CN106010031A

CN106010031A - Modified acrylate solar heat absorbing coating

Info

Publication number: CN106010031A
Application number: CN201610557900.5A
Authority: CN
Inventors: 马昭键; 黄可煜; 莫小青; 金建荣; 陈会杰; 谢刚; 周帆
Original assignee: Nanning Keyu Energy Technology Co Ltd
Current assignee: Nanning Keyu Energy Technology Co Ltd
Priority date: 2016-07-15
Filing date: 2016-07-15
Publication date: 2016-10-12

Abstract

The invention discloses a modified acrylate solar heat absorbing coating. The solar heat absorbing coating is prepared from the following components in parts by weight: 25-35 parts of acrylate modified composite emulsion, 2-6 parts of a fluorocarbon surfactant, 2-8 parts of a nano modified material, 7-12 parts of a curing agent, 35-55 parts of an absorbent, 1-3 parts of an absorption enhancing agent, 10-20 parts of a solvent, 5-10 parts of a coalescing agent, 0.1-0.3 part of a humidifying agent, 0.3-0.7 part of a dispersing agent, 0.2-0.4 part of a defoaming agent, 0.5-0.7 part of a thickening agent, 0.2-0.6 part of an antioxidant, 0.4-0.8 part of glass fibers, and 0.4-0.6 part of emulsified paraffin. After the components with the formula amount are dispersed uniformly by a ball-milling method, the coalescing agent is added in the components and is mixed with the components uniformly, so that the solar heat absorbing coating can be obtained. Acrylic acid is modified, the prepared coating has good weather fastness and waterproofness in the outdoor, a preparation technology is easily understood, and heat absorbing efficiency of the heat absorbing coating is further guaranteed.

Description

A kind of modification acrylate solar energy heat absorbing coating

Technical field

The present invention relates to field of solar energy utilization, particularly relate to a kind of modification acrylate solar energy heat absorbing coating.

Background technology

Solar energy optical-thermal application be human use's solar energy the most simply, the most directly, one of most efficient method, but due to too After sun can arrive the earth, energy density is less discontinuous again, therefore, brings difficulty for large-scale exploitation.For a long time with Come, how low-grade solar energy is converted into high-grade heat energy, and solar energy is enriched with, in order to land productivity to greatest extent With solar energy, become the hot issue of research.In the middle of existing Photo-thermal technology application technology, coating for selective absorption technology is recognized For being the technology of the most more core, it is to improving solar heat conversion efficiency, and the application of large-scale promotion solar energy optical-thermal plays Vital effect.

It is known that solar energy absorbing coating is broadly divided into spectral selective absorbing coating and high-absorbility absorber coatings, Spectral selection heat absorbing coating is that one has a visible near infrared light high-selenium corn, the special coating to the reflection of infrared light height, I.e. it can effectively absorb solar energy, and the heat loss that after being heated, self long wave causes is the least, is widely used in solar energy optical-thermal Conversion, such as solar water heater, solar electrical energy generation etc..Solar energy heat absorbing coating is responsible for reception and absorbs the important of solar energy Effect, affects stability and the height of efficiency of whole solar energy heat absorbing system.Solar energy heat absorbing coating is a kind of functional Coating, solar radiant energy is converted into heat energy by the film made with it, and film works under outdoor conditions, it is necessary to have good weather-proof Property and water proofing property.

Summary of the invention

The technical problem to be solved is to provide a kind of modification acrylate solar energy heat absorbing coating, it is possible to solve Certainly heat-absorbing paint weatherability and the problem of water proofing property difference, and can guarantee that heat absorption efficiency.

