CN104845471A - Mold-proof coating based on nano copper - Google Patents

Abstract

The invention discloses a mold-proof coating based on nano copper, and belongs to the technical field of coatings. The mold-proof coating is prepared from the following substances in parts by weight: 10-30 parts of organic silicon-modified acrylic resin, 20-40 parts of carboxylic butadiene-styrene latex, 10-25 parts of terminal carboxyl polyester resin, 6-15 parts of hydroxyethylmethylcellulose, 3-4 parts of a defoaming agent, 1-3 parts of nano copper with the particle sizes of 30-40nm and 6-10 parts of a GR composite titanium dioxide pigment. According to the mold-proof coating based on the nano copper, the proportions of various components are reasonable; and the nano copper, the GR composite titanium dioxide pigment and various components in the paint are organically combined, so that the mold-proof coating is available in raw material, environment-friendly, free of harm to a human body, good and lasting in anti-mold effect, high in adhesive force, good in film-forming property, and low in production cost; the construction technology is the same as that of an original construction technology; and breeding and reproduction of various bacteria can be effectively prevented in various occasions to which the mold-proof coating is applied.

Description

A kind of mould-repellant coating based on Nanometer Copper

Technical field

The invention belongs to technical field of coatings, be specially a kind of mould-repellant coating based on Nanometer Copper.

Background technology

Mould-repellant coating is topmost except having the same function of coating common with other is exactly to lose by fungus-proof antisepsis, so general action is in the product surface protection such as reinforcing bar, cement, glass reinforced plastic, pottery, enamel, water pipe, timber and decoration, play the effect of fungus-proof antisepsis erosion.But the most frequently used thing is coated in building surface, makes buildings top layer not be subject to mold corrosion and cause film cracking and peel off.Some special manufacturing enterprises, as pharmacy, beer, bean product, milk-product, brewage, leather, makeup etc., because product is nutritious, production environment is damp and hot, and the temperature and humidity of production environment is applicable to growth, the breeding of mould very much.Therefore mouldy situation is quite serious, especially the interior wall of production plant and top ceiling, and some packing shops and warehouse even production unit, also has mouldy situation in various degree.The product produced in this environment and store, can be subject to pollution in various degree undoubtedly, and bring potential hazard to people are healthy, therefore factory is also often forced to stop production.Therefore, the GMP standard of medicine and food all proposes requirement to the metope of factory building and the mildew-resistant problem of ceiling.Adopting mould-repellant coating to carry out suitable application to the metope of production plant, ceiling and equipment, is a kind of not only economy but also practical mold-proof method.Existing coating adopts and adds copper powder and carry out mildew-resistant, but due to the granularity of copper powder too large, anti-mold effect is remarkable not.

Summary of the invention

For the above-mentioned problems in the prior art, content of the present invention is to design provides a kind of technical scheme with the mould-repellant coating based on Nanometer Copper of excellent anti-mold effect, the reasonable ratio of each component, and anti-mold effect is lasting, and strong adhesion, moulding property is good.

Described a kind of mould-repellant coating based on Nanometer Copper, is characterized in that being made up of the following material of parts by weight: organosilicon modified crylic acid resin 10-30 part, carboxylic styrene butadiene latex 20-40 part, end carboxyl alkyd resin 10-25 part, hydroxyethylmethyl-cellulose 6-15 part, defoamer 3-4 part, particle diameter are Nanometer Copper 1-3 part, GR composite titanium dioxide pigment 6-10 part of 30-40nm.

Described a kind of mould-repellant coating based on Nanometer Copper, is characterized in that organosilicon modified crylic acid resin 12-25 part, carboxylic styrene butadiene latex 22-35 part, end carboxyl alkyd resin 12-20 part, hydroxyethylmethyl-cellulose 8-12 part, defoamer 3.5 parts, Nanometer Copper 2 parts, GR composite titanium dioxide pigment 7-8 part.

