CN107868499A - A kind of finishing antibiotic fungus-resisting paint - Google Patents

Abstract

The invention discloses a kind of finishing antibiotic fungus-resisting paint, it is characterised in that according to the mass fraction including following components：Liquid aqueous epoxy resin：30 45 parts, compound cellulose：8 12 parts, cellulose ether：45 parts, water treatment agent：0.1 0.3 parts, wetting agent：46 parts, dispersant：6 10 parts, defoamer：46 parts, nanomaterial solution：30 40 parts, alkylolamides:35 parts, benzyl dimethyl ketal：12 parts, modified filler：10 15 parts, Crosslinkable Acrylic Polymer Emulsion：60 70 parts, butyl acrylate：69 parts, coalescents：11 13 parts, pigment：11 16 parts, preservative：8 15 parts, thickener:13 16 parts, deionized water：80 100 parts；The present invention has excellent antibacterial and mouldproof performance, while green.

Description

A kind of finishing antibiotic fungus-resisting paint

Technical field

The present invention relates to technical field of coatings, is specifically a kind of finishing antibiotic fungus-resisting paint.

Background technology

Coating application is fitted up indoors, such as the coating of indoor wall, although indoor wall can be made beautiful and clean, so as to Make inhabitation and living environment more comfortable, but many existing interior wall coatings are in use easily in wall top layer mould growth, especially It is the humid area such as coastal, mould can under 20-38 DEG C, the suitable condition of relative humidity 85% or so amount reproduction, corrode Building surface, destruction ground, while dope for inner wall of architecture surface are because exposed area is big, and fungi, the master of bacteria breed Want position；On the one hand these moulds, bacterium, fungi destroy the attractive in appearance of coating surface, on the other hand also have a strong impact on people's Health.

The content of the invention

The technical problems to be solved by the invention are the shortcomings that presence for above prior art, there is provided one kind finishing is used Antibiotic fungus-resisting paint.

The present invention solve above technical problem technical scheme be：A kind of finishing antibiotic fungus-resisting paint, by mass fraction Meter includes following components：Liquid aqueous epoxy resin：30-45 parts, compound cellulose：8-12 parts, cellulose ether：At 4-5 parts, water Manage agent：0.1-0.3 parts, wetting agent：4-6 parts, dispersant：6-10 parts, defoamer：4-6 parts, nanomaterial solution：30-40 parts, Alkylolamides:3-5 parts, benzyl dimethyl ketal：1-2 parts, modified filler：10-15 parts, Crosslinkable Acrylic Polymer Emulsion： 60-70 parts, butyl acrylate：6-9 parts, coalescents：11-13 parts, pigment：11-16 parts, preservative：8-15 parts, thickener: 13-16 parts, deionized water：80-100 parts；

The compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportioning mixing systems ；

The modified filler includes following components according to the mass fraction：Kaolin：10-15 parts, talcum powder：20-25 parts, diatom Soil：8-13 parts, mica powder：12-20 parts, nano zinc powder：2-3 parts, expanded perlite：11-14 parts, silane coupler：6-10 parts；

Component is the nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：15-18%, nanometer titanium dioxide Titanium：5-9%, nano zine oxide：3-5%, nanometer silicon carbide：5-7%, gamma-aminopropyl-triethoxy-silane：2-6%, pentaerythrite Three-(3- '-aziridinos)-propionic esters：5-6%, organic fluorine waterproof agent：Surplus；

The defoamer is organosiloxane；The wetting agent is ethanol or propane diols；The dispersant triethanolamine；It is described into Film auxiliary agent is ethylene glycol ethyl ether；The pigment is titanium dioxide；The thickener is the mixture of polyurethane and polyvinyl alcohol.