The present invention adopts the following technical scheme that

A kind of modification acrylate solar energy heat absorbing coating, it is characterised in that: this coating includes each group of following weight Divide and make: acrylate modified complex emulsions 25～35 parts, fluorocarbon surfactant 2～6 parts, nano titanium oxide and carbon are received Nanotube mixture 2～8 parts, firming agent 7-12 part, absorbent 35-55, absorption enhancer 1-3, solvent 10-20, coalescents 5 ～10 parts, conditioning agent 0.1～0.3 part, dispersant 0.3～0.7 part, defoamer 0.2～0.4 part, thickening agent 0.5～0.7 part, anti- Oxidant 0.2～0.6 part, glass fibre 0.4～0.8 part, emulsified wax 0.4～0.6 part.Above-mentioned formula ratio is utilized ball milling After method is uniformly dispersed, add coalescents mix homogeneously, i.e. can get the solar energy heat absorbing coating that weatherability is high.

Preferably technical scheme is: described acrylate modified complex emulsions is 7～8 parts of acrylic acid ester emulsions, 6～8 Part polyurethane-modified polyacrylate emulsion, 6～10 parts of epoxy resin modification acrylic acid ester emulsions, 6～9 parts of organic-silicon-modified propylene Acid esters emulsion is composited.

In the present invention, further, described absorbent is nano-nickel powder/carbon mano-tube composite.

In the present invention, further, described polyurethane-modified polyacrylate emulsion, its preparation method is: at nitrogen atmosphere In, the acrylate of 5～6 mass fractions is heated, after stirring and dissolving, obtains the first reactant liquor；Described first reactant liquor adds Enter the polyurethane of 1～2 mass fractions, add water mixing, be uniformly mixing to obtain polyurethane-modified polyacrylate emulsion.

In the present invention, further, described epoxy resin modification acrylic acid ester emulsion, its preparation method is: in blanket of nitrogen In enclosing, the acrylate of 5～8 mass fractions is heated, after stirring and dissolving, obtains the first reactant liquor；In described first reactant liquor Add the epoxy resin of 1～2 mass fractions, add water mixing, be uniformly mixing to obtain epoxy resin modification acrylic acid ester emulsion.

In the present invention, further, described organosilicon-modified acrylate emulsion, its preparation method is: at nitrogen atmosphere In, the acrylate of 5～7 mass fractions is heated, after stirring and dissolving, obtains the first reactant liquor；Described first reactant liquor adds Enter the organosilicon of 1～2 mass fractions, add water mixing, be uniformly mixing to obtain organosilicon-modified acrylate emulsion.

In the present invention, further, in described polyurethane-modified polyacrylate emulsion preparation method, described heating-up temperature is 70 DEG C～80 DEG C；The speed of described stirring is 100～150r/min；The time of described stirring is 6～10 min.

In the present invention, further, in described epoxy resin modification acrylic acid ester emulsion preparation method, described heating-up temperature It it is 70 DEG C～80 DEG C；The speed of described stirring is 100～150r/min；The time of described stirring is 6～10 min.

In the present invention, further, in described organosilicon-modified acrylate emulsion preparation method, described heating-up temperature is 70 DEG C～80 DEG C；The speed of described stirring is 100～150r/min；The time of described stirring is 6～10 min.

In the present invention, further, in described polyurethane-modified polyacrylate emulsion preparation method, the weight of described addition water Amount is polyurethane and the 0.2～0.6 of acrylate gross weight.

In the present invention, further, in described epoxy resin modification acrylic acid ester emulsion preparation method, described addition water Weight is the 0.2～0.6 of epoxy resin and acrylate gross weight.

In the present invention, further, in described organosilicon-modified acrylate emulsion preparation method, the weight of described addition water Amount is organosilicon and the 0.2～0.6 of acrylate gross weight.

This most compared with prior art, the device have the advantages that into:

1, due to fluorine compounds, there is the performances such as good stability, weatherability, corrosion resistance, non-oxidizability, therefore fluorine carbon table Face activating agent can modified acrylate emulsion so that it is have good weather resistance, chemical stability, water resistance.It addition, Fluorocarbon surfactant is not only a kind of superpower water-repelling agent, and film coated surface can be made to have ultra-low surface energy, and dust is difficult to stick, Strengthen the anti-contamination capability of coating；Itself or the levelling agent of a kind of coating, it is possible to accelerate levelling speed and the wetting speed of coating, Coating is promoted to form a film smooth, smooth, uniform during drying and forming-film.

