CN105349030A - Preparation method of protective coating for power grid outdoor equipment - Google Patents

Abstract

The invention discloses a preparation method of a protective coating for power grid outdoor equipment. Nano silica, nano titanium dioxide, asbestos powder, epoxy modified silicon resin, silicone emulsion, multi-walled carbon nanotubes, alumina silicate fibers, FeCuMnO3.5, ammonium bicarbonate, acrylic acid, 2,4,6-tris(dimethyl aminomethyl)phenol, dibutyltin dilaurate, styrene-acrylic emulsion, ammonium polyphosphate, chlorinated paraffin, isopropyl phenyl diphenyl phosphate, ethyecellulose and xylene are adopted as raw materials, and the protective coating for the power grid outdoor equipment is prepared through a distribution and mixing method, wherein the protective coating is resistant to corrosion and abrasion and can achieve the self-cleaning function.

Description

Electrical network outdoor equipment protective coating preparation method

Technical field

The invention belongs to paint field, particularly electrical network outdoor equipment protective coating preparation method.

Background technology

Power equipment (powersystem) mainly comprises with generating set and the large class of power-supply unit two, generating set is station boiler, steam turbine, internal combustion turbine, water turbine, generator, transformer etc. mainly, the transmitting line, mutual inductor, contactor etc. of power-supply unit mainly various voltage range.

Along with industrial expansion, electrical network outdoor equipment protective coating outdoor equipment protection on, coating can play anticorrosion, wear-resisting, acid and alkali-resistance effect is more and more important, at present, common coating is easily corroded with aging, can not play the effect of automatically cleaning and acid and alkali-resistance.

Summary of the invention

The object of the invention is for the problems referred to above, develop a kind of corrosion-resistant, wear-resisting, can self-cleaning electrical network outdoor equipment protective coating and preparation method thereof.

A kind of electrical network outdoor equipment protective coating, described electrical network outdoor equipment protective coating outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 10-30 part;

Nano titanium oxide 10-30 part;

Epoxide modified silicone resin 10-30 part;

Silicone emulsion 10-30 part;

Multi-walled carbon nano-tubes 10-30 part;

Asbestos powder 10-30 part;

Vinylformic acid 1-5 part;

2,4,6-tri(dimethylaminomethyl)phenol 1-5 part;

Dibutyl tin laurate 1-5 part;

Benzene emulsion 1-5 part;

Ammonium polyphosphate 1-5 part;

Clorafin 1-5 part;

Aluminum silicate fiber 1-5 part;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 1-5 part;

Bicarbonate of ammonia 1-5 part;

Ethyl cellulose 1-5 part;

FeCuMnO _3.51-5 part;

Dimethylbenzene 1-5 part.

As preferably: this electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 25 parts;

Nano titanium oxide 25 parts;

Epoxide modified silicone resin 20 parts;

Silicone emulsion 20 parts;

Multi-walled carbon nano-tubes 15 parts;

Asbestos powder 15 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 4 parts;

Dibutyl tin laurate 4 parts;

Benzene emulsion 3 parts;

Ammonium polyphosphate 3 parts;

Clorafin 3 parts;

Aluminum silicate fiber 2 parts;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 2 parts;

2 parts, bicarbonate of ammonia;

Ethyl cellulose 2 parts;

FeCuMnO _3.52 parts;

Dimethylbenzene 2 parts.

As preferably: the particle diameter of described nano silicon is 20-60nm.

As preferably: the particle diameter of described nano titanium oxide is 20-60nm.

Prepare a method for above-mentioned electrical network outdoor equipment protective coating, comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.

Beneficial effect of the present invention:

(1) adopt nano silicon, nano titanium oxide and asbestos powder as the main component of coating, it has good wear resistance, because titanium dioxide has photo-catalysis function, makes this coating have self-cleaning function; Meanwhile, epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes are combined with inorganic nano material and use, toughening effect is played in the performance raising for the wear-resisting, corrosion-resistant of coating and acid and alkali-resistance.

