electromagnetic wave in living in view of modern, but electromagnetic wave effectively cannot be covered, absorb, and convert the anti-electromagnetic wave product of the energy that human body is useful to, then by it for many years under the help of the manufacture of association area and design experiences and knowledge, and through clever thought in many ways, and then work out the present invention.It is an object of the invention to provide a kind of electromagnetic wave that eliminates and convert the coating of far infrared to, its main purpose is to provide for one and can be easy to coat on the objects such as electric appliance housing, building wall, pad, medicated clothing, with by harmful electromagnetic wave, the electromagnetic wave that eliminates being efficiently converted into the far-infrared ray power contributing to human body converts the coating of far infrared to.

In order to reach above-mentioned enforcement purpose, the application number that the present inventor applies for before it is CN200810110167.8, denomination of invention is CN201310011684.0 for " anti-electromagnetic wave particle material " and application number, denomination of invention is on the basis of " Prevention of cardiovascular disease and biotechnology maintenance health-care material " patent, the electromagnetic wave that eliminates working out the present invention converts the coating of far infrared to, this coating includes multiple irregularly shaped electric conductor, microgranule electromagnetic wave absorb, far infrared powder body and sticker, by the plurality of irregularly shaped electric conductor, microgranule electromagnetic wave absorb, far infrared powder body and sticker Homogeneous phase mixing make described coating.

The electromagnetic wave that eliminates as above converts the coating of far infrared to, above-mentioned its material of irregularly shaped electric conductor selected from graphite, CNT, nano carbon microsphere, carbon fiber, nanometer carbon dust, Binchotan, activated carbon or bamboo charcoal one of them, or various conductive material one of them or its combination.

The electromagnetic wave that eliminates as above converts the coating of far infrared to, above-mentioned coating further includes multiple particulate conductive body, and makes the plurality of particulate conductive body make coating with this irregularly shaped electric conductor, microgranule electromagnetic wave absorb and far infrared powder body and this sticker Homogeneous phase mixing.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of particulate conductive body is selected from various conductive carbon, graphite, activated carbon, Binchotan, carbon 60 or bamboo charcoal one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of particulate conductive body is selected from gold, silver, copper, ferrum, the pig iron, aluminum, nickel, stannum, pure silicon or ferrosilicon one of them or its combination.

The electromagnetic wave that eliminates as above converts the coating of far infrared to, above-mentioned its material of particulate conductive body is selected from various conductive carbon, graphite, activated carbon, Binchotan, carbon 60 or bamboo charcoal one of them or its combination, and gold, silver, copper, ferrum, the pig iron, aluminum, nickel, stannum, pure silicon or ferrosilicon one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of microgranule electromagnetic wave absorb is selected from aluminium oxide, zinc oxide, titanium dioxide, catalysis material or iron oxides one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of microgranule electromagnetic wave absorb is selected from having magnetic metal material or having magnetic metal oxide materials one of them or its combination；The magnetic metal material of above-mentioned tool includes ferrum, cobalt, nickel etc.；Have magnetic metal oxide materials and include copper oxide, ferrum oxide, aluminium oxide, titanium oxide, zinc oxide etc..

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of microgranule electromagnetic wave absorb is selected from cement, potter's clay, clay, calcium carbonate or metallic ore one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned its material of far infrared powder body is selected from oxide one of them or its combination of nature covalency Ore or this nature sintered one-tenth of covalency Ore.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, the mean diameter of above-mentioned far infrared powder body between micron to nanometer between.