The technical scheme that further limits of the present invention is：

Foregoing includes following components according to the mass fraction：Liquid aqueous epoxy resin：35 parts, compound cellulose：10 parts, fiber Plain ether：4 parts, water treatment agent：0.1 part, wetting agent：5 parts, dispersant：8 parts, defoamer：5 parts, nanomaterial solution：33 parts, alkane Base alkylolamides:3 parts, benzyl dimethyl ketal：1 part, modified filler：12 parts, Crosslinkable Acrylic Polymer Emulsion：63 parts, propylene Acid butyl ester：6 parts, coalescents：11 parts, pigment：12 parts, preservative：10 parts, thickener:13 parts, deionized water：80-100 Part；

Compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportionings are mixed to prepare；

Modified filler includes following components according to the mass fraction：Kaolin：12 parts, talcum powder：23 parts, diatomite：10 parts, mica Powder：15 parts, nano zinc powder：2 parts, expanded perlite：13 parts, silane coupler：7 parts；

Component is nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：16.5%, nano titanium oxide：7%, Nano zine oxide：3%, nanometer silicon carbide：6%, gamma-aminopropyl-triethoxy-silane：4%, pentaerythrite three-(3- '-aziridinos)- Propionic ester：5.5%, organic fluorine waterproof agent：Surplus；

Defoamer is organosiloxane；Wetting agent is ethanol or propane diols；Dispersant triethanolamine；Coalescents are ethylene glycol ethyl ethers Ether；Pigment is titanium dioxide；Thickener is the mixture of polyurethane and polyvinyl alcohol.

Foregoing includes following components according to the mass fraction：Liquid aqueous epoxy resin：42 parts, compound cellulose：11 parts, Cellulose ether：5 parts, water treatment agent:0.2 part, wetting agent：6 parts, dispersant：10 parts, defoamer：6 parts, nanomaterial solution：37 Part, alkylolamides:4 parts, benzyl dimethyl ketal：2 parts, modified filler：14 parts, Crosslinkable Acrylic Polymer Emulsion：66 Part, butyl acrylate：7 parts, coalescents：13 parts, pigment：14 parts, preservative：12 parts, thickener：14 parts, deionized water： 95 parts；

Compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportionings are mixed to prepare；

Modified filler includes following components according to the mass fraction：Kaolin：10-15 parts, talcum powder：20-25 parts, diatomite：8- 13 parts, mica powder：12-20 parts, nano zinc powder：2.5 parts, expanded perlite：11-14 parts, silane coupler：9 parts；

Component is nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：15-18%, nano titanium oxide：5- 9%, nano zine oxide：3-5%, nanometer silicon carbide：5-7%, gamma-aminopropyl-triethoxy-silane：2-6%, pentaerythrite three-(3- '-aziridino)-propionic ester：5-6%, organic fluorine waterproof agent：Surplus；

Defoamer is organosiloxane；Wetting agent is ethanol or propane diols；Dispersant triethanolamine；Coalescents are ethylene glycol ethyl ethers Ether；Pigment is titanium dioxide；Thickener is the mixture of polyurethane and polyvinyl alcohol.

The present invention provides a kind of preparation method of finishing antibiotic fungus-resisting paint, specifically includes following steps：

Step 1：After deionized water is added into dispersion cylinder and adds water treatment agent, under 200-250r/min mixing speed 10-15min is stirred, liquid aqueous epoxy resin, compound cellulose, cellulose ether and alkylolamides are then added, in 400- Disperse 20-30min under 500r/min mixing speed, it is standby；

Step 2：Add modified filler to be put into dispersion cylinder, add nanomaterial solution, benzyl dimethyl ketal and acrylic acid fourth Ester, to disperse 25-35min under 500-600 r/min mixing speed, granularity is 30-40 μm；

Step 3：Step 1 and step 2 are mixed, defoamer, Crosslinkable Acrylic Polymer Emulsion, pigment, wetting agent is added and divides Powder disperses 25-35min under 1000-1200r/min mixing speed, and temperature is 50-55 DEG C, is then continuously added afterwards Thickener, preservative and coalescents, it is 110-115kU to mixed solution viscosity, produces antibiotic fungus-resisting paint.

