TH34060C3 - Anti-adhesion material and the manufacturing process of this material And admixtures for coatings and finishers for such materials and processes. - Google Patents

Abstract

DC60 (23/02/43) has disclosed an excellent anti-adhesion coating properties, especially the excellent anti-adhesion effect of dirt or grease, the process for Production of such materials And admixtures for coatings and finishes for stabilizing materials The adhesion material consists of a substrate; And an inorganic layer containing Metal oxides are the main constituents, the inorganic layers contain alkali metals and unbredged oxygen. The amount is effective in removing the impurities from the exhaust gases trapped on the surface of the inorganic layer by cleaning by only allowing water to flow. To restore the radiance of the skin The inorganic layer shall not be less than 75% of the initial reflection, the inorganic layer is made up of The bonded protective coating layer to the outermost layer It has revealed an excellent anti-adhesion material, especially the excellent anti-adhesion effect of dirt or grease, the process for the manufacture of such materials. And admixtures for coatings and finishes for stabilizing materials The adhesion substrate consists of: substrates; And an inorganic layer containing Metal oxides are the main constituents, the inorganic layers contain alkali metals and unbredged oxygen. The amount is effective in removing the impurities from the exhaust gases trapped on the surface of the inorganic layer by cleaning by only allowing water to flow. To restore the radiance of the skin The inorganic layer shall not be less than 75% of the initial reflectivity, the organic layer making up Retained adhesion layer, outermost layer:

Claims (3)

Claims (all) that will not appear on the advertisement page: 1. Anti-adhesion material. Containing substrates and inorganic layers, mainly of alkali silicates The inorganic layer is bonded to the outermost layer of the sealant. The content of alkali metals in the inorganic layer is not less than 10% by weight as measured by X-ray photon Spectroscopy from the surface layer And oxygen is not bridged In sufficient quantities that the alkali metal is emitted from the inorganic layer is 0.001 to 80%, where the inorganic layer has a surface with a mean centerline roughness (Ra) at Ra <500 nm and a thickness of not more than 5 microns. Such inorganic layers Containing alkali metals And oxygen is not bridged in sufficient quantities to result in the removal of impurities from the exhaust. Which is attached to the surface of the inorganic layer with the use of running water only to restore the surface reflectivity to not less than 75% of the initial reflectivity. Right 1, where the restoration of reflectivity is not less than 80% 3. Anti-adhesion material according to claim 2, where the restoration of reflectance is not less than 90%. 4. Anti-adhesion material according to claim. 1st right, where the metal concentration The alkali in the inorganic layer was greater than the concentration of the alkali metal in the substrate. 5. Anti-adhesion material according to claim 1, where the contact angle in the water of the substrate layer Inorganic and oleic acid is not less than 100 degrees 6. Anti-adhesion material according to claim 5, where the contact angle is greater than 120 degrees. 7. Anti-adhesion material according to claim. Right 6 where the contact angle is greater than 140 degrees 8. Anti-adhesion material according to claim 1, where after soaking the material The coating adheres in warm water at 50 ° C for 6 hours, the water contact angle of the layer surface. Inorganic substances with eleic acid are greater than 120 degrees 9. Anti-adhesion material according to claim 1, wherein the heat of the immersion The inorganic layer in oil is less than in water 1 0. Anti-adhesion material according to claim 1, where the inorganic layer thickness 0.01 to 5 microns 1 1. Anti-adhesion material. The coating adheres to claim 1, where the inorganic layer has lines. Center of average roughness (Ra) at Ra <500 microns 1 2. Anti-adhesion material according to claim 1, where the surface of the inorganic layer The half-value of the dielectric is not more than 10 seconds. 1. 3. Anti-adhesion material according to claim 1, where when immersed in an inorganic layer in water with pH 7, the potential Zeta is negative 1. 4. Anti-adhesion material according to claim 1, where the surface of the inorganic layer exceeds 7 1 5. The anti-adhesion material according to claim 1 also contains oxides. of Amorphous metals are at least one member selected from a group consisting of Al2O3, ZrO2, B2O3 and P2O5. 1 6. Anti-adhesion material according to claim 1, where alkali metals are members. At least one selected from the lithium, sodium and potassium group 1 7. Anti-adhesion material according to claim 1, where the inorganic layer contains an antimicrobial agent 1. 8. Anti-adhesion material. According to claim 1, where the substrate consists of: material body; And a varnish layer containing particle material And / or a thin, clear layer on the material 1 9. Anti-adhesion material according to claim 1, where the substrate contains particle material 2 0. Anti-adhesion material according to claim 1, where particle material is elemental. At least one selected from a group containing silicon, aluminum, iron, titanium, magnesium, calcium, zirconium, zinc, cobalt, manganese, chromium, copper, silver, lead and nickel. 1. Anti-adhesion material according to claim 1, while the inorganic layer still plays a role. Photocatalytic metal oxyat on the surface of the inorganic layer 2 2. Anti-adhesion material according to claim 1, where the substrate consists of at least one member selected from the group containing ceramics. These include tiles, sanitary ware, dining utensils, and ceramics, glass, natural stone, cement, concrete, metal, fibers and plastics. Or class of these materials 2 3. Anti-adhesion material according to claim 1 wherein an inorganic layer is created. As a group, coatings or multiple coatings