The electromagnetic wave that eliminates as above converts the coating of far infrared to, and the far infrared that above-mentioned far infrared powder body sends is the macroelement far infrared with trace element of simulation human body, and its wavelength is 5-30 micron；Being preferably between 8-12 micron, its emissivity is between 0.81-0.99.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned far infrared powder body is selected from germanic Ore, containing silicon ore or calcic Ore one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned far infrared powder body is selected from Skeletal, Maifanitum, obsidian, stone needle, crystal, quartz, diamond, Achates, Margarita, biological shell, tourmaline, bamboo charcoal, conductive carbon one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and this is maybe included oxide one of them or its combination of the sintered one-tenth of covalency Ore of trace element and macroelement selected from including the covalency Ore of trace element and macroelement by above-mentioned far infrared powder body.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, and above-mentioned trace element is selected from strontium (Sr), barium (Ba), scandium (Sc), cobalt (Co), zinc (Zn), chromium (Cr), ferrum (Fe), bromine (Br), silver (Ag), hafnium (Hf), manganese (Mn), thorium (Th), caesium (Cs), rhodium (Rh), selenium (Se), sodium (Na), copper (Cu), potassium (K), gold (Au), tungsten (W), lanthanum (Ld), titanium (Ti) and germanium (Ge) one of them or its combination.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, above-mentioned sticker selected from natural resin or synthetic resin one of them.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, above-mentioned natural resin the selection of material be Colophonium, lacquer (lacquer) or Lac one of them.

The as above electromagnetic wave that eliminates converts the coating of far infrared to, above-mentioned synthetic resin the selection of material be polyalcohols resin, phenol resin, Corvic, melmac, epoxy resin, silicones, polyurethane resin one of them.

Therefore, when using enforcement, the electromagnetic wave that eliminates of the present invention can be converted the coatings shell in electric equipment products of far infrared to, building wall, pad, on the objects such as medicated clothing, the electromagnetic wave that eliminates utilizing the present invention converts the interconnected formation network structure of above-mentioned irregularly shaped electric conductor that the coating of far infrared has to, electromagnetic wave effectively can be blocked and cover, the electromagnetic energy absorption that will be blocked by microgranule electromagnetic wave absorb again, and after being converted to heat energy energy, far infrared powder body is excited to send the far-infrared ray power that human body is useful again, and form good heat sinking function according to this, accordingly, to reach harmful electromagnetic wave, convert the health-care effect of the far-infrared ray power being of value to human body to.

Accompanying drawing explanation

Fig. 1 be the embodiment of the present invention 1 eliminate electromagnetic wave convert to the coatings of far infrared on object time three-dimensional exploded view；

Fig. 2 be the embodiment of the present invention 1 eliminate electromagnetic wave convert to the coatings of far infrared on object time axonometric chart；

Fig. 3 be the embodiment of the present invention 1 eliminate electromagnetic wave convert to the coatings of far infrared on object time enlarged partial sectional view；

Fig. 4 be the embodiment of the present invention 2 eliminate electromagnetic wave convert to the coatings of far infrared on object time enlarged partial sectional view；

Fig. 5 be the embodiment of the present invention 3 eliminate electromagnetic wave convert to the coatings of far infrared on object time enlarged partial sectional view.

Main Reference label declaration:

1 irregularly shaped electric conductor

2 microgranule electromagnetic wave absorbs

3 far infrared powder body

4 stickers

5 particulate conductive bodies

A coating

B object.

Detailed description of the invention

For the technical characteristic of the present invention, purpose and beneficial effect are more clearly understood from, in conjunction with Figure of description, technical scheme is carried out described further below, but it is not intended that can the restriction of practical range to the present invention.

Embodiment 1

Present embodiments providing a kind of electromagnetic wave that eliminates and convert the coating of far infrared to, multiple irregularly shaped electric conductors 1, microgranule electromagnetic wave absorb 2, far infrared powder body 3 and sticker 4 are mainly mixed and made into coating A by this coating；It coats three-dimensional exploded view time on object B, axonometric chart, enlarged partial sectional view respectively as Figure 1-3, wherein:

