CN108587440A

CN108587440A - A kind of anticorrosive coating and preparation method for photovoltaic cell holder

Info

Publication number: CN108587440A
Application number: CN201810064014.8A
Authority: CN
Inventors: 王磊
Original assignee: Hefei Huagai Photovoltaic Technology Co Ltd
Current assignee: Hefei Huagai Photovoltaic Technology Co Ltd
Priority date: 2018-01-23
Filing date: 2018-01-23
Publication date: 2018-09-28

Abstract

The invention discloses a kind of anticorrosive coating and preparation method for photovoltaic cell holder, the coating includes following component：Aq. polyurethane acrylate, polyacrylonitrile, graphene oxide, nano aluminium oxide, nano zine oxide, diatomite, high viscous Concave-convex clay rod, filler material, antifoaming agent.Then said components reacted according to a certain ratio, be uniformly mixed to get the anticorrosive coating.Coating of the present invention has preferable waterproof, anticorrosion ability, substantially prolongs the service life of photovoltaic bracket, while providing condition for the popularization and application of solar-energy photo-voltaic cell.

Description

A kind of anticorrosive coating and preparation method for photovoltaic cell holder

Technical field

The present invention relates to solar energy photovoltaic material technical fields, and in particular to a kind of anticorrosion for photovoltaic cell holder Coating and preparation method.

Background technology

Heliotechnics will be as following one of the green energy resource technology, solar energy or photovoltaic（PV）In China using increasingly Extensively, especially being greatly reduced with solar cell raw material production of polysilicon cost in recent years, manufacture of solar cells technology Become better and approaching perfection day by day, recent years, the yield increase of whole world solar cell was very fast, it may be said that is extremely promising industry.

Existing photovoltaic cell board mount is mostly aluminum alloy material, is coated with paint thereon so as to antirust, anticorrosion.But it is general Paint be very easy to fall off under the conditions ofs outdoor direct sunlight, rainwater, temperature change etc., it is conventional especially in coastal area Anticorrosive paint do not have the corrosion resistance of coastal condition so that the photovoltaic bracket in coastal area is easily corroded, and uses the longevity Order it is relatively short, safeguard it is newer the cost is relatively high, meanwhile, provide limitation for the application of photovoltaic cell.

Therefore, a kind of coating with excellent anticorrosion ability of research and development is applied to photovoltaic bracket, has preferable Application value and prospect of the application.

Invention content

For the defects in the prior art, the object of the present invention is to provide a kind of anticorrosion paintings for photovoltaic cell holder Material and preparation method, the coating have preferable waterproof, anticorrosion ability, substantially prolong the service life of photovoltaic bracket, Simultaneously condition is provided for the popularization and application of solar-energy photo-voltaic cell.

The present invention solves technical problem and adopts the following technical scheme that：

The present invention relates to a kind of anticorrosive coatings for photovoltaic cell holder, include each component of following parts by weight：Emulsion type 18 ~ 25 parts of polyurethane-acrylate, 12 ~ 20 parts of polyacrylonitrile, 0.3 ~ 0.5 part of graphene oxide, 7 ~ 15 parts of nano aluminium oxide, 5 ~ 9 parts of nano zine oxide, 8 ~ 13 parts of diatomite, 10 ~ 16 parts of high viscous Concave-convex clay rod, 7 ~ 18 parts of filler material, antifoaming agent 2 ~ 6 Part, further include suitable water.

Preferably, 23 parts of the aq. polyurethane-acrylate, 18 parts of polyacrylonitrile, 0.4 part of graphene oxide, receive 12 parts of aluminium oxide of rice, 8 parts of nano zine oxide, 9 parts of diatomite, 14 parts of high viscous Concave-convex clay rod, 12 parts of filler material, antifoaming agent 3 Part, further include suitable water.

Preferably, the high viscous Concave-convex clay rod is that natural attapulgite clay is purified, is obtained after heat modification Product.

Preferably, the filler material includes any one of superfine talcum powder, white carbon, precipitated calcium carbonate.

The invention further relates to a kind of methods preparing the anticorrosive coating for photovoltaic cell holder, including walk as follows Suddenly：

（1）Aq. polyurethane-acrylate is weighed according to proportioning to be added in reaction kettle, under the conditions of 40 ~ 60 DEG C, side stirring Graphene oxide is added in side, and constant temperature is stirred to react 2 ~ 3h, obtains reaction product a1；

（2）Polyacrylonitrile and suitable water are weighed according to proportioning, is added in reaction product a1, hybrid reaction 0.5 under equality of temperature ~ 2h obtains mixture a2, spare；

（3）High viscous Concave-convex clay rod and suitable water are weighed according to proportioning, after mixing, proportional quantity is added into mixture Nano aluminium oxide, nano zine oxide, stir evenly, mixture be then placed in 0.5 ~ 1h of ultrasonic disperse under Ultrasonic Conditions, Mixture a3 is obtained, it is spare；

（4）Mixture a2, mixture a3 and antifoaming agent are uniformly mixed, the diatomite of proportional quantity is then added into mixture again And filler material, it stirs, then mixture is transferred in the cutter that shear velocity is 1000 ~ 2000 turns/min and is cut Cutting dissipates 10 ~ 15min to get the anticorrosive coating.