The beneficial effects of the invention are as follows：The beneficial effects of the invention are as follows：The present invention is had using liquid aqueous epoxy resin Excellent adhesive force, and film contraction is small, hardness is high, wearability is good, while green environmental protection, it will not cause to hinder to human body Evil；

The caking property and toughness of coating can be improved by adding compound cellulose, added dispersant triethanolamine, can be promoted each material It is dispersed, and can adsorb and charge repulsion or steric hindrance are produced on the surface of pigment, prevent pigment from producing what is be harmful to Flocculation, makes dispersion be in stable state；Triethanolamine can also be used as activating agent simultaneously, greatly accelerate flowchart process, improve The crosslinking degree and density of material；The addition and can of nano material, which improves, to be absorbed thermal insulation, surface water repellency, antimycotic antiseptic and prevents Dirt, stability is more preferable, adds nano zinc powder, and using its positively charged killing microorganism of institute, it has reproducibility, micro- killing And can separate out after biology, good antibacterial action, the present invention make that simple, cost is low, and the coating of preparation has good Good antibacterial and mouldproof effect, specifically, has very high antibacterial effect to ETEC, staphylococcus aureus etc., and The antibacterial and mouldproof time is lasting, can significantly improve indoor environment, improves air quality；Its free from extraneous odour simultaneously, it is harmless to the human body, It is green, beneficial to the popularization in market.

Embodiment

Embodiment 1

The present embodiment provides a kind of finishing antibiotic fungus-resisting paint, according to the mass fraction including following components：Liquid aqueous epoxy Resin：35 parts, compound cellulose：10 parts, cellulose ether：4 parts, water treatment agent：0.1 part, wetting agent：5 parts, dispersant：8 parts, Defoamer：5 parts, nanomaterial solution：33 parts, alkylolamides:3 parts, benzyl dimethyl ketal：1 part, modified filler：12 Part, Crosslinkable Acrylic Polymer Emulsion：63 parts, butyl acrylate：6 parts, coalescents：11 parts, pigment：12 parts, preservative：10 Part, thickener:13 parts, deionized water：80-100 parts；

Wherein, compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportioning mixing systems ；

Modified filler includes following components according to the mass fraction：Kaolin：12 parts, talcum powder：23 parts, diatomite：10 parts, mica Powder：15 parts, nano zinc powder：2 parts, expanded perlite：13 parts, silane coupler：7 parts；

Component is nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：16.5%, nano titanium oxide：7%, Nano zine oxide：3%, nanometer silicon carbide：6%, gamma-aminopropyl-triethoxy-silane：4%, pentaerythrite three-(3- '-aziridinos)- Propionic ester：5.5%, organic fluorine waterproof agent：Surplus；

Defoamer is organosiloxane；Wetting agent is ethanol or propane diols；Dispersant triethanolamine；Coalescents are ethylene glycol ethyl ethers Ether；Pigment is titanium dioxide；Thickener is the mixture of polyurethane and polyvinyl alcohol.

The present embodiment provides a kind of preparation method of finishing antibiotic fungus-resisting paint, specifically includes following steps：

Step 1：After deionized water is added into dispersion cylinder and adds water treatment agent, stirred under 200r/min mixing speed 15min, liquid aqueous epoxy resin, compound cellulose, cellulose ether and alkylolamides are then added, in stirring for 400r/min Mix and disperse 30min under speed, it is standby；

Step 2：Add modified filler to be put into dispersion cylinder, add nanomaterial solution, benzyl dimethyl ketal and acrylic acid fourth Ester, to disperse 35min under 500r/min mixing speed, granularity is 40 μm；

Step 3：Step 1 and step 2 are mixed, defoamer, Crosslinkable Acrylic Polymer Emulsion, pigment, wetting agent is added and divides Powder disperses 35min under 1000r/min mixing speed, and temperature is 50 DEG C, then continuously adds thickener, anti-corrosion afterwards Agent and coalescents, it is 110kU to mixed solution viscosity, produces antibiotic fungus-resisting paint.

Embodiment 2

The present embodiment provides a kind of finishing antibiotic fungus-resisting paint, according to the mass fraction including following components：Liquid aqueous epoxy Resin：42 parts, compound cellulose：11 parts, cellulose ether：5 parts, water treatment agent:0.2 part, wetting agent：6 parts, dispersant：10 parts, Defoamer：6 parts, nanomaterial solution：37 parts, alkylolamides:4 parts, benzyl dimethyl ketal：2 parts, modified filler：14 Part, Crosslinkable Acrylic Polymer Emulsion：66 parts, butyl acrylate：7 parts, coalescents：13 parts, pigment：14 parts, preservative：12 Part, thickener：14 parts, deionized water：95 parts；

Compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportionings are mixed to prepare；

