CN106189413A - A kind of dust-proof coating of electronic product antibacterial surface - Google Patents
A kind of dust-proof coating of electronic product antibacterial surface Download PDFInfo
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- CN106189413A CN106189413A CN201610536897.9A CN201610536897A CN106189413A CN 106189413 A CN106189413 A CN 106189413A CN 201610536897 A CN201610536897 A CN 201610536897A CN 106189413 A CN106189413 A CN 106189413A
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- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D4/00—Coating compositions, e.g. paints, varnishes or lacquers, based on organic non-macromolecular compounds having at least one polymerisable carbon-to-carbon unsaturated bond ; Coating compositions, based on monomers of macromolecular compounds of groups C09D183/00 - C09D183/16
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- C09D5/00—Coating compositions, e.g. paints, varnishes or lacquers, characterised by their physical nature or the effects produced; Filling pastes
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Abstract
nullThe present invention relates to a kind of dust-proof coating of electronic product antibacterial surface,It is made up of the component of following mass fraction: dioctyl phthalate 18~22 parts、Magnesium hydroxide 20~24 parts、Strontium chromate 16~20 parts、Nitrocotton 14~18 parts、Citronellyl formate 20~24 parts、Glycerol caprylate 16~20 parts、Imidazoline 14~18 parts、Arabinogalactan 20~24 parts、Propylparaben 16~20 parts、2,2 dithienyl methyl glycollates 14~18 parts、Cupric oxalate 20~24 parts、Dythal 16~20 parts、Sorbitol 16~20 parts、Boron carbide powder 14~18 parts、Acrylamide 20~24 parts、N phenyl 2 naphthylamines 16~20 parts、Melamine cyanurate 14~18 parts、Azo-bis-isobutyl cyanide 20~24 parts、Polyvinyl chloride resin 16~20 parts、Tricresyl phosphate 14~18 parts、Ferrous sulfate monohydrate 20~24 parts、Copper sulphate pentahydrate 16~20 parts、Manganese sulfate monohydrate 14~18 parts.Product of the present invention has the most superior fire-retardant, acid and alkali-resistance, anti-mildew anti-microbial property.
Description
Technical field
The present invention relates to a kind of dust-proof coating of electronic product antibacterial surface, belong to formulation for coating material technical field.
Background technology
Electronic product is the Related product with electric energy as working foundation, specifically include that phone, television set, video disc player (VCD,
SVCD, DVD), videocorder, video camera, radio, radio cassette player, combination sound box, compact disc player (CD), computer, mobile communication product
Deng.Electronic product is necessary to suitable coating and is protected, in order to preferably improve its using effect.
Summary of the invention
It is an object of the invention to provide a kind of dust-proof coating of electronic product antibacterial surface, in order to electronics is better achieved and produces
The function of the dust-proof coating of product antibacterial surface.
To achieve these goals, technical scheme is as follows.
A kind of dust-proof coating of electronic product antibacterial surface, is made up of the component of following mass fraction: phthalic acid two is pungent
Ester 18~22 parts, magnesium hydroxide 20~24 parts, strontium chromate 16~20 parts, nitrocotton 14~18 parts, citronellyl formate 20~24 parts,
Glycerol caprylate 16~20 parts, imidazoline 14~18 parts, arabinogalactan 20~24 parts, propylparaben 16~20 parts,
2,2-dithienyl methyl glycollate 14~18 parts, cupric oxalate 20~24 parts, Dythal 16~20 parts, Pyrusussuriensis
Sugar alcohol 16~20 parts, boron carbide powder 14~18 parts, acrylamide 20~24 parts, N-phenyl-2-naphthylamine 16~20 parts, melamine
Amine cyanurate 14~18 parts, azo-bis-isobutyl cyanide 20~24 parts, polyvinyl chloride resin 16~20 parts, tricresyl phosphate 14~18 parts,
Ferrous sulfate monohydrate 20~24 parts, copper sulphate pentahydrate 16~20 parts, manganese sulfate monohydrate 14~18 parts.
