TH33613B - Copper pyrithione fine particles - Google Patents

Abstract

The DC60 disclosed here is a mixture consisting of a non-dust dispersant of Copper pyrithione, which consists of Combined with solid copper pyrithione particles dispersed in liquid for dispersion. Which such solid particles have Particles within the range range from approximately 0.1 to approximately 10 microns and a median of particle size less than 3 microns.This dispersant is appropriately used as an anti-algae additive for marine paint without the risk of exposure. Out of workers To dust, copper pyrithione, paint with copper pyrithione type Small particles will show Which has better anti-algae performance in cold water Compared with the large-particle copper pyrithione paints (Figure 1) disclosed here is a mixture consisting of a non-dust dispersant of Copper pyrithione, which consists of Combined with solid copper pyrithione particles dispersed in liquid for dispersion. Which such solid particles have Particles range from approx. 0.1 to approx. 10 microns and a median of particle size less than 3 microns. This dispersant is appropriately used as an anti-algae additive for marine paint, without the noise of the Exposed workers To dust, copper pyrithione, paint with copper pyrithione type Small particles will show Which has better anti-algae performance in cold water Compared to paints with large particle copper pyrithione (Figure 1).

Claims (4)

1. a mixture consisting of small particles of copper pyrithione with the size of Particles ranged from approx. 0.1 to approx. 10 microns and had a median particle size range from approximately 0.5 to 3.0 microns, with such small particles exhibiting increased antimicrobial performance, compared to Copper particles Big Pyrithione, In Exposed Marine Paint To the environment of cold water from about 5 degrees centigrade to about 15 degrees centigrade. The microparticles of the copper pyrithione would represent the filter rate as At least one microgram per square centimeter per day of exposure of such paint to condition 2. The paint, in which the mixtures of claim 1, in a quantity with an anti-algae efficiency range from approximately one percent to approximately 5 percent, are based on The total weight of the paint. 3. Method for increasing the anti-algae effect of paint in the paint. The cold water environment, in which the above methods include Add the mixture in claim 1 to the paint. 4. Mixture consisting of copper pyrithy dispersant. Non-dusty transfer, which is composed of small solid particles. Of copper pyrithione dispersed in the dispersant Liquid, in which the solid particles have particle sizes within the range of approximately 0.1 to approximately 10 microns and the median size Particles are within the range of 0.5 to 3.0 microns. 5. Mixture in claim 4, where the solid particles are There is a particle size within the range They range from approximately 0.25 microns to approximately 7 microns, and the median particle size ranges from 0.5 to 2 microns. 6. Mixture in claim No. 4, where the solid particles are With the median of particle size Within the range from approximately 0.5 to approximately 2.8 microns. 7. Mixture in claim 4, where the liquid dispersant was Selected from the group containing water, organic solvents. 8. Mixture in claim 4, which contains such solid particles. Dosage ranging from approximately 20% to approximately 99.95% by weight and with a liquid for such dispersion, volumes ranging from approximately 0.05% to approximately 80% by weight, based on the total weight of the mixture. Article 4, where such solid particles The volume ranges from approximately 20% to approximately 70% by weight and contains such liquid dispersants ranging from approximately 30% to approximately 80% by weight, based on the total weight of the mixture. Included with copper dispersant The non-dusty pyrithione is composed of small solid particles of copper. Pyrithione dispersed in dispersant Liquid, where the solid particles range from approximately 0.1 to approximately 10 microns and the median particle size ranges from 0.5 to 3.0 microns, where the solid particles range from approximately 20%. To approximately 70% by weight and contains such a liquid dispersion in volumes from 30% to approximately 80% by weight, based on the total weight of the mixture, where. The mixture also has a Dust shields selected from a group containing surfactants, polymer resins, binders. And a combination of these substances Ranging from approximately 0.05% to approximately 30%, based on Total Weight of Dispersant 1 1. Method for making a non-dust dispersant of solid particles. Small size of copper-pyrithione, which is dispersed in the substance Dispersed liquid The process of (a) the preparation of copper pyrithy particles solids. Transfers within the size range From approx. 0.1 to approx. 