Described a kind of mould-repellant coating based on Nanometer Copper, is characterized in that organosilicon modified crylic acid resin 15-20 part, carboxylic styrene butadiene latex 25-30 part, end carboxyl alkyd resin 15-18 part, hydroxyethylmethyl-cellulose 9-10 part, defoamer 3.5 parts, Nanometer Copper 2 parts, GR composite titanium dioxide pigment 7.5 parts.

Described organosilicon modified crylic acid resin has excellent sticking power, shock-resistance and snappiness, remarkable weathering resistance and Bao Se gloss retention, and feel is smooth, stain resistant, and scratch resistance is good, and outstanding thermotolerance, can stand the working temperature of 200 DEG C for a long time.

Described carboxylic styrene butadiene latex, has higher cohesive force and conjunctiva intensity, machinery and chemical stability good, the advantages such as mobility, package stability are all good, and loading level is large.Residual benzene class monomer is very micro-, belongs to environmentally friendly machine.

Described end carboxyl alkyd resin has the features such as lower viscosity, higher reactive behavior, low heat release, excellent mechanical property and ambient cure.

Described hydroxyethylmethyl-cellulose, water-soluble and part organic solvent, viscosity is lower, and solubleness is larger; More stable in aqueous, but excessive interpolation ionogen, gel and precipitation can be caused; Because the aqueous solution has surface active function, can be used as colloid protective agent, emulsifying agent and dispersion agent; There is reasonable Antimould power, have good viscosity stability when standing storage; The impact of the viscosity of product water solution almost acid and alkali or alkali, pH value is more stable in the scope of 3.0-11.0; Because the highly enriched aqueous solution of product has special viscoelastic property compared with the aqueous solution of other polymkeric substance, its ability etc. adding the shape invariance being improved extruding ceramic ceramic products.

Described copper powder can breed with Mycophyta needed for amino react, thus play anti-mold effect.Copper can not stripping in aqueous environment, and therefore effect is more lasting compared with other mould inhibitor.Size, the use properties of shape on coating of copper powder particle used have impact.Particle diameter is less, and result of use is better; Particle diameter is excessive, and its effect is inferior.Applicant finds through research, and the particle diameter of Nanometer Copper is less, then fungicidal properties is better.Nanometer Copper can adopt the preparation method of conventional nano metal to obtain, and also can directly buy from the market.

The performance index that GR composite titanium dioxide pigment can be identical or close with titanium dioxide are used in coating system; GR composite titanium dioxide pigment can be widely used in coating system, improves the performance of coating, reduces the use cost of material greatly.

The difference of each component, content in above-mentioned coating, has significant impact to the performance of coating.

Above-mentioned a kind of mould-repellant coating based on Nanometer Copper, the reasonable ratio of each component, in Nanometer Copper and GR composite titanium dioxide pigment and coating, various composition realizes organically combining, and raw material is easy to get, environmental protection, harmless, anti-mold effect is good, lasting, strong adhesion, moulding property is good, and production cost is low.Its construction technology is identical with original construction technology, in the various occasions that mould-repellant coating uses, effectively can prevent growing and breeding of various bacterium.

Embodiment

Below in conjunction with specific embodiment, the invention will be further described.

Embodiment 1

Described a kind of mould-repellant coating based on Nanometer Copper, is made up of the following material of parts by weight: organosilicon modified crylic acid resin 10 parts, carboxylic styrene butadiene latex 20 parts, end carboxyl alkyd resin 10 parts, hydroxyethylmethyl-cellulose 6 parts, defoamer 3 parts, particle diameter are Nanometer Copper 1 part, the GR composite titanium dioxide pigment 6 parts of 30nm.

Its preparation method is as follows: above-mentioned each component is dropped into high speed compounding jar high-speed mixing 3 minutes by proportioning, then extrudes at screw extrusion press, namely obtain mildew resistance powder coating.