2, in the present invention, adding acrylate modified complex emulsions, wherein polyurethane-modified polyacrylate emulsion has good The features such as pliability well, lower temperature resistance, resistance to water, resistance to ag(e)ing, bin stability, make the combination property of film carry significantly High；Epoxy resin has good to steam and the shielding of oxygen, and adhesive force is good, shrinkage factor is low, the most modified breast Liquid had both had good film-forming property, adhesive force by force, improved again weather-proof ability；Organosilicon has heat-resisting, antioxidation, stain resistant, radiation hardness Etc. performance, the most modified emulsion had both had good film property, improve again the adhesive force of film, resistance to ag(e)ing, anti-contamination Property, resistance to water, mechanical strength.

3, the preparation technology of the present invention is simple, understandable, and feasibility is high, and test proves that coating absorbs after being coated Visible ray is high with infrared light performance, and heat conductivity is high, and water proofing property is strong, high temperature resistant, corrosion-resistant, and stability is high, and emissivity is low, transmission Rate is high, and coating adhesion is strong, and density is high, is preferable panel solar heat-absorbing paint, has great promotional value.

Detailed description of the invention

For the technological means making the present invention realize, creation characteristic, reach purpose and be easy to understand with effect, below knot Close concrete example, the present invention is expanded on further.

Embodiment 1.

A kind of modification acrylate solar energy heat absorbing coating, raw materials quality number is:

Acrylate modified complex emulsions: 7 parts of acrylic acid ester emulsions, 6 parts of polyurethane-modified polyacrylate emulsions, 6 parts of asphalt mixtures modified by epoxy resin Fat modified acrylate emulsion, 6 parts of organosilicon-modified acrylate emulsions

Fluorocarbon surfactant 2 parts

Nano modified material: nano titanium oxide 1 part, carbon nanotube mixture 1 part

7 parts of firming agent

Absorbent: nano-nickel powder 20 parts, CNT 15 parts

Absorption enhancer 1 part, solvent 10 parts, coalescents 5 parts, conditioning agent 0.1 part, dispersant 0.3 part, defoamer 0.2 Part, thickening agent 0.5 part, antioxidant 0.2 part, glass fibre 0.4 part, emulsified wax 0.4 part；

Modified acrylate emulsion step is prepared as follows according to above-mentioned raw material:

(1) preparation method of polyurethane-modified polyacrylate emulsion is: in nitrogen atmosphere, by the acrylate of 5 mass fractions Heating 70 DEG C, mixing speed is 100r/min, and the time of stirring is 6min, obtains the first reactant liquor after dissolving；Described first Reactant liquor adds the polyurethane of 1 mass fraction, adds 1.2 parts of water mixing, be uniformly mixing to obtain polyurethane-modified polyacrylate Emulsion；

The preparation method of epoxy resin modification acrylic acid ester emulsion is: in nitrogen atmosphere, is added by the acrylate of 5 mass fractions Heat 70 DEG C, mixing speed is 100r/min, and the time of stirring is 6 min, obtains the first reactant liquor after dissolving；Described first anti- Answer the epoxy resin adding 1 mass fraction in liquid, add 1.2 parts of water mixing, be uniformly mixing to obtain epoxy resin modification acrylic acid Ester emulsion；

The preparation method of organosilicon-modified acrylate emulsion is: in nitrogen atmosphere, is heated by the acrylate of 5 mass fractions 70 DEG C, mixing speed is 100r/min, and the time of stirring is 6 min, obtains the first reactant liquor after dissolving；React described first Liquid adds the organosilicon of 1 mass fraction, adds 1.2 parts of water mixing, be uniformly mixing to obtain organosilicon-modified acrylate emulsion；

(2) according to ratio of weight and number, by acrylate modified complex emulsions, fluorocarbon surfactant, nano modified material, solidification Agent, absorbent, absorption enhancer, solvent, conditioning agent, dispersant, defoamer, thickening agent, antioxidant, glass fibre, emulsifying Paraffin puts in ball mill, starts ball mill and carries out after each raw material ball milling is uniformly dispersed by ball milling operation 5min, adding into After film auxiliary agent mix homogeneously, i.e. can get modified acroleic acid solar energy heat absorbing coating.