Preferably, the step（1）The middle method that graphene oxide is added is that graphene oxide is configured to concentration first For the graphene oxide water solution of 0.5 ~ 0.8g/L, then graphene oxide water solution is added drop-wise in reaction kettle again, wherein dripping Graphene oxide water solution is added dropwise in 20 ~ 40min for Acceleration Control.

Preferably, the step（2）The middle quality that water is added is 3 ~ 6 times of polyacrylonitrile quality.

Preferably, the step（3）The preparation method of middle high viscous Concave-convex clay rod includes：

It takes natural attapulgite to crush and crosses 200 mesh sieve, the water of 10 ~ 20 times of attapulgite quality is added, stirring forms outstanding Mud scum is starched, and upper suspension 10 ~ 15min of centrifugal treating in the centrifuge of 2000 ~ 3000 turns/min is taken, and is filtered by vacuum, must be filtered Cake；

Filter cake is dried again, is subsequently placed in Muffle furnace, according to the heating rate temperature programming of 20 DEG C/min to 800 DEG C, then 4 ~ 5h of constant temperature calcining again, it is cooling to get.

Preferably, the step（3）The quality that water is added makes high viscous Concave-convex clay rod not precipitated in suspending in water State.

Compared with prior art, the present invention has following advantageous effect：

（1）Anticorrosive coating of the present invention for photovoltaic cell holder has preferable waterproof, anticorrosion ability, greatly The service life of photovoltaic bracket is extended greatly, while condition is provided for the popularization and application of solar-energy photo-voltaic cell.

（2）Anticorrosive coating of the present invention for photovoltaic cell holder uses aq. polyurethane-acrylate With polyacrylonitrile as base material, there is preferable flexibility, and mutually perforative network is formed between polymer so that film has There are the mechanical properties such as preferable scratch-resistant and preferable waterproof anti-corrosion effect.

（3）Graphene oxide composite material is added in anticorrosive coating of the present invention for photovoltaic cell holder, by There is lamella conjugated structure in graphene, be layering to form fine and close physical isolation layer so that photovoltaic coating can form one The fine and close protective film of layer plays the role of completely cutting off air, to play preferable waterproof, antisepsis；Along with graphene is excellent Different mechanical property and environmental stability so that coating has mechanical properties and preferableization such as preferable scratch-resistant, obdurability Learn stability.

（4）High viscous Concave-convex clay rod is added in anticorrosive coating of the present invention for photovoltaic cell holder, Since Concave-convex clay rod has unique chain layer structure and larger specific surface area, there is excellent carrier property, pass through Monocrystalline silicon and metal nanoparticle are mixed with modified attapulgite clay so that nano aluminium oxide and nano zine oxide can be equal The even surface for being distributed in high viscous Concave-convex clay rod, and then can be uniformly distributed in entire coating, substantially increase painting The Corrosion Protection of material；In addition, the presence of high viscous Concave-convex clay rod also improves the flow leveling of coating, suspendability and viscous Performance is tied, the stability and antistrip performance of coating are improved.

（5）The preparation method of anticorrosive coating of the present invention for photovoltaic cell holder is simple, and technological operation is easy, It is suitble to industrialization promotion production.

Specific implementation mode

Present invention will be further explained below with reference to specific examples.These embodiments are merely to illustrate the present invention and do not have to In limiting the scope of the invention.

Embodiment 1：

A kind of anticorrosive coating and preparation method for photovoltaic cell holder of the preferred embodiment of the present invention；

The anticorrosive coating for photovoltaic cell holder, by each component of following parts by weight：

23 parts of aq. polyurethane-acrylate, 0.4 part of graphene oxide, 12 parts of nano aluminium oxide, is received 18 parts of polyacrylonitrile 8 parts of zinc oxide of rice, 9 parts of diatomite, 14 parts of high viscous Concave-convex clay rod, 12 parts of filler material, 3 parts of antifoaming agent, further include suitable Water.

Wherein, the production that the high viscous Concave-convex clay rod is purified for natural attapulgite clay, is obtained after heat modification Object.