Modified filler includes following components according to the mass fraction：Kaolin：10-15 parts, talcum powder：20-25 parts, diatomite：8- 13 parts, mica powder：12-20 parts, nano zinc powder：2.5 parts, expanded perlite：11-14 parts, silane coupler：9 parts；

Component is nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：15-18%, nano titanium oxide：5- 9%, nano zine oxide：3-5%, nanometer silicon carbide：5-7%, gamma-aminopropyl-triethoxy-silane：2-6%, pentaerythrite three-(3- '-aziridino)-propionic ester：5-6%, organic fluorine waterproof agent：Surplus；

Defoamer is organosiloxane；Wetting agent is ethanol or propane diols；Dispersant triethanolamine；Coalescents are ethylene glycol ethyl ethers Ether；Pigment is titanium dioxide；Thickener is the mixture of polyurethane and polyvinyl alcohol.

The present embodiment provides a kind of preparation method of finishing antibiotic fungus-resisting paint, specifically includes following steps：

Step 1：After deionized water is added into dispersion cylinder and adds water treatment agent, stirred under 250r/min mixing speed 10min, liquid aqueous epoxy resin, compound cellulose, cellulose ether and alkylolamides are then added, in stirring for 500r/min Mix and disperse 20min under speed, it is standby；

Step 2：Add modified filler to be put into dispersion cylinder, add nanomaterial solution, benzyl dimethyl ketal and acrylic acid fourth Ester, to disperse 25min under 600 r/min mixing speed, granularity is 35 μm；

Step 3：Step 1 and step 2 are mixed, defoamer, Crosslinkable Acrylic Polymer Emulsion, pigment, wetting agent is added and divides Powder disperses 25min under 1200r/min mixing speed, and temperature is 52 DEG C, then continuously adds thickener, preservative afterwards And coalescents, it is 112kU to mixed solution viscosity, produces antibiotic fungus-resisting paint.

In addition to the implementation, the present invention can also have other embodiment.It is all to use equivalent substitution or equivalent transformation shape Into technical scheme, all fall within the protection domains of application claims.

Claims (4)

1. a kind of finishing antibiotic fungus-resisting paint, it is characterised in that according to the mass fraction including following components：Liquid aqueous epoxy Resin：30-45 parts, compound cellulose：8-12 parts, cellulose ether：4-5 parts, water treatment agent：0.1-0.3 parts, wetting agent：4-6 Part, dispersant：6-10 parts, defoamer：4-6 parts, nanomaterial solution：30-40 parts, alkylolamides:3-5 parts, benzyl diformazan Base ketal：1-2 parts, modified filler：10-15 parts, Crosslinkable Acrylic Polymer Emulsion：60-70 parts, butyl acrylate：6-9 parts, Coalescents：11-13 parts, pigment：11-16 parts, preservative：8-15 parts, thickener:13-16 parts, deionized water：80-100 parts；

The compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportioning mixing systems ；

The modified filler includes following components according to the mass fraction：Kaolin：10-15 parts, talcum powder：20-25 parts, diatom Soil：8-13 parts, mica powder：12-20 parts, nano zinc powder：2-3 parts, expanded perlite：11-14 parts, silane coupler：6-10 parts；

Component is the nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：15-18%, nanometer titanium dioxide Titanium：5-9%, nano zine oxide：3-5%, nanometer silicon carbide：5-7%, gamma-aminopropyl-triethoxy-silane：2-6%, pentaerythrite Three-(3- '-aziridinos)-propionic esters：5-6%, organic fluorine waterproof agent：Surplus；

The defoamer is organosiloxane；The wetting agent is ethanol or propane diols；The dispersant triethanolamine；It is described into Film auxiliary agent is ethylene glycol ethyl ether；The pigment is titanium dioxide；The thickener is the mixture of polyurethane and polyvinyl alcohol.