Embodiment 2.

A kind of modification acrylate solar energy heat absorbing coating, raw materials quality mark is:

Acrylate modified complex emulsions: 8 parts of acrylic acid ester emulsions, 8 parts of polyurethane-modified polyacrylate emulsions, 10 parts of asphalt mixtures modified by epoxy resin Fat modified acrylate emulsion, 9 parts of organosilicon-modified acrylate emulsions

Fluorocarbon surfactant 6 parts

Nano modified material: nano titanium oxide 4 parts, carbon nanotube mixture 4 parts

12 parts of firming agent

Absorbent: nano-nickel powder 30 parts, CNT 25 parts

Absorption enhancer 3 parts, solvent 20 parts, coalescents 10 parts, conditioning agent 0.3 part, dispersant 0.7 part, defoamer 0.4 part, Thickening agent 0.7 part, antioxidant 0.6 part, glass fibre 0.8 part, emulsified wax 0.6 part；

The step preparing modified acrylate emulsion according to above-mentioned raw material is as follows:

(1) preparation method of polyurethane-modified polyacrylate emulsion is: in nitrogen atmosphere, by the acrylate of 6 mass fractions Heating 80 DEG C, mixing speed is 150r/min, and the time of stirring is 10 min, obtains the first reactant liquor after dissolving；Described One reactant liquor adds the polyurethane of 2 mass fractions, adds 4.8 parts of water mixing, be uniformly mixing to obtain polyurethane-modified acrylic acid Ester emulsion；

The preparation method of epoxy resin modification acrylic acid ester emulsion is: in nitrogen atmosphere, is added by the acrylate of 8 mass fractions Heat 80 DEG C, mixing speed is 150r/min, and the time of stirring is 10 min, obtains the first reactant liquor after dissolving；Described first Reactant liquor adds the epoxy resin of 2 mass fractions, adds 6.0 parts of water mixing, be uniformly mixing to obtain epoxy resin modification propylene Acid esters emulsion；

The preparation method of organosilicon-modified acrylate emulsion is: in nitrogen atmosphere, is heated by the acrylate of 7 mass fractions 80 DEG C, mixing speed is 150r/min, and the time of stirring is 10 min, obtains the first reactant liquor after dissolving；Described first anti- Answer the organosilicon adding 2 mass fractions in liquid, add 5.4 parts of water mixing, be uniformly mixing to obtain organosilicon-modified acrylate breast Liquid；

(3) according to ratio of weight and number, by acrylate modified complex emulsions, fluorocarbon surfactant, nano modified material, solidification Agent, absorbent, absorption enhancer, solvent, conditioning agent, dispersant, defoamer, thickening agent, antioxidant, glass fibre, emulsifying Paraffin puts in ball mill, starts ball mill and carries out after each raw material ball milling is uniformly dispersed by ball milling operation 15min, adding into After film auxiliary agent mix homogeneously, i.e. can get modified acroleic acid solar energy heat absorbing coating；

(4) the above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, any Those familiar with the art, in the technical scope that the invention discloses, can readily occur in change or replace, should contain Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims

1. a modification acrylate solar energy heat absorbing coating, it is characterised in that: this coating includes each of following weight Component is made: acrylate modified complex emulsions 25～35 parts, fluorocarbon surfactant 2～6 parts, nano titanium oxide and carbon are received Nanotube mixture 2～8 parts, firming agent 7-12 part, absorbent 35-55 part, absorption enhancer 1-3 part, solvent 10-20 part, become Film auxiliary agent 5～10 parts, conditioning agent 0.1～0.3 part, dispersant 0.3～0.7 part, defoamer 0.2～0.4 part, thickening agent 0.5～ 0.7 part, antioxidant 0.2～0.6 part, glass fibre 0.4～0.8 part, emulsified wax 0.4～0.6 part；Mentioned component is utilized After the method for ball milling is uniformly dispersed, add coalescents mix homogeneously, i.e. can get modification acrylate solar energy heat absorbing and be coated with Material.

