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Far infrared biologic energy nanometer pottery crystal porcelain film and preparation method thereof

A nano-ceramic and bio-energy technology, applied in coatings and other directions, can solve the problems of high price, unable to become a daily product for every household, not an ordinary consumer, etc., and achieve the effect of wide market application.

Inactive Publication Date: 2018-03-20
童信淞
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Many natural mines and substances in nature can emit 4-18μm far-infrared rays, but they cannot be turned into daily-use products for every household. Moreover, the prices of similar products with far-infrared functions on the market are high, and they are not products that ordinary consumers can consume.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment Construction

[0019] The following examples will further illustrate the present invention.

[0020] Production Method

[0021] 1) Production of nanoscale main ingredients: add 50% to 70% of silicon oxide and 10% to 15% of calcium silicate to 10% to 25% of water-based inorganic silicone resin, mix them into a sand mill for grinding, and the grinding time is 8 to 12 hours , until the particle size is 20-40nm, and the mixture A is formed.

[0022] 2) Production of far-infrared powder: mix and pulverize natural ores (fisheye, malachite, opal, shoushan stone, turquoise and other dolomite), grind them into fine particle powder, and add 70% to 90% of the mixed powder 10%-30% ethanol, grind for 6-10 hours until the particles reach 25-50nm, and form mixture B.

[0023] 3) The mixture A is 30%-50% and the mixture B 50%-70% is subjected to sol-gel dispersion and mixing treatment, and rolled for 1-2 hours to form a far-infrared bioenergy nano-ceramic ceramic film.

[0024] 4) Construction: directly ...

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Abstract

The invention relates to a far infrared biologic energy nanometer pottery crystal porcelain film and a preparation method thereof, and relates to the far infrared biologic energy nanometer pottery crystal porcelain film. The nanometer pottery crystal porcelain film is prepared from the following raw materials of silicon oxide, calcium metasilicate, water-based inorganic silicon resin and natural ore. During the preparation, water-based inorganic silicon resin is added into the silicon oxide and calcium metasilicate; mixing and grinding are performed to obtain a mixture A; the natural ore is mixed and crushed, and is ground into particle powder to obtain mixed powder; then, ethyl alcohol is added; grinding is performed to obtain a mixture B; the mixture A and the mixture B are subjected tosol-gel dispersion mixing and rolling to obtain the far infrared biologic energy nanometer pottery crystal porcelain film. Through the spraying and brushing on a required product, placement for automatic drying or temperature rising baking, the far infrared biologic energy nanometer pottery crystal porcelain film can be formed on the surface of the required product. The far infrared biologic energy nanometer pottery crystal porcelain film can be applied to metal such as stainless steel, aluminum alloy, iron and copper, and can also be applied to products of plastic quartz lamp tubes and the like.

Description

technical field [0001] The invention relates to a far-infrared bioenergy nano-ceramic ceramic film, in particular to a far-infrared bio-energy nano-ceramic ceramic film and a preparation method thereof. Background technique [0002] Many natural mines and materials in nature can emit 4-18μm far-infrared rays, but they cannot be turned into daily-use products for every household. Moreover, the prices of similar products with far-infrared functions on the market are high, and they are not products that ordinary consumers can consume. [0003] The medical field calls the far-infrared rays of 4-18 μm the 'life wave'. Sunlight and some bio-minerals can continuously emit this kind of far-infrared rays. Far-infrared rays can "resonate" most effectively with the water production capacity of cells in organisms, promote the growth of organisms and plants, and improve microcirculation. important role. [0004] Sunlight can be roughly divided into visible light and invisible light. T...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D1/00C09D7/61
CPCC09D1/00
Inventor 童信淞童芬德
Owner 童信淞
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