CN106928832A

CN106928832A - A kind of high temperature resistant anti-infrared radiation energy-saving coating

Info

Publication number: CN106928832A
Application number: CN201710267047.8A
Authority: CN
Inventors: 王政伟; 张伟
Original assignee: HENAN JIAHE ENERGY SAVING TECHNOLOGY Co Ltd
Current assignee: Henan Jiahe Energy Saving Technology Co., Ltd.; China Pingmei Shenma Energy and Chemical Group Co Ltd
Priority date: 2017-04-21
Filing date: 2017-04-21
Publication date: 2017-07-07
Anticipated expiration: 2037-04-21
Also published as: CN106928832B

Abstract

The invention discloses a kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, the coating is made up of the component of following weight portion：0.05 0.15 parts of high temperature 30 40 parts of powder of radiation high, 10 20 parts of silica flour, 5 10 parts of superhigh temperature additive, 30 50 parts of bonding agent, 10 20 parts of solvent, 0.1 0.2 parts of dispersant, 0.15 0.3 parts of coupling agent and defoamer.A kind of ternary structural of stabilization is formed present invention aims to coat inside, hinder coating is growed using crystal inside at high temperature for a long time, on the one hand can reduce because crystal is grown up the decay of caused coating infrared emittance, on the other hand the phenomenons such as cracking, chip off-falling that coating produced due to sintering shrinkage can be prevented, increase service life, effectively prevent infrared emittance from decaying.

Description

A kind of high temperature resistant anti-infrared radiation energy-saving coating

Technical field

The invention belongs to high-temperature energy-saving coating material field, and in particular to a kind of high temperature resistant anti-infrared radiance decay energy-conservation is applied Material.

Background technology

World today's mineral resources energy worsening shortages, seriously threaten the development of world industry, and Industrial Stoves consume energy about The 25%~40% of total energy consumption is accounted for, and the average thermal efficiency of kiln is only 32% or so.Pass through mainly due to one side heat Furnace lining and furnace outer wall lose, and the efficiency of utilization of another aspect kiln and boiler is relatively low so that heat can not effectively utilize and It is discharged, causes the huge waste of the energy.High temperature resistant High Radiant Rate Coating is that a class has good heat radiation and heat-absorption properties New energy-saving material, the effect of radiation efficiency, augmentation of heat transfer can be improved used in Industrial Stoves inner lining surface；Used in industry The metal tube skin of boiler, can strengthen absorbability of the boiler tube to heat, improve heat transfer efficiency, thermal loss be reduced, to reach To the purpose for improving heat utilization efficiency and energy saving.

In recent years, the R and D of high-radiation energy-saving coating make some progress, in Industrial Boiler and kiln Application above have received good energy-saving effect, the patent of invention of Application No. 201410055343.8 discloses a kind of high emission Rate high-temperature nano ceramic coating, it mainly prepares coating from nano-powder for raw material, and coatings emissivity is not less than 0.94, but It is that easy-sintering is shunk nano-powder at high temperature, crystal is grown up, on the one hand can makes coating infrared emittance reduction at high temperature So as to influence the energy-saving effect of coating, another aspect crystal ambassador's coating shrinkage long to be likely to result in the cracking of coating greatly and take off Fall.The patent of invention of Application No. 201310361422.7 discloses a kind of preparation method of energy-saving coatings, micro- from aluminum oxide Powder, jakobsite, zirconium mullite, ferropicotite and gahnite are primary raw material, and finally prepared energy-saving coatings are complete Wave band emissivity be 0.94, formd in coating it is polynary mix system, increased impurity energy level, the infrared of coating can be effectively improved Radiance.But coating at high temperature if long-term use due to its be it is polynary mix system, lattice is more active, and crystal is easily long Ambassador's coating sintering shrinkage, the infrared emittance for ultimately resulting in coating is gradually decayed, and coating cracking is will result in when shrinking excessive So as to influence the service life of coating.