Modification acrylate solar energy heat absorbing coating the most according to claim 1, it is characterised in that: by weight, described Acrylate modified complex emulsions by 7～8 parts of acrylic acid ester emulsions, 6～8 parts of polyurethane-modified polyacrylate emulsions, 6～10 Part epoxy resin modification acrylic acid ester emulsion, 6～9 parts of organosilicon-modified acrylate emulsions are composited.

Modification acrylate solar energy heat absorbing coating the most according to claim 1, it is characterised in that: described absorbent is nanometer Nikel powder/carbon mano-tube composite.

Modification acrylate solar energy heat absorbing coating the most according to claim 1, it is characterised in that: described polyurethane-modified third Olefin(e) acid ester emulsion, its preparation method is: in nitrogen atmosphere, is heated by the acrylate of 5～6 mass fractions, after stirring and dissolving Obtain the first reactant liquor；In described first reactant liquor, add the polyurethane of 1～2 mass fractions, add water mixing, stir Obtain polyurethane-modified polyacrylate emulsion；Described epoxy resin modification acrylic acid ester emulsion, its preparation method is: in blanket of nitrogen In enclosing, the acrylate of 5～8 mass fractions is heated, after stirring and dissolving, obtains the first reactant liquor；In described first reactant liquor Add the epoxy resin of 1～2 mass fractions, add water mixing, be uniformly mixing to obtain epoxy resin modification acrylic acid ester emulsion；Institute Stating organosilicon-modified acrylate emulsion, its preparation method is: in nitrogen atmosphere, is added by the acrylate of 5～7 mass fractions Heat, obtains the first reactant liquor after stirring and dissolving；In described first reactant liquor, add the organosilicon of 1～2 mass fractions, add water Mixing, is uniformly mixing to obtain organosilicon-modified acrylate emulsion.

Modification acrylate solar energy heat absorbing coating the most according to claim 4, it is characterised in that: described polyurethane-modified third In olefin(e) acid ester emulsion preparation method, heating-up temperature is 70 DEG C～80 DEG C；Described epoxy resin modification acrylic acid ester emulsion preparation side In method, heating-up temperature is 70 DEG C～80 DEG C；In described organosilicon-modified acrylate emulsion preparation method, heating-up temperature is 70 DEG C ～80 DEG C.

Modification acrylate solar energy heat absorbing coating the most according to claim 4, it is characterised in that: described acrylate modified In complex emulsions preparation method, the speed of described stirring is 100～150r/min, and the time of described stirring is 6～10 min；Institute Stating in epoxy resin modification acrylic acid ester emulsion preparation method, the speed of described stirring is 100～150r/min, described stirring Time is 6～10 min；In described organosilicon-modified acrylate emulsion preparation method, the speed of described stirring be 100～ 150r/min, the time of described stirring is 6～10 min.

Modification acrylate solar energy heat absorbing coating the most according to claim 4, it is characterised in that: described polyurethane-modified third In olefin(e) acid ester emulsion preparation method, the weight of described addition water is the 0.2～0.6 of polyurethane and acrylate gross weight；Described In epoxy resin modification acrylic acid ester emulsion preparation method, the weight of described addition water is epoxy resin and acrylate gross weight 0.2～0.6；In described organosilicon-modified acrylate emulsion preparation method, the weight of described addition water is organosilicon and third The 0.2～0.6 of olefin(e) acid ester gross weight.