Above-mentioned multiple irregularly shaped electric conductor 1, main in a tubular form or the state such as threadiness, and make the plurality of irregularly shaped electric conductor 1 interconnected end to end each other, can be able to mix via the mode fully vibrated with stirring makes the plurality of irregularly shaped electric conductor 1 interconnected end to end each other, and then form interwoven mesh structure, to increase conductive path, improve its electric conductivity, and block, the characteristics such as electromagnetic wave shielding, and the material that this irregularly shaped electric conductor 1 is selected can be carbon-based material, as: graphite, CNT, nano carbon microsphere, carbon fibre material and fibrous nanometer of carbon dust, Binchotan, activated carbon or bamboo charcoal one of them, or the various conductive materials such as conductive wire one of them or its combination；

nullAbove-mentioned microgranule electromagnetic wave absorb 2 is the medium with height reflection of electromagnetic wave loss rate，It is mainly by electro-magnetic wave absorption，And when electromagnetic wave is shuttled back and forth therebetween，Produce impedance、Magnetic、Resonance、The phenomenons such as dielectric absorption，And make electromagnetic wave energy be converted to heat energy，The material that this microgranule electromagnetic wave absorb 2 is selected can be metal-oxide powder，Such as: aluminium oxide、Zinc oxide、Copper oxide、Titanium dioxide、Ferroso-ferric oxide、The metal oxide materials such as catalysis material or iron oxides，Or magnetic powder，Such as: have magnetic metal-powder (such as neodymium、It is alloy etc.)，And have magnetic metal oxide materials (such as Ferrite)，Or natural minerals，Such as: cement powder、Potter's clay、Clay、Calcium carbonate，Or it is interior siliceous、Ferrum、Aluminum、Nickel、Carbon、Magnesium、Manganese、The metallic ore of the materials such as chrome mineral is (such as tourmaline、Maifanitum、Quartz、Crystal、Muscovitum etc.) etc. one of them or its combination；

nullAbove-mentioned far infrared powder body 3 is mean diameter powder morphology between micron to the rice received，Its mean diameter is preferably less than 100 nanometers，And in this far infrared powder body 3, store far infrared (FarInfraredRays) energy，And make the wavelength of this far-infrared ray power between 5-30 micron，The far infrared wavelength of macroelement Yu trace element to simulate human body，This wavelength is especially preferably between 8-12 micron，This far infrared powder body 3 the selection of material can be germanic Ore、Containing one of them or its combination such as nature covalency Ores such as silicon ore or calcic Ore，Or be Skeletal、Maifanitum、Obsidian、Stone needle、Crystal、Quartz、Diamond、Achates、Margarita、Biological shell、Tourmaline、Bamboo charcoal、The combination of one of them or its such as conductive carbon，Or be above-mentioned germanic Ore、Containing nature covalency Ore and Skeletals such as silicon ore or calcic Ores、Maifanitum、Obsidian、Stone needle、Crystal、Quartz、Diamond、Achates、Margarita、Biological shell、Tourmaline、One of them or its such as conductive carbon combine the oxide of sintered formation，And the emissivity of the far infrared of its storage is between 0.81-0.99 (81%-99%)，This far infrared powder body 3 another also can be selected for including trace element or macroelement，And the covalency Ore comprising trace element and macroelement maybe will include the oxide of the sintered one-tenth of covalency Ore of this trace element and macroelement，And its trace element comprises strontium (Sr)、Barium (Ba)、Scandium (Sc)、Cobalt (Co)、Zinc (Zn)、Chromium (Cr)、Ferrum (Fe)、Bromine (Br)、Silver (Ag)、Hafnium (Hf)、Manganese (Mn)、Thorium (Th)、Caesium (Cs)、Rhodium (Rh)、Selenium (Se)、Sodium (Na)、Copper (Cu)、Potassium (K)、Gold (Au)、Tungsten (W)、Lanthanum (Ld)、The combination of one of them or its such as titanium (Ti) and germanium (Ge)；

Above-mentioned sticker 4 selected from natural resin or synthetic resin one of them, so that this irregularly shaped electric conductor 1, microgranule electromagnetic wave absorb 2 and far infrared powder body 3 Homogeneous phase mixing are in this sticker 4, its natural resin the selection of material can be Colophonium, lacquer or Lac etc. one of them, separately its synthetic resin the selection of material can be polyalcohols resin, phenol resin, Corvic, melmac, epoxy resin, silicones, polyurethane resin etc. one of them.