At present, the preparation of energy-saving coatings product is mostly raw material from micro-nano powder, because smaller its ratio of diameter of particle Surface more large radiation rate is higher；Or from the polynary system material that mixes for raw material, the complication for improving internal crystal structure is entered And the red hair radiance of material is improved, micro-nano raw material and diversification are mixed when system raw material is used at high temperature for a long time and can all be deposited Grown up in crystal the problem of sintering shrinkage, thus causing the activity of crystal reduces so that the infrared emittance of coating gradually declines Subtract, when coating shrinkage to a certain extent when occur cracking, decortication phenomenon so that influence coating using effect.If can protect There is card coating long-time applied at elevated temperature crystal on the premise of high radiant rate not grow up or only slightly grow up, coating do not shrink or Person shrinks smaller, will effectively prevent the decay of the infrared emittance of coating, and the service life of coating is greatly improved, and improves stove The energy-saving efficiency and maintenance period of kiln.

The content of the invention

In view of this, the purpose of the present invention is directed to the deficiencies in the prior art, there is provided a kind of high temperature resistant anti-infrared radiance Decay energy-saving coatings, solve that service life under energy-saving coatings hot conditions is short or coating infrared emittance in use Decay problem.

The purpose of the present invention is achieved through the following technical solutions：

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, the coating is made up of the component of following weight portion：High temperature Height 30-40 parts of powder of radiation, silica flour 10-20 parts, 5-10 parts of superhigh temperature additive, bonding agent 30-50 parts, solvent 10-20 parts, Dispersant 0.1-0.2 parts, coupling agent 0.15-0.3 parts and defoamer 0.05-0.15 parts.

Further, high temperature radiation powder high is by di-iron trioxide, cupric oxide, manganese oxide, chromium oxide and nickel oxide The several of one or more constitute in any proportion；The granularity of the radiation powder high is respectively less than 10 μm.

Further, the superhigh temperature additive is electric-melting zirconia micro mist, and powder size is 1-5 μm.

Further, the bonding agent is by one or more in waterborne polyurethane resin, waterglass and Ludox Several constitute in any proportion.

Further, the solvent is water.

Further, the dispersant is sodium tripolyphosphate, calgon or polyethylene glycol type water reducer FS10.

Further, the coupling agent is trimethoxysilane coupling agent.

Further, the defoamer is the G60 defoamers of Sima Chemical Manufacture.

Gained coating of the invention conventionally mixes, stirs compounding.

Used raw material can be commercially available easily in the present invention, the compound national or professional standard of specification.

The features of the present invention：It is compound from micro-nano di-iron trioxide, cupric oxide, manganese oxide, chromium oxide and nickel oxide Powder is radiating powder raw material high, and these height radiation raw materials form the material of composite spinelle structure at high temperature, with higher High temp, infrared radiation rate, the introducing of electric-melting zirconia micro mist can hinder growing up for spinel crystal, coat inside is formed three First interface effect, it helps improve the infrared emittance of coating, the in addition introducing of zirconium oxide micro mist also contributes to improve The thermal shock resistance of coating.

The beneficial effects of the invention are as follows：

A kind of ternary structural of stabilization is formed present invention aims to coat inside, hinder coating is for a long time in high temperature Lower use crystal inside is growed, and on the one hand can be reduced because crystal is grown up the decay of caused coating infrared emittance, separately On the one hand the phenomenons such as cracking, chip off-falling that coating produced due to sintering shrinkage can be prevented.It is infrared that material at high temperature is improved in general The method of radiance has two kinds, and one kind is to use ultra-fine micro-nano powder for raw material to prepare radiation powder high, and another kind is to apply Expect the Composite of composition, the radiance of single object is after all limited, because the monochromatic absorption index of object is with radiated wave Wavelength difference and be continually changing, the radiation characteristic of object also all shows certain selectivity.Solve the method for this problem It is exactly using multiple material composition Composite, to enable object mutual with radiation characteristic in different wavelength range at different temperatures Mend and mutually strengthen.The present invention is exactly to combine both approaches to prepare infrared radiating powder high, but selects both sides It is as coating is used for a long time at high temperature, in coating that method prepare high temperature high-radiation energy-saving coating to have a common problem Crystal ambassador's coating material long in portion's loses original property, so as to influence the infrared emittance and energy-saving efficiency of coating.