Further, the above-mentioned dust-proof coating of electronic product antibacterial surface, it is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 18 parts, 20 parts of magnesium hydroxide, strontium chromate 16 parts, nitrocotton 14 parts, citronellyl formate 20 parts, glycerol caprylate 16
Part, imidazoline 14 parts, arabinogalactan 20 parts, propylparaben 16 parts, 2,2-dithienyl methyl glycollate 14 parts, grass
Acid copper 20 parts, Dythal 16 parts, Sorbitol 16 parts, boron carbide powder 14 parts, acrylamide 20 parts, N-benzene
Base-2-naphthylamines 16 parts, melamine cyanurate 14 parts, azo-bis-isobutyl cyanide 20 parts, polyvinyl chloride resin 16 parts, tricresyl phosphate
14 parts, ferrous sulfate monohydrate 20 parts, copper sulphate pentahydrate 16 parts, manganese sulfate monohydrate 14 parts.
Further, the above-mentioned dust-proof coating of electronic product antibacterial surface, it is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 20 parts, 22 parts of magnesium hydroxide, strontium chromate 18 parts, nitrocotton 16 parts, citronellyl formate 22 parts, glycerol caprylate 18
Part, imidazoline 16 parts, arabinogalactan 22 parts, propylparaben 18 parts, 2,2-dithienyl methyl glycollate 16 parts, grass
Acid copper 22 parts, Dythal 18 parts, Sorbitol 18 parts, boron carbide powder 16 parts, acrylamide 22 parts, N-benzene
Base-2-naphthylamines 18 parts, melamine cyanurate 16 parts, azo-bis-isobutyl cyanide 22 parts, polyvinyl chloride resin 18 parts, tricresyl phosphate
16 parts, ferrous sulfate monohydrate 22 parts, copper sulphate pentahydrate 18 parts, manganese sulfate monohydrate 16 parts.
Further, the above-mentioned dust-proof coating of electronic product antibacterial surface, it is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 22 parts, 24 parts of magnesium hydroxide, strontium chromate 20 parts, nitrocotton 18 parts, citronellyl formate 24 parts, glycerol caprylate 20
Part, imidazoline 18 parts, arabinogalactan 24 parts, propylparaben 20 parts, 2,2-dithienyl methyl glycollate 18 parts, grass
Acid copper 24 parts, Dythal 20 parts, Sorbitol 20 parts, boron carbide powder 18 parts, acrylamide 24 parts, N-benzene
Base-2-naphthylamines 20 parts, melamine cyanurate 18 parts, azo-bis-isobutyl cyanide 24 parts, polyvinyl chloride resin 20 parts, tricresyl phosphate
18 parts, ferrous sulfate monohydrate 24 parts, copper sulphate pentahydrate 20 parts, manganese sulfate monohydrate 18 parts.
Further, described magnesium hydroxide is made up of the powder body of three kinds of particle diameter mesh numbers, and its particle diameter mesh number is respectively 30~50
Mesh, 50~80 mesh, 80~100 mesh, the mixing quality ratio of above-mentioned three kinds of magnesium hydroxide is 3~7:4~8:1.
Further, described cupric oxalate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh,
50~80 mesh, 80~100 mesh, the mixing quality ratio of above-mentioned three kinds of cupric oxalates is 3~8:2~8:1.
Further, the viscosity of described tricresyl phosphate is 12000~14000mpa.s at 25 DEG C.
Further, described strontium chromate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 20~50 mesh,
50~70 mesh, 70~90 mesh, the mixing quality ratio of above-mentioned three kinds of strontium chromates is 2~4:3~5:1.
Further, the viscosity of described citronellyl formate is 8000~10000mpa.s at 25 DEG C.