nullAccordingly，When using enforcement，Can by the present invention by multiple irregularly shaped electric conductors 1、Microgranule electromagnetic wave absorb 2、The elimination electromagnetic wave that far infrared powder body 3 and sticker 4 Homogeneous phase mixing are made converts the coating A of far infrared to and coats electric appliance housing，Or coat door and window，Or coat building wall，Or coat mouse pad、The pads such as medicated cushion，Or coat medicated clothing、The fabrics such as curtain，Or coat paper、On the object B such as tubing，In this，When electromagnetic wave is transferred to the object B being coated with the coating of the present invention，The interconnected careful irregular reticulated conductive passage being interwoven of irregularly shaped electric conductor 1 that this coating available has，Good blocking and electromagnetic wave shielding effect can be produced，To prevent electromagnetic wave from penetrating，Subsequently，It is subject to blocking and will produce reflection in the reticulated conductive passage that irregularly shaped electric conductor 1 is formed with the electromagnetic wave covered、Diffraction and the phenomenon such as creep，It is mixed in the microgranule electromagnetic wave absorb 2 between the webbed irregularly shaped electric conductor 1 of this intertexture，Namely the reticulated conductive passage internal reflection that can will be formed at irregularly shaped electric conductor 1、Diffraction and the electromagnetic wave creeped are absorbed，And there is the characteristic of height reflection of electromagnetic wave loss rate by this microgranule electromagnetic wave absorb 2，Electromagnetic wave is shuttled back and forth when this microgranule electromagnetic wave absorb 2，Produce impedance、Magnetic、Resonance、The phenomenons such as dielectric absorption，And by electromagnetic energy expenditure and be converted to heat energy，So that electromagnetic wave is eliminated，Subsequently，The heat energy that this electromagnetic wave energy consumption produces passes through conduction in far infrared powder body 3，To excite this far infrared powder body 3 to send the far-infrared ray power of 8-12 micron，This far-infrared ray power launched can be absorbed by human body，And the far-infrared ray power wavelength discharged with the trace element in human body and macroelement vibrates mutually，And produce heat-flash resonance effect，And then reach activation histiocyte、Blood circulation promoting、Activation peripheral nerve、Help metabolism、Get rid of vivotoxin、Calm nerves is tight and improves the effects such as muscular soreness.

It is with application number for CN200810110167.8 that the elimination electromagnetic wave of the present invention converts the coating of far infrared to, denomination of invention is the patent of " anti-electromagnetic wave particle material " (TaiWan, China patent TWI401701) and application number is CN201310011684.0 (TaiWan, China patent TWI446933), denomination of invention is based on the patent of " Prevention of cardiovascular disease and biotechnology maintenance health-care material ", entrusted TaiWan, China Tsing-Hua University nanometer and material Science & Technology Center that its function is verified simultaneously, the result shows that it has prevention and cure of cardiovascular disease, adjust blood pressure and pulse, activation peripheral nerve with improve that human body is micro-follows the functions such as system.Additionally, the electromagnetic wave that eliminates of the present invention converts the coating of far infrared to after coating pad, entrust TaiWan, China Zhongshan Science Research Inst chemistry institute that it has been carried out the testing experiment of far infrared irradiation rate, this test adopts FLIR-SC200 to carry out, test condition is: temperature 20 DEG C, relative humidity 62%, measuring wavelength is 8-12 micron, test sample heating-up temperature is 37 DEG C, its result of the test shows that the pad eliminating the coating that electromagnetic wave converts far infrared to being coated with the present invention can send the far-infrared ray power that wavelength is 8-12 micron, and the meansigma methods of the emissivity of its far infrared is 0.91, namely the electromagnetic wave that eliminates being experimentally verified that the present invention converts the coating of far infrared to and really can reach above-mentioned enforcement effect.