Wherein, the filler material is white carbon.

The method of the present invention for preparing the anticorrosive coating for photovoltaic cell holder, includes the following steps：

（1）Aq. polyurethane-acrylate is weighed according to proportioning to be added in reaction kettle, under the conditions of 60 DEG C, while stirring Graphene oxide is added, constant temperature is stirred to react 2h, obtains reaction product a1；

（2）Polyacrylonitrile and suitable water are weighed according to proportioning, is added in reaction product a1, hybrid reaction 1.5h under equality of temperature, Mixture a2 is obtained, it is spare；

（3）High viscous Concave-convex clay rod and suitable water are weighed according to proportioning, after mixing, proportional quantity is added into mixture Nano aluminium oxide, nano zine oxide, stir evenly, mixture be then placed in ultrasonic disperse 0.5h under Ultrasonic Conditions, is obtained It is spare to mixture a3；

（4）Mixture a2, mixture a3 and antifoaming agent are uniformly mixed, the diatomite of proportional quantity is then added into mixture again And filler material, it stirs, mixture is then transferred to shearing point in the cutter that shear velocity is 2000 turns/min 10min is dissipated to get the anticorrosive coating.

Wherein, the step（1）The middle method that graphene oxide is added is a concentration of to be first configured to graphene oxide Graphene oxide water solution, is then added drop-wise in reaction kettle by the graphene oxide water solution of 0.7g/L again, wherein rate of addition Graphene oxide water solution is added dropwise in 30min for control.

Wherein, the step（2）The middle quality that water is added is 5 times of polyacrylonitrile quality.

Wherein, the step（3）The preparation method of middle high viscous Concave-convex clay rod includes：

It takes natural attapulgite to crush and crosses 200 mesh sieve, the water of 18 times of attapulgite quality is added, stirring forms suspension mud Slurry, takes upper suspension centrifugal treating 10min in the centrifuge of 2000 turns/min, is filtered by vacuum, obtains filter cake；

Filter cake is dried again, is subsequently placed in Muffle furnace, according to the heating rate temperature programming of 20 DEG C/min to 800 DEG C, then Constant temperature calcining 5h again, it is cooling to get.

Wherein, the step（3）The quality that water is added makes high viscous Concave-convex clay rod not precipitate shape in suspending in water State.

Embodiment 2：

18 parts of aq. polyurethane-acrylate, 12 parts of polyacrylonitrile, 0.3 part of graphene oxide, nano aluminium oxide 7 part, nanometer 5 parts of zinc oxide, 8 parts of diatomite, 10 parts of high viscous Concave-convex clay rod, 7 parts of filler material, 2 parts of antifoaming agent, further include suitable water.

Wherein, the filler material is superfine talcum powder.

（1）Aq. polyurethane-acrylate is weighed according to proportioning to be added in reaction kettle, under the conditions of 40 DEG C, while stirring Graphene oxide is added, constant temperature is stirred to react 3h, obtains reaction product a1；

（2）Polyacrylonitrile and suitable water are weighed according to proportioning, is added in reaction product a1, hybrid reaction 0.5h under equality of temperature, Mixture a2 is obtained, it is spare；

（4）Mixture a2, mixture a3 and antifoaming agent are uniformly mixed, the diatomite of proportional quantity is then added into mixture again And filler material, it stirs, mixture is then transferred to shearing point in the cutter that shear velocity is 1000 turns/min 15min is dissipated to get the anticorrosive coating.

Wherein, the step（1）The middle method that graphene oxide is added is a concentration of to be first configured to graphene oxide Graphene oxide water solution, is then added drop-wise in reaction kettle by the graphene oxide water solution of 0.5g/L again, wherein rate of addition Graphene oxide water solution is added dropwise in 20min for control.

Wherein, the step（2）The middle quality that water is added is 3 times of polyacrylonitrile quality.

It takes natural attapulgite to crush and crosses 200 mesh sieve, the water of 10 times of attapulgite quality is added, stirring forms suspension mud Slurry, takes upper suspension centrifugal treating 15min in the centrifuge of 2000 turns/min, is filtered by vacuum, obtains filter cake；

Filter cake is dried again, is subsequently placed in Muffle furnace, according to the heating rate temperature programming of 20 DEG C/min to 800 DEG C, then Constant temperature calcining 4h again, it is cooling to get.

Embodiment 3：

25 parts of aq. polyurethane-acrylate, 0.5 part of graphene oxide, 15 parts of nano aluminium oxide, is received 20 parts of polyacrylonitrile 9 parts of zinc oxide of rice, 13 parts of diatomite, 16 parts of high viscous Concave-convex clay rod, 18 parts of filler material, 6 parts of antifoaming agent, further include suitable Water.