Further, above-mentioned electronic product antibacterial surface dust-proof coating production step is as follows:
(1) by the dioctyl phthalate of described mass fraction, magnesium hydroxide, strontium chromate, nitrocotton, formic acid Herba Cymbopogonis Citrari
Ester, glycerol caprylate, imidazoline, arabinogalactan, propylparaben, 2,2-dithienyl methyl glycollate, cupric oxalate,
Dythal, N-phenyl-2-naphthylamine, tricresyl phosphate, ferrous sulfate monohydrate, copper sulphate pentahydrate, a water sulfur
Acid manganese is mixed, ultrasonic high speed dispersion, and ultrasonic frequency is 20~40KHz, rate of dispersion 5000~about 5400r/min,
Jitter time is 30~60min;
(2) Sorbitol of described mass fraction, boron carbide powder, acrylamide are added, ultrasonic high speed dispersion, ultrasound wave
Frequency is 20~35KHz, rate of dispersion 4800~about 5200r/min, and jitter time is 30~50min;
(3) adding the melamine cyanurate of described mass fraction, azo-bis-isobutyl cyanide, polyvinyl chloride resin, ultrasonic high speed is divided
Dissipating, ultrasonic frequency is 20~30KHz, rate of dispersion 4600~about 4800r/min, and jitter time is 20~40min;Mixing
This product is prepared after uniformly.
This beneficial effect of the invention is: this electronic product antibacterial surface dust-proof preparation technology of coating method is simple, made
Standby product has the most superior fire-retardant, acid and alkali-resistance, anti-mildew anti-microbial property, improves properties of product.
Detailed description of the invention
Below in conjunction with embodiment, the detailed description of the invention of the present invention is described, in order to be better understood from the present invention.
Embodiment 1
The dust-proof coating of electronic product antibacterial surface in the present embodiment, is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 18 parts, 20 parts of magnesium hydroxide, strontium chromate 16 parts, nitrocotton 14 parts, citronellyl formate 20 parts, glycerol caprylate 16
Part, imidazoline 14 parts, arabinogalactan 20 parts, propylparaben 16 parts, 2,2-dithienyl methyl glycollate 14 parts, grass
Acid copper 20 parts, Dythal 16 parts, Sorbitol 16 parts, boron carbide powder 14 parts, acrylamide 20 parts, N-benzene
Base-2-naphthylamines 16 parts, melamine cyanurate 14 parts, azo-bis-isobutyl cyanide 20 parts, polyvinyl chloride resin 16 parts, tricresyl phosphate
14 parts, ferrous sulfate monohydrate 20 parts, copper sulphate pentahydrate 16 parts, manganese sulfate monohydrate 14 parts.
Described magnesium hydroxide is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80
Mesh, 80~100 mesh, the mixing quality ratio of above-mentioned three kinds of magnesium hydroxide is 3:4:1.
Described cupric oxalate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80 mesh,
80~100 mesh, the mixing quality ratio of above-mentioned three kinds of cupric oxalates is 3:2:1.
The viscosity of described tricresyl phosphate is 12000mpa.s at 25 DEG C.
Described strontium chromate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 20~50 mesh, 50~70 mesh,
70~90 mesh, the mixing quality ratio of above-mentioned three kinds of strontium chromates is 2:3:1.
The viscosity of described citronellyl formate is 8000mpa.s at 25 DEG C.
Above-mentioned electronic product antibacterial surface dust-proof coating production step is as follows:
(1) by the dioctyl phthalate of described mass fraction, magnesium hydroxide, strontium chromate, nitrocotton, formic acid Herba Cymbopogonis Citrari
Ester, glycerol caprylate, imidazoline, arabinogalactan, propylparaben, 2,2-dithienyl methyl glycollate, cupric oxalate,
Dythal, N-phenyl-2-naphthylamine, tricresyl phosphate, ferrous sulfate monohydrate, copper sulphate pentahydrate, a water sulfur
Acid manganese is mixed, and ultrasonic high speed dispersion, ultrasonic frequency is 20kHz, rate of dispersion about 5400r/min, and jitter time is
60min;
(2) Sorbitol of described mass fraction, boron carbide powder, acrylamide are added, ultrasonic high speed dispersion, ultrasound wave
Frequency is 20kHz, rate of dispersion about 5200r/min, and jitter time is 50min;
(3) adding the melamine cyanurate of described mass fraction, azo-bis-isobutyl cyanide, polyvinyl chloride resin, ultrasonic high speed is divided
Dissipating, ultrasonic frequency is 20kHz, rate of dispersion about 4800r/min, and jitter time is 40min;This is prepared after mix homogeneously
Product.