(2) in order to optimize the performance of coating further, have selected aluminum silicate fiber, FeCuMnO _3.5, bicarbonate of ammonia, vinylformic acid, 2,4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose are as ancillary component, not only make wear-resisting, corrosion-resistant, the acid-proof alkaline of this coating be improved, still must have good hydrophobic performance and owing to the addition of solar selectively absorptive function powder FeCuMnO by this coating _3.5this coating is made to can be used in the relevant electrical network outdoor equipment protective coating outdoor equipment of sun power.

(3) this Paint preparation technology is simple, is easy to industrialization, and raw material sources are extensive, are applicable to very much being applied to production.

Embodiment

Below in conjunction with specific embodiment, and comparable data describes in further detail the present invention.Should be understood that these embodiments just in order to demonstrate the invention, but not limit the scope of the invention by any way.

Embodiment 1:

A kind of electrical network outdoor equipment protective coating, described electrical network outdoor equipment protective coating outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 25 parts;

Nano titanium oxide 25 parts;

Epoxide modified silicone resin 20 parts;

Silicone emulsion 20 parts;

Multi-walled carbon nano-tubes 15 parts;

Asbestos powder 15 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 4 parts;

Dibutyl tin laurate 4 parts;

Benzene emulsion 3 parts;

Ammonium polyphosphate 3 parts;

Clorafin 3 parts;

Aluminum silicate fiber 2 parts;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 2 parts;

2 parts, bicarbonate of ammonia;

Ethyl cellulose 2 parts;

FeCuMnO _3.52 parts;

Dimethylbenzene 2 parts;

The particle diameter of described nano silicon is 40nm.

The particle diameter of described nano titanium oxide is 40nm.

Prepare a method for above-mentioned electrical network outdoor equipment protective coating, comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.

Embodiment 2:

A kind of electrical network outdoor equipment protective coating, described electrical network outdoor equipment protective coating outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 27 parts;

Nano titanium oxide 27 parts;

Epoxide modified silicone resin 22 parts;

Silicone emulsion 22 parts;

Multi-walled carbon nano-tubes 15 parts;

Asbestos powder 15 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 4 parts;

Dibutyl tin laurate 4 parts;

Benzene emulsion 4 parts;

Ammonium polyphosphate 3 parts;

Clorafin 4 parts;

Aluminum silicate fiber 2 parts;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 1 part;

2 parts, bicarbonate of ammonia;

Ethyl cellulose 1 part;

FeCuMnO _3.52 parts;

Dimethylbenzene 1 part;

The particle diameter of described nano silicon is 50nm.

The particle diameter of described nano titanium oxide is 50nm.

Prepare a method for above-mentioned electrical network outdoor equipment protective coating, comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.

Embodiment 3:

A kind of electrical network outdoor equipment protective coating, described electrical network outdoor equipment protective coating outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 15 parts;

Nano titanium oxide 15 parts;

Epoxide modified silicone resin 10 parts;

Silicone emulsion 10 parts;

Multi-walled carbon nano-tubes 10 parts;

Asbestos powder 10 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 2 parts;

Dibutyl tin laurate 5 parts;

Benzene emulsion 2 parts;

Ammonium polyphosphate 3 parts;

Clorafin 3 parts;

Aluminum silicate fiber 2 parts;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 1 part;

2 parts, bicarbonate of ammonia;

Ethyl cellulose 1 part;

FeCuMnO _3.52 parts;

Dimethylbenzene 2 parts;

The particle diameter of described nano silicon is 30nm.

The particle diameter of described nano titanium oxide is 30nm.

Prepare a method for above-mentioned electrical network outdoor equipment protective coating, comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.

Embodiment 4:

A kind of electrical network outdoor equipment protective coating, described electrical network outdoor equipment protective coating outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 30 parts;

Nano titanium oxide 30 parts;

Epoxide modified silicone resin 30 parts;

Silicone emulsion 30 parts;

Multi-walled carbon nano-tubes 30 parts;

Asbestos powder 30 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 4 parts;

Dibutyl tin laurate 1 part;

Benzene emulsion 1 part;

Ammonium polyphosphate 1 part;

Clorafin 1 part;

Aluminum silicate fiber 1 part;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 1 part;

1 part, bicarbonate of ammonia;

Ethyl cellulose 1 part;

FeCuMnO _3.51 part;

Dimethylbenzene 1 part;

The particle diameter of described nano silicon is 30nm.