2. finishing antibiotic fungus-resisting paint according to claim 1, it is characterised in that include according to the mass fraction with the following group Point：Liquid aqueous epoxy resin：35 parts, compound cellulose：10 parts, cellulose ether：4 parts, water treatment agent：0.1 part, wetting agent：5 Part, dispersant：8 parts, defoamer：5 parts, nanomaterial solution：33 parts, alkylolamides:3 parts, benzyl dimethyl ketal：1 Part, modified filler：12 parts, Crosslinkable Acrylic Polymer Emulsion：63 parts, butyl acrylate：6 parts, coalescents：11 parts, pigment： 12 parts, preservative：10 parts, thickener:13 parts, deionized water：80-100 parts；

The compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportioning mixing systems ；

The modified filler includes following components according to the mass fraction：Kaolin：12 parts, talcum powder：23 parts, diatomite：10 parts, Mica powder：15 parts, nano zinc powder：2 parts, expanded perlite：13 parts, silane coupler：7 parts；

Component is the nanomaterial solution by mass percentage：Antimony doped stannum oxide nano-crystal：16.5%, nano titanium oxide： 7%, nano zine oxide：3%, nanometer silicon carbide：6%, gamma-aminopropyl-triethoxy-silane：4%, pentaerythrite three-(3- aziridine Base)-propionic ester：5.5%, organic fluorine waterproof agent：Surplus；

The defoamer is organosiloxane；The wetting agent is ethanol or propane diols；The dispersant triethanolamine；It is described into Film auxiliary agent is ethylene glycol ethyl ether；The pigment is titanium dioxide；The thickener is the mixture of polyurethane and polyvinyl alcohol.

3. finishing antibiotic fungus-resisting paint according to claim 1, it is characterised in that include according to the mass fraction with the following group Point：Liquid aqueous epoxy resin：42 parts, compound cellulose：11 parts, cellulose ether：5 parts, water treatment agent:0.2 part, wetting agent：6 Part, dispersant：10 parts, defoamer：6 parts, nanomaterial solution：37 parts, alkylolamides:4 parts, benzyl dimethyl ketal：2 Part, modified filler：14 parts, Crosslinkable Acrylic Polymer Emulsion：66 parts, butyl acrylate：7 parts, coalescents：13 parts, pigment： 14 parts, preservative：12 parts, thickener：14 parts, deionized water：95 parts；

The compound cellulose is that hydroxymethyl cellulose, hydroxyethyl cellulose and hydroxypropyl cellulose press 3：5：2 proportioning mixing systems ；

The modified filler includes following components according to the mass fraction：Kaolin：10-15 parts, talcum powder：20-25 parts, diatom Soil：8-13 parts, mica powder：12-20 parts, nano zinc powder：2.5 parts, expanded perlite：11-14 parts, silane coupler：9 parts；

The nanomaterial solution, by mass percentage component be：Antimony doped stannum oxide nano-crystal：15-18%, nanometer titanium dioxide Titanium：5-9%, nano zine oxide：3-5%, nanometer silicon carbide：5-7%, gamma-aminopropyl-triethoxy-silane：2-6%, pentaerythrite Three-(3- '-aziridinos)-propionic esters：5-6%, organic fluorine waterproof agent：Surplus；

The defoamer is organosiloxane；The wetting agent is ethanol or propane diols；The dispersant triethanolamine；It is described into Film auxiliary agent is ethylene glycol ethyl ether；The pigment is titanium dioxide；The thickener is the mixture of polyurethane and polyvinyl alcohol.

4. according to the preparation method of any described finishing antibiotic fungus-resisting paints of claim 1-3, it is characterised in that specific bag Include following steps：

Step 1：After deionized water is added into dispersion cylinder and adds water treatment agent, under 200-250r/min mixing speed 10-15min is stirred, liquid aqueous epoxy resin, compound cellulose, cellulose ether and alkylolamides are then added, in 400- Disperse 20-30min under 500r/min mixing speed, it is standby；

Step 2：Add modified filler to be put into dispersion cylinder, add nanomaterial solution, benzyl dimethyl ketal and acrylic acid fourth Ester, to disperse 25-35min under 500-600 r/min mixing speed, granularity is 30-40 μm；

Step 3：Step 1 and step 2 are mixed, defoamer, Crosslinkable Acrylic Polymer Emulsion, pigment, wetting agent is added and divides Powder disperses 25-35min under 1000-1200r/min mixing speed, and temperature is 50-55 DEG C, is then continuously added afterwards Thickener, preservative and coalescents, it is 110-115kU to mixed solution viscosity, produces antibiotic fungus-resisting paint.