Embodiment 2

Present embodiments provide a kind of electromagnetic wave that eliminates and convert the coating of far infrared to, the coating that the present embodiment is made up of irregularly shaped electric conductor 1, microgranule electromagnetic wave absorb 2, far infrared powder body 3 and sticker 4 in embodiment 1 adds multiple particulate conductive bodies 5 further；nullEnlarged partial sectional view when it is coated on object B is as shown in Figure 4，The plurality of particulate conductive body 5 is the granule of different-diameter，This particulate conductive body 5 then can be selected for carbon-based material and makes，Such as: various conductive carbon、Graphite、Activated carbon、Binchotan、Carbon 60、Bamboo charcoal、CNT、The combination of the carbon-based material such as carbon fiber or nano carbon microsphere one of them or its，Its preparation method is as follows: by carbon-based material via after pyroreaction，Make it have electric conductivity，Grind to form ultra tiny microgranule again，And become the graininess structure with electric conductivity，This particulate conductive body 5 also can be selected for conductive metallic material，Such as: gold、Silver、Copper、Aluminum、Ferrum、The pig iron、Nickel、Stannum、The conductive metal such as pure silicon or ferrosilicon one of them or by its combination make graininess structure，Therefore，Irregularly shaped electric conductor 1 and particulate conductive body 5 are blended mutually，Obtain linking pilotaxitic texture，Can further reach the effect increasing electric conductivity with electromagnetic wave shielding.

Embodiment 3

Present embodiments provide a kind of electromagnetic wave that eliminates and convert the coating of far infrared to, this coating is mainly made up of the mixing of multiple particulate conductive bodies 5, microgranule electromagnetic wave absorb 2, far infrared powder body 3 and sticker 4, and enlarged partial sectional view when it is coated on object B is as shown in Figure 5；The structure of the different-diameter granule of above-mentioned particulate conductive body 5; namely the electromagnetic wave of different wave length can be covered; to reach effectively to intercept and absorb the electromagnetic effect of different wave length together with being similarly particulate microgranule electromagnetic wave absorb 2; in this; the electromagnetic wave that eliminates of the present invention is converted to suitably change that the coating of far infrared does or modifies by all the technical staff in the technical field, all should be regarded as eliminating, without departing from the present invention, the protection domain that electromagnetic wave converts the pad of far infrared to.

By said structure and embodiment it can be seen that present invention have the advantage that

1, the electromagnetic wave that eliminates of the present invention converts the coating of far infrared to and includes irregularly shaped electric conductor or particulate conductive body, with electromagnetic wave is blocked with cover after, by microgranule electromagnetic wave absorb, the electromagnetic wave blocked is absorbed again, and excite far infrared powder body to send the far-infrared ray power that human body is useful by electromagnetic wave energy consumption and after being converted to heat energy, and form good heat radiating function according to this, thus reach to convert harmful electromagnetic wave to contribute to body-care effect electromagnetic wave.

2, the electromagnetic wave that eliminates of the present invention converts the coating of far infrared to and can coat on electric appliance housing, door and window, building wall, pad, medicated clothing, paper etc., to be widely used in various daily living article, thus reaching effectively to take precautions against electromagnetic effect in daily life.

Claims (20)

1. one kind eliminates electromagnetic wave and converts the coating of far infrared to, it consists predominantly of multiple irregularly shaped electric conductor, microgranule electromagnetic wave absorb, far infrared powder body and sticker, and the plurality of irregularly shaped electric conductor, microgranule electromagnetic wave absorb, far infrared powder body and sticker Homogeneous phase mixing are made described coating.

2. elimination electromagnetic wave according to claim 1 converts the coating of far infrared to, wherein, described its material of irregularly shaped electric conductor selected from graphite, CNT, nano carbon microsphere, carbon fiber, nanometer carbon dust, Binchotan, activated carbon or bamboo charcoal one of them, or various conductive material one of them or its combination.