The present invention adds superhigh temperature additive electric-melting zirconia micro mist, electric-melting zirconia on the basis of original design concept It is to found to form by the superhigh temperature more than 3,000 degree Celsius, crystal activity is low and is not easy to other materials and reacts, and And the infrared emittance of zirconium oxide is also higher, electric-melting zirconia micro mist is incorporated into coating, on the one hand can be with hinder coating Crystal is grown up refinement crystal grain, on the other hand can also improve the infrared emittance of coating.The high temperature resistant energy of electric-melting zirconia Power is stronger, therefore coating uses in the case of relative low temperature (less than 1400 DEG C) and influence will not be produced on it.

Specific embodiment

With reference to specific embodiment, the invention will be further described.

Embodiment 1

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 30 high Part, 10 parts of silica flour, 5 parts of electric-melting zirconia micro mist, 50 parts of waterborne polyurethane resin, 5 parts of water, 0.1 part of sodium tripolyphosphate, front three 0.05 part of the G60 defoamers of 0.15 part of TMOS coupling agent and Sima Chemical Manufacture.

Embodiment 2

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 40 high Part, 10 parts of silica flour, 10 parts of electric-melting zirconia micro mist, 30 parts of waterglass, 10 parts of water, 0.2 part of calgon, trimethoxy silicon 0.15 part of the G60 defoamers of 0.3 part of alkane coupling agent and Sima Chemical Manufacture.

Embodiment 3

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 30 high Part, 20 parts of silica flour, 8 parts of electric-melting zirconia micro mist, 10 parts of 20 parts of waterborne polyurethane resin and Ludox, 12 parts of water, poly- second 0.15 part of diol type water reducer FS10 dispersants, the Sima Chemical Manufacture that 0.2 part and 0.1 part of trimethoxysilane coupling agent G60 defoamers.

Embodiment 4

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 35 high Part, 10 parts of silica flour, 5 parts of electric-melting zirconia micro mist, 35 parts of Ludox, 15 parts of water, 0.1 part of calgon, trimethoxy silicon 0.05 part of the G60 defoamers of 0.3 part of alkane coupling agent and Sima Chemical Manufacture.

Embodiment 5

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 30 high Part, 15 parts of silica flour, 5 parts of electric-melting zirconia micro mist, 30 parts of waterglass, 20 parts of water.Additional 0.1 part of sodium tripolyphosphate, front three 0.15 part of the G60 defoamers of 0.25 part of TMOS coupling agent and Sima Chemical Manufacture.

Embodiment 6

A kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, consist of the following parts by weight, high temperature radiation powder 38 high Part, 12 parts of silica flour, 10 parts of electric-melting zirconia micro mist, 15 parts of waterborne polyurethane resin and 15 parts of Ludox, 10 parts of water, ethylene glycol The G60 defoamers of 0.15 part of type water reducer FS10 dispersants, 0.2 part of trimethoxysilane coupling agent and Sima Chemical Manufacture 0.05 part.

The performance parameter such as following table of embodiment 1-6 gained coating

The performance parameter of the present invention gained coating of table 1.

Finally illustrate, the above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, this area is common Other modifications or equivalent that technical staff is made to technical scheme, without departing from technical solution of the present invention Spirit and scope, all should cover in the middle of scope of the presently claimed invention.

Claims

1. a kind of high temperature resistant anti-infrared radiance decay energy-saving coatings, it is characterised in that the coating by following weight portion component Composition：High temperature 30-40 parts of powder of radiation high, silica flour 10-20 parts, 5-10 parts of superhigh temperature additive is bonding agent 30-50 parts, molten Agent 10-20 parts, dispersant 0.1-0.2 parts, coupling agent 0.15-0.3 parts and defoamer 0.05-0.15 parts.

2. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the high temperature is high Radiation powder is by one or more several by any in di-iron trioxide, cupric oxide, manganese oxide, chromium oxide and nickel oxide Ratio is constituted；The granularity of the radiation powder high is respectively less than 10 μm.

3. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the superhigh temperature Additive is electric-melting zirconia micro mist, and powder size is 1-5 μm.

4. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the bonding agent It is made up of in