Wherein, the filler material is precipitated calcium carbonate.

（2）Polyacrylonitrile and suitable water are weighed according to proportioning, is added in reaction product a1, hybrid reaction 2h under equality of temperature is obtained It is spare to mixture a2；

（3）High viscous Concave-convex clay rod and suitable water are weighed according to proportioning, after mixing, proportional quantity is added into mixture Nano aluminium oxide, nano zine oxide, stir evenly, mixture be then placed in ultrasonic disperse 1h under Ultrasonic Conditions, is obtained Mixture a3, it is spare；

Wherein, the step（1）The middle method that graphene oxide is added is a concentration of to be first configured to graphene oxide Graphene oxide water solution, is then added drop-wise in reaction kettle by the graphene oxide water solution of 0.8g/L again, wherein rate of addition Graphene oxide water solution is added dropwise in 40min for control.

Wherein, the step（2）The middle quality that water is added is 6 times of polyacrylonitrile quality.

It takes natural attapulgite to crush and crosses 200 mesh sieve, the water of 20 times of attapulgite quality is added, stirring forms suspension mud Slurry, takes upper suspension centrifugal treating 10min in the centrifuge of 3000 turns/min, is filtered by vacuum, obtains filter cake；

In conclusion the anticorrosive coating of the present invention for photovoltaic cell holder, has preferable waterproof, anti-corrosion Effect is lost, substantially prolongs the service life of photovoltaic bracket, while condition is provided for the popularization and application of solar-energy photo-voltaic cell. In addition, the preparation method is simple and convenient to operate, it is suitble to industrial applications, there is preferable application value.

Specific embodiments of the present invention are described above.It is to be appreciated that the invention is not limited in above-mentioned Particular implementation, those skilled in the art can make various deformations or amendments within the scope of the claims, this not shadow Ring the substantive content of the present invention.

Claims

1. a kind of anticorrosive coating for photovoltaic cell holder, which is characterized in that include each component of following parts by weight：Water and milk 18 ~ 25 parts of type polyurethane-acrylate, 12 ~ 20 parts of polyacrylonitrile, 0.3 ~ 0.5 part of graphene oxide, nano aluminium oxide 7 ~ 15 Part, 5 ~ 9 parts of nano zine oxide, 8 ~ 13 parts of diatomite, 10 ~ 16 parts of high viscous Concave-convex clay rod, 7 ~ 18 parts of filler material, antifoaming agent 2 ~ 6 parts, further include suitable water.

2. the anticorrosive coating according to claim 1 for photovoltaic cell holder, which is characterized in that the emulsion type is poly- 23 parts of urethane-acrylate, 18 parts of polyacrylonitrile, 0.4 part of graphene oxide, 12 parts of nano aluminium oxide, 8 parts of nano zine oxide, 9 parts of diatomite, 14 parts of high viscous Concave-convex clay rod, 12 parts of filler material, 3 parts of antifoaming agent, further include suitable water.

3. the anticorrosive coating according to claim 1 for photovoltaic cell holder, which is characterized in that the high viscous bumps The product that stick stone clay is purified for natural attapulgite clay, is obtained after heat modification.

4. the anticorrosive coating according to claim 1 for photovoltaic cell holder, which is characterized in that the filler material packet Include any one of superfine talcum powder, white carbon, precipitated calcium carbonate.

5. a kind of method preparing the anticorrosive coating such as claim 1 ~ 4 any one of them for photovoltaic cell holder, It is characterized in that, includes the following steps：

6. the preparation method of the anticorrosive coating according to claim 5 for photovoltaic cell holder, which is characterized in that institute State step（1）The middle method that graphene oxide is added is that graphene oxide is configured to the oxidation of a concentration of 0.5 ~ 0.8g/L first Then graphene oxide water solution is added drop-wise in reaction kettle by graphene aqueous solution again, wherein rate of addition control 20 ~ Graphene oxide water solution is added dropwise in 40min.

7. the preparation method of the anticorrosive coating according to claim 5 for photovoltaic cell holder, which is characterized in that institute State step（2）The middle quality that water is added is 3 ~ 6 times of polyacrylonitrile quality.

8. the preparation method of the anticorrosive coating according to claim 5 for photovoltaic cell holder, which is characterized in that institute State step（3）The preparation method of middle high viscous Concave-convex clay rod includes：

9. the preparation method of the anticorrosive coating according to claim 5 for photovoltaic cell holder, which is characterized in that institute State step（3）The quality that water is added makes high viscous Concave-convex clay rod in water in the not precipitated form that suspends.