Embodiment 2
The dust-proof coating of electronic product antibacterial surface in the present embodiment, is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 20 parts, 22 parts of magnesium hydroxide, strontium chromate 18 parts, nitrocotton 16 parts, citronellyl formate 22 parts, glycerol caprylate 18
Part, imidazoline 16 parts, arabinogalactan 22 parts, propylparaben 18 parts, 2,2-dithienyl methyl glycollate 16 parts, grass
Acid copper 22 parts, Dythal 18 parts, Sorbitol 18 parts, boron carbide powder 16 parts, acrylamide 22 parts, N-benzene
Base-2-naphthylamines 18 parts, melamine cyanurate 16 parts, azo-bis-isobutyl cyanide 22 parts, polyvinyl chloride resin 18 parts, tricresyl phosphate
16 parts, ferrous sulfate monohydrate 22 parts, copper sulphate pentahydrate 18 parts, manganese sulfate monohydrate 16 parts.
Described magnesium hydroxide is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80
Mesh, 80~100 mesh, the mixing quality ratio of above-mentioned three kinds of magnesium hydroxide is 5:6:1.
Described cupric oxalate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80 mesh,
80~100 mesh, the mixing quality ratio of above-mentioned three kinds of cupric oxalates is 5:5:1.
The viscosity of described tricresyl phosphate is 13000mpa.s at 25 DEG C.
Described strontium chromate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 20~50 mesh, 50~70 mesh,
70~90 mesh, the mixing quality ratio of above-mentioned three kinds of strontium chromates is 3:4:1.
The viscosity of described citronellyl formate is 9000mpa.s at 25 DEG C.
Above-mentioned electronic product antibacterial surface dust-proof coating production step is as follows:
(1) by the dioctyl phthalate of described mass fraction, magnesium hydroxide, strontium chromate, nitrocotton, formic acid Herba Cymbopogonis Citrari
Ester, glycerol caprylate, imidazoline, arabinogalactan, propylparaben, 2,2-dithienyl methyl glycollate, cupric oxalate,
Dythal, N-phenyl-2-naphthylamine, tricresyl phosphate, ferrous sulfate monohydrate, copper sulphate pentahydrate, a water sulfur
Acid manganese is mixed, and ultrasonic high speed dispersion, ultrasonic frequency is 30kHz, rate of dispersion about 5200r/min, and jitter time is
45min;
(2) Sorbitol of described mass fraction, boron carbide powder, acrylamide are added, ultrasonic high speed dispersion, ultrasound wave
Frequency is 27kHz, rate of dispersion about 5000r/min, and jitter time is 40min;
(3) adding the melamine cyanurate of described mass fraction, azo-bis-isobutyl cyanide, polyvinyl chloride resin, ultrasonic high speed is divided
Dissipating, ultrasonic frequency is 25kHz, rate of dispersion about 4700r/min, and jitter time is 30min;This is prepared after mix homogeneously
Product.