3. elimination electromagnetic wave according to claim 1 converts the coating of far infrared to, wherein, the coating that described elimination electromagnetic wave converts far infrared to further includes multiple particulate conductive body, to make coating with described irregularly shaped electric conductor, microgranule electromagnetic wave absorb, far infrared powder body and this sticker Homogeneous phase mixing.

4. one kind eliminates electromagnetic wave and converts the coating of far infrared to, it consists predominantly of multiple particulate conductive body, microgranule electromagnetic wave absorb, far infrared powder body and sticker, and the plurality of particulate conductive body, microgranule electromagnetic wave absorb, far infrared powder body and sticker Homogeneous phase mixing are made described coating.

5. the electromagnetic wave that eliminates according to claim 3 or 4 converts the coating of far infrared to, and wherein, described its material of particulate conductive body is selected from various conductive carbon, graphite, activated carbon, Binchotan, carbon 60 or bamboo charcoal one of them or its combination.

6. the electromagnetic wave that eliminates according to claim 3 or 4 converts the coating of far infrared to, and wherein, described its material of particulate conductive body is selected from gold, silver, copper, ferrum, the pig iron, aluminum, nickel, stannum, pure silicon or ferrosilicon one of them or its combination.

7. the electromagnetic wave that eliminates according to claim 3 or 4 converts the coating of far infrared to, wherein, described its material of particulate conductive body is selected from various conductive carbon, graphite, activated carbon, Binchotan, carbon 60 or bamboo charcoal one of them or its combination, and gold, silver, copper, ferrum, the pig iron, aluminum, nickel, stannum, pure silicon or ferrosilicon one of them or its combination.

8. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, and wherein, described its material of microgranule electromagnetic wave absorb is selected from aluminium oxide, zinc oxide, titanium dioxide, catalysis material or iron oxides one of them or its combination.

9. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, and wherein, described its material of microgranule electromagnetic wave absorb is selected from having magnetic metal material or having magnetic metal oxide materials one of them or its combination.

10. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, and wherein, described its material of microgranule electromagnetic wave absorb is selected from cement, potter's clay, clay, calcium carbonate or metallic ore one of them or its combination.

11. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, described its material of far infrared powder body is selected from oxide one of them or its combination of nature covalency Ore or this nature sintered one-tenth of covalency Ore.

12. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, the mean diameter of described far infrared powder body between micron to nanometer between.

13. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, the far infrared that described far infrared powder body sends is the macroelement far infrared with trace element of simulation human body, and its wavelength is 5-30 micron；Being preferably between 8-12 micron, its emissivity is between 0.81-0.99.

14. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, described far infrared powder body is selected from germanic Ore, containing silicon ore or calcic Ore one of them or its combination.

15. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, described far infrared powder body is selected from Skeletal, Maifanitum, obsidian, stone needle, crystal, quartz, diamond, Achates, Margarita, biological shell, tourmaline, bamboo charcoal, the combination of conductive carbon one of them or its.

16. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, this is maybe included oxide one of them or its combination of the sintered one-tenth of covalency Ore of trace element and macroelement selected from including the covalency Ore of trace element and macroelement by described far infrared powder body.

17. elimination electromagnetic wave according to claim 16 converts the coating of far infrared to, wherein, described trace element is selected from strontium, barium, scandium, cobalt, zinc, chromium, ferrum, bromine, silver, hafnium, manganese, thorium, caesium, rhodium, selenium, sodium, copper, potassium, gold, tungsten, lanthanum, titanium and germanium one of them or its combination.

18. the electromagnetic wave that eliminates according to any one of Claims 1-4 converts the coating of far infrared to, wherein, described sticker is selected from natural resin or synthetic resin.

19. elimination electromagnetic wave according to claim 18 converts the coating of far infrared to, wherein, described natural resin select material be Colophonium, lacquer or Lac one of them.

20. elimination electromagnetic wave according to claim 18 converts the coating of far infrared to, wherein, described synthetic resin select material be polyalcohols resin, phenol resin, Corvic, melmac, epoxy resin, silicones, polyurethane resin one of them.