The particle diameter of described nano titanium oxide is 30nm.

Prepare a method for above-mentioned electrical network outdoor equipment protective coating, comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.

Carry out salt-fog test to the electrical network outdoor equipment protective coating outdoor equipment of the paint prepared by embodiment 1-4 and scratch results of property, result is as follows:

	Erosion resistance (salt-fog test)	Scratch resistant
			Embodiment 1	550 hours	0
Embodiment 2	560 hours	0
			Embodiment 3	555 hours	0
Embodiment 4	570 hours	0

To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present invention or essential characteristic, the present invention can be realized in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present invention is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the present invention.

In addition, be to be understood that, although this specification sheets is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of specification sheets is only for clarity sake, those skilled in the art should by specification sheets integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. an electrical network outdoor equipment protective coating, is characterized in that: described electrical network outdoor equipment is equipment box, and the upper surface of described equipment box is provided with sun power conversion system, and sidewall is provided with arranges window shutter more;

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 10-30 part;

Nano titanium oxide 10-30 part;

Epoxide modified silicone resin 10-30 part;

Silicone emulsion 10-30 part;

Multi-walled carbon nano-tubes 10-30 part;

Asbestos powder 10-30 part;

Vinylformic acid 1-5 part;

2,4,6-tri(dimethylaminomethyl)phenol 1-5 part;

Dibutyl tin laurate 1-5 part;

Benzene emulsion 1-5 part;

Ammonium polyphosphate 1-5 part;

Clorafin 1-5 part;

Aluminum silicate fiber 1-5 part;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 1-5 part;

Bicarbonate of ammonia 1-5 part;

Ethyl cellulose 1-5 part;

FeCuMnO _3.51-5 part;

Dimethylbenzene 1-5 part.

2. an electrical network outdoor equipment protective coating as claimed in claim 2, is characterized in that:

This electrical network outdoor equipment protective coating is by form as follows and weight part forms:

Nano silicon 25 parts;

Nano titanium oxide 25 parts;

Epoxide modified silicone resin 20 parts;

Silicone emulsion 20 parts;

Multi-walled carbon nano-tubes 15 parts;

Asbestos powder 15 parts;

4 parts, vinylformic acid;

2,4,6-tri(dimethylaminomethyl)phenol 4 parts;

Dibutyl tin laurate 4 parts;

Benzene emulsion 3 parts;

Ammonium polyphosphate 3 parts;

Clorafin 3 parts;

Aluminum silicate fiber 2 parts;

ISOPROPYL PHENYL DIPHENYL PHOSPHATE 2 parts;

2 parts, bicarbonate of ammonia;

Ethyl cellulose 2 parts;

FeCuMnO _3.52 parts;

Dimethylbenzene 2 parts.

3. an electrical network outdoor equipment protective coating as claimed in claim 1 or 2, is characterized in that: the particle diameter of described nano silicon is 20-60nm.

4. an electrical network outdoor equipment protective coating as claimed in claim 1 or 2, is characterized in that: the particle diameter of described nano titanium oxide is 20-60nm.

5. prepare a method for electrical network outdoor equipment protective coating as claimed in claim 1, it is characterized in that: comprise the steps:

(1) prepare burden according to system component;

(2) nano silicon, nano titanium oxide and asbestos powder is first added according to formula ratio, shredder ground and mixed 3min, subsequently by nano silicon, nano titanium oxide and asbestos powder compound and epoxide modified silicone resin, silicone emulsion, multi-walled carbon nano-tubes and dimethylbenzene, stir 20min with homogenizer, add aluminum silicate fiber, FeCuMnO subsequently _3.5, bicarbonate of ammonia, continue stir 10min;

(3) at 65 DEG C, vinylformic acid, 2 is added again, 4,6-tri(dimethylaminomethyl)phenol, dibutyl tin laurate, benzene emulsion, ammonium polyphosphate, clorafin, ISOPROPYL PHENYL DIPHENYL PHOSPHATE, ethyl cellulose, and stir 30min, obtain electrical network outdoor equipment protective coating.