Embodiment 3
The dust-proof coating of electronic product antibacterial surface in the present embodiment, is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 22 parts, 24 parts of magnesium hydroxide, strontium chromate 20 parts, nitrocotton 18 parts, citronellyl formate 24 parts, glycerol caprylate 20
Part, imidazoline 18 parts, arabinogalactan 24 parts, propylparaben 20 parts, 2,2-dithienyl methyl glycollate 18 parts, grass
Acid copper 24 parts, Dythal 20 parts, Sorbitol 20 parts, boron carbide powder 18 parts, acrylamide 24 parts, N-benzene
Base-2-naphthylamines 20 parts, melamine cyanurate 18 parts, azo-bis-isobutyl cyanide 24 parts, polyvinyl chloride resin 20 parts, tricresyl phosphate
18 parts, ferrous sulfate monohydrate 24 parts, copper sulphate pentahydrate 20 parts, manganese sulfate monohydrate 18 parts.
Described magnesium hydroxide is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80
Mesh, 80~100 mesh, the mixing quality ratio of above-mentioned three kinds of magnesium hydroxide is 7:8:1.
Described cupric oxalate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 30~50 mesh, 50~80 mesh,
80~100 mesh, the mixing quality ratio of above-mentioned three kinds of cupric oxalates is 8:8:1.
The viscosity of described tricresyl phosphate is 14000mpa.s at 25 DEG C.
Described strontium chromate is made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number be respectively 20~50 mesh, 50~70 mesh,
70~90 mesh, the mixing quality ratio of above-mentioned three kinds of strontium chromates is 4:5:1.
The viscosity of described citronellyl formate is 10000mpa.s at 25 DEG C.
Above-mentioned electronic product antibacterial surface dust-proof coating production step is as follows:
(1) by the dioctyl phthalate of described mass fraction, magnesium hydroxide, strontium chromate, nitrocotton, formic acid Herba Cymbopogonis Citrari
Ester, glycerol caprylate, imidazoline, arabinogalactan, propylparaben, 2,2-dithienyl methyl glycollate, cupric oxalate,
Dythal, N-phenyl-2-naphthylamine, tricresyl phosphate, ferrous sulfate monohydrate, copper sulphate pentahydrate, a water sulfur
Acid manganese is mixed, and ultrasonic high speed dispersion, ultrasonic frequency is 40kHz, rate of dispersion 5000r/min, and jitter time is
30min;
(2) Sorbitol of described mass fraction, boron carbide powder, acrylamide are added, ultrasonic high speed dispersion, ultrasound wave
Frequency is 35kHz, rate of dispersion 4800r/min, and jitter time is 30min;
(3) adding the melamine cyanurate of described mass fraction, azo-bis-isobutyl cyanide, polyvinyl chloride resin, ultrasonic high speed is divided
Dissipating, ultrasonic frequency is 30kHz, rate of dispersion about 4600r/min, and jitter time is 20min;This is prepared after mix homogeneously
Product.
Performance measurement is carried out for the product in embodiment 1, embodiment 2 and embodiment 3 and certain commercially available prod, measured
Data are as shown in table 1.Fire protection flame retarding level estimate uses UL94 standard.
Table 1 the performance test results
Visible, product of the present invention has the most corrosion-resistant, fire protection flame retarding, anti-mildew, anti-microbial property.
The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art
For, under the premise without departing from the principles of the invention, it is also possible to make some improvements and modifications, these improvements and modifications are also considered as
Protection scope of the present invention.
Claims (10)
1. the dust-proof coating of electronic product antibacterial surface, it is characterised in that: it is made up of the component of following mass fraction: adjacent benzene two
Formic acid dioctyl ester 18~22 parts, magnesium hydroxide 20~24 parts, strontium chromate 16~20 parts, nitrocotton 14~18 parts, citronellyl formate
20~24 parts, glycerol caprylate 16~20 parts, imidazoline 14~18 parts, arabinogalactan 20~24 parts, propylparaben
16~20 parts, 2,2-dithienyl methyl glycollate 14~18 parts, cupric oxalate 20~24 parts, Dythal 16~
20 parts, Sorbitol 16~20 parts, boron carbide powder 14~18 parts, acrylamide 20~24 parts, N-phenyl-2-naphthylamine 16~20
Part, melamine cyanurate 14~18 parts, azo-bis-isobutyl cyanide 20~24 parts, polyvinyl chloride resin 16~20 parts, tricresyl phosphate
14~18 parts, ferrous sulfate monohydrate 20~24 parts, copper sulphate pentahydrate 16~20 parts, manganese sulfate monohydrate 14~18 parts.