Embodiment 2

Described a kind of mould-repellant coating based on Nanometer Copper, is made up of the following material of parts by weight: organosilicon modified crylic acid resin 12 parts, carboxylic styrene butadiene latex 25 parts, end carboxyl alkyd resin 12 parts, hydroxyethylmethyl-cellulose 8 parts, defoamer 3 parts, particle diameter are Nanometer Copper 2 parts, the GR composite titanium dioxide pigment 8 parts of 32nm.

Its preparation method is as follows: above-mentioned each component is dropped into high speed compounding jar high-speed mixing 4 minutes by proportioning, then extrudes at screw extrusion press, namely obtain mildew resistance powder coating.

Embodiment 3

Described a kind of mould-repellant coating based on Nanometer Copper, is made up of the following material of parts by weight: organosilicon modified crylic acid resin 25 parts, carboxylic styrene butadiene latex 35 parts, end carboxyl alkyd resin 20 parts, hydroxyethylmethyl-cellulose 12 parts, defoamer 4 parts, particle diameter are Nanometer Copper 2 parts, the GR composite titanium dioxide pigment 9 parts of 35nm.

Its preparation method is as follows: above-mentioned each component is dropped into high speed compounding jar high-speed mixing 5 minutes by proportioning, then extrudes at screw extrusion press, namely obtain mildew resistance powder coating.

Embodiment 4

Described a kind of mould-repellant coating based on Nanometer Copper, is made up of the following material of parts by weight: organosilicon modified crylic acid resin 30 parts, carboxylic styrene butadiene latex 40 parts, end carboxyl alkyd resin 25 parts, hydroxyethylmethyl-cellulose 15 parts, defoamer 4 parts, particle diameter are Nanometer Copper 3 parts, the GR composite titanium dioxide pigment 10 parts of 40nm.

Its preparation method is as follows: above-mentioned each component is dropped into high speed compounding jar high-speed mixing 5 minutes by proportioning, then extrudes at screw extrusion press, namely obtain mildew resistance powder coating.

The powder coating of each embodiment 2 above-mentioned is through Performance Detection, and detected result is in table 1.

Test result shows: the degradation efficiency of this coating to compounds such as the formaldehyde in enclosed space, ammonia and benzene classes all can reach 96.3%, effectively can kill the microorganisms such as the intestinal bacteria of surrounding, streptococcus aureus, penicillin staphylococcus, mould, play the effect of mildew-resistant mildew-resistant, to multiple unwanted bacteria, all there is sterilization thoroughness and long-lasting; Coating time of drying, set time are short, and coating adhesion is good, and coating resistance to impact shock is strong, good film flexibility, and heat-resisting, ageing-resistant; VOC content is 35 grams often liter, well below national standard.Carry out Performance Detection with embodiment 1, embodiment 3, embodiment 4, also can reach beneficial effect of the present invention.

Claims (3)

1. based on a mould-repellant coating for Nanometer Copper, it is characterized in that being made up of the following material of parts by weight: organosilicon modified crylic acid resin 10-30 part, carboxylic styrene butadiene latex 20-40 part, end carboxyl alkyd resin 10-25 part, hydroxyethylmethyl-cellulose 6-15 part, defoamer 3-4 part, particle diameter are Nanometer Copper 1-3 part, GR composite titanium dioxide pigment 6-10 part of 30-40nm.

2. a kind of mould-repellant coating based on Nanometer Copper as claimed in claim 1, is characterized in that organosilicon modified crylic acid resin 12-25 part, carboxylic styrene butadiene latex 22-35 part, end carboxyl alkyd resin 12-20 part, hydroxyethylmethyl-cellulose 8-12 part, defoamer 3.5 parts, Nanometer Copper 2 parts, GR composite titanium dioxide pigment 7-8 part.

3. a kind of mould-repellant coating based on Nanometer Copper as claimed in claim 1, is characterized in that organosilicon modified crylic acid resin 15-20 part, carboxylic styrene butadiene latex 25-30 part, end carboxyl alkyd resin 15-18 part, hydroxyethylmethyl-cellulose 9-10 part, defoamer 3.5 parts, Nanometer Copper 2 parts, GR composite titanium dioxide pigment 7.5 parts.