10 microns and median sizes range from 0.5 to 3.0 microns, by conduction large solid copper particles. Pyrithione comes through force. It was selected from a group consisting of milling, grinding, powdering, sonic and a combination of them, and (b) copper particle distribution. Such small pyrithione in the substance Liquid dispersion 1 2. Method of claim 11, where such grinding is performed by Techniques which were selected from the group It consists of ball grinding, jet grinding, air classification (ACM) grinding, netzch grinding and a combination of these techniques. 1 3. The method of making dust-free dispersants of Solid particles Small size of copper-pyrithione, which is dispersed in the substance Dispersed liquid It consists of steps of: (a) large solid particle distribution of copper pyrithy. Transferred in dispersed substances As a liquid to prepare the dispersing agent of Liquids with large solid particles It is distributed in it, and (b) the conductivity of the copper pyrithione liquid dispersion is passed through a force which is selected from the group consisting of milling, grinding, powdering, sonication. And the combination of these forces To reduce the size of such large particles in Loud dispersion It is within the required size range from approximately 0.1 to approximately 10 microns and the median particle size ranges from 0.5 to 3.0 microns. 1 4. Method of claim 13, where such grinding is performed by Techniques which were selected from the group It consists of ball grinding, jet grinding, air classification (ACM), Netzch grinding and a combination of these techniques. 1 5. Method for increasing the lichen characteristics of paint. Paint, which consists of adding particles Copper solid Pyrithione with size Particles range from approximately 0.1 to approximately 10 microns and the median particle size ranges from 0.5 to 3.0 microns. Efficiency blocking algae in paint 1 6. Method of claim 15, where solid particles of Copper pyrithione has sizes The particles within the range range from approximately 0.25 to approximately 7 microns and the median of particle size. They are in the range from 0.5 to 2 microns. 1 7. Algae-proof paint, which consists of basic paint and copper solid particles. Pyrithione with particle size within range They range from approx. 0.1 to approx. 10 microns and have a median of particle size in the range from 0.5 to 3.0 microns in an effective amount of algae 1 8. Algae-based paint consisting of base paint and copper solid particles. Pyrithione with particle size ranges from about 0.25 to about 7 microns and has a median of size. Particles from 0.5 to 2 microns in quantities effective against algae 1 9. Methods for increasing the filtration rate of copper pyrithione from the applied paint. With copper pyrithione In the cold sea environment, the method is composed of copper pyrithione solid particles with particle sizes ranging from approximately 0.1 to approximately 10 microns and the median of particle size within the range from 0.5 to 3.0 microns into the paint To rate Filter Copper Pyrith Transfer from paint to at least one microgram per square centimeter per day of exposure of such paint to the aqueous environment. Such a cold sea When measured at the temperature of cold water 10.6 degrees Celtic grade 2 0. Method in claim 19 where there is copper The pyrithione is contained in a non-dust copper pyrithione dispersant. Which consists of small solid particles of copper Pyrithione dispersed in a liquid dispersant, where the solid particles are Particles ranged from approximately 0.1 to approximately 10 microns and the median of particle size. Within the range of 0.5 to less than 3.0 microns in the amount with 2 moss protection efficiency 1. Method for claim 19, where the mixture also contains a dust inhibitor, which is selected by Group containing surfactants, polymer resins, binders. And their mixtures range from approximately 0.05% to approximately 30%, based on the total weight of dispersant 2. 2. Paint together with lichen with copper pyrithione. Which provides an increased filtration rate of Copper pyrithione from the paint in a cold seawater environment, the paint consists of the base paint and copper pyrithione solid particles in an effective amount of algae. The solid particle size ranges from approximately 0.1 to approximately 10 microns and the median particle size ranges from 0.5 to 3.0 microns. The filtering rate from the paint is at least one microgram per square centimeter per day of exposure. Of such paint to such cold sea environment When measured at the temperature of chilled water 10.6 degrees centigrade 2 3. Lichen paint with copper pyrithione in Clause 22, where there is copper. Pyrithione is contained in the non-dust copper pyrithione dispersant. Which includes Copper pyrithione solid particles dispersed in liquid dispersants, in which the solid particles range from approximately 0.1 to approximately 10 microns, and the median of particle size is within 0.5. To 3.0 microns in volume, effective against algae 2 4. Lichen paint with copper pyrithione in Clause 22, where the substance is dispersed. There are also dust inhibitors selected from the group containing surfactants, polymer resins, binders. And a combination of these substances Ranging from approximately 0.05% to approximately 30% based on the total weight of the dispersant.