The dust-proof coating of electronic product antibacterial surface the most according to claim 1, it is characterised in that: described electronic product surface
Antimicrobial dust-proof coating is made up of the component of following mass fraction: dioctyl phthalate 18 parts, 20 parts of magnesium hydroxide, strontium chromate
16 parts, nitrocotton 14 parts, citronellyl formate 20 parts, glycerol caprylate 16 parts, imidazoline 14 parts, arabinogalactan 20 parts,
Propylparaben 16 parts, 2,2-dithienyl methyl glycollate 14 parts, cupric oxalate 20 parts, Dythal 16 parts,
Sorbitol 16 parts, boron carbide powder 14 parts, acrylamide 20 parts, N-phenyl-2-naphthylamine 16 parts, melamine cyanurate 14
Part, azo-bis-isobutyl cyanide 20 parts, polyvinyl chloride resin 16 parts, tricresyl phosphate 14 parts, ferrous sulfate monohydrate 20 parts, copper sulphate pentahydrate
16 parts, manganese sulfate monohydrate 14 parts.
3. according to the dust-proof coating of electronic product antibacterial surface described in claim 1 to 2, it is characterised in that: described electronic product
The dust-proof coating of antibacterial surface is made up of the component of following mass fraction: dioctyl phthalate 20 parts, 22 parts of magnesium hydroxide, chromium
Acid 18 parts of strontium, nitrocotton 16 parts, citronellyl formate 22 parts, glycerol caprylate 18 parts, imidazoline 16 parts, arabinogalactan 22
Part, propylparaben 18 parts, 2,2-dithienyl methyl glycollate 16 parts, cupric oxalate 22 parts, Dythal 18
Part, Sorbitol 18 parts, boron carbide powder 16 parts, acrylamide 22 parts, N-phenyl-2-naphthylamine 18 parts, melamine cyanurate
Salt 16 parts, azo-bis-isobutyl cyanide 22 parts, polyvinyl chloride resin 18 parts, tricresyl phosphate 16 parts, ferrous sulfate monohydrate 22 parts, five water sulfur
Acid copper 18 parts, manganese sulfate monohydrate 16 parts.
4. according to the dust-proof coating of electronic product antibacterial surface described in claims 1 to 3, it is characterised in that: described electronic product
The dust-proof coating of antibacterial surface is made up of the component of following mass fraction: dioctyl phthalate 22 parts, 24 parts of magnesium hydroxide, chromium
Acid 20 parts of strontium, nitrocotton 18 parts, citronellyl formate 24 parts, glycerol caprylate 20 parts, imidazoline 18 parts, arabinogalactan 24
Part, propylparaben 20 parts, 2,2-dithienyl methyl glycollate 18 parts, cupric oxalate 24 parts, Dythal 20
Part, Sorbitol 20 parts, boron carbide powder 18 parts, acrylamide 24 parts, N-phenyl-2-naphthylamine 20 parts, melamine cyanurate
Salt 18 parts, azo-bis-isobutyl cyanide 24 parts, polyvinyl chloride resin 20 parts, tricresyl phosphate 18 parts, ferrous sulfate monohydrate 24 parts, five water sulfur
Acid copper 20 parts, manganese sulfate monohydrate 18 parts.
5. according to the dust-proof coating of electronic product antibacterial surface described in claim 1 to 2, it is characterised in that: described magnesium hydroxide
Being made up of the powder body of three kinds of particle diameter mesh numbers, its particle diameter mesh number is respectively 30~50 mesh, 50~80 mesh, 80~100 mesh, above-mentioned three kinds
The mixing quality ratio of magnesium hydroxide is 3~7:4~8:1.
6. according to the dust-proof coating of electronic product antibacterial surface described in claims 1 to 3, it is characterised in that: described cupric oxalate by
The powder body composition of three kinds of particle diameter mesh numbers, its particle diameter mesh number is respectively 30~50 mesh, 50~80 mesh, 80~100 mesh, above-mentioned three kinds of grass
The mixing quality ratio of acid copper is 3~8:2~8:1.
7. according to the dust-proof coating of electronic product antibacterial surface described in Claims 1-4, it is characterised in that: described tripotassium phosphate
The viscosity of phenyl ester is 12000~14000mpa.s at 25 DEG C.
8. according to the dust-proof coating of electronic product antibacterial surface described in Claims 1-4, it is characterised in that: described strontium chromate by
The powder body composition of three kinds of particle diameter mesh numbers, its particle diameter mesh number is respectively 20~50 mesh, 50~70 mesh, 70~90 mesh, above-mentioned three kinds of chromium
The mixing quality ratio of acid strontium is 2~4:3~5:1.
9. according to the dust-proof coating of electronic product antibacterial surface described in Claims 1-4, it is characterised in that: described formic acid Herba Cymbopogonis Citrari
The viscosity of ester is 8000~10000mpa.s at 25 DEG C.
The dust-proof coating of electronic product antibacterial surface the most according to claim 1, it is characterised in that: described electronic product table
Face antimicrobial dust-proof coating production step is as follows:
(1) by the dioctyl phthalate of described mass fraction, magnesium hydroxide, strontium chromate, nitrocotton, citronellyl formate, pungent
Acid glyceride, imidazoline, arabinogalactan, propylparaben, 2,2-dithienyl methyl glycollate, cupric oxalate, disalt
Base lead phthalate, N-phenyl-2-naphthylamine, tricresyl phosphate, ferrous sulfate monohydrate, copper sulphate pentahydrate, manganese sulfate monohydrate
Being mixed, ultrasonic high speed dispersion, ultrasonic frequency is 20~40KHz, and rate of dispersion about 5000~5400r/min, during dispersion
Between be 30~about 60min;
(2) Sorbitol of described mass fraction, boron carbide powder, acrylamide are added, ultrasonic high speed dispersion, ultrasonic frequency
Being 20~35KHz, rate of dispersion is about 4800~5200r/min, and jitter time is 30~about 50min;
(3) melamine cyanurate of described mass fraction, azo-bis-isobutyl cyanide, polyvinyl chloride resin are added, ultrasonic high speed dispersion,
Ultrasonic frequency is 20~30KHz, and rate of dispersion is about 4600~4800r/min, and jitter time is 20~about 40min;Mixed
This product is prepared after closing uniformly.
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CN101210130A (en) * | 2006-12-29 | 2008-07-02 | 佛山市顺德区汉达精密电子科技有限公司 | Aluminum powder paint |
CN104073080A (en) * | 2014-06-20 | 2014-10-01 | 吴江华诚复合材料科技有限公司 | Multi-color coating |
CN105131476A (en) * | 2015-09-27 | 2015-12-09 | 龚灿锋 | Communication insulation acid-alkali-resisting flame-retardant cable material |
CN105176325A (en) * | 2015-09-07 | 2015-12-23 | 王璐 | Acid and alkali resistant flame retardation and antibiosis coating |
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CN101210130A (en) * | 2006-12-29 | 2008-07-02 | 佛山市顺德区汉达精密电子科技有限公司 | Aluminum powder paint |
CN104073080A (en) * | 2014-06-20 | 2014-10-01 | 吴江华诚复合材料科技有限公司 | Multi-color coating |
CN105176325A (en) * | 2015-09-07 | 2015-12-23 | 王璐 | Acid and alkali resistant flame retardation and antibiosis coating |
CN105131476A (en) * | 2015-09-27 | 2015-12-09 | 龚灿锋 | Communication insulation acid-alkali-resisting flame-retardant cable material |
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Application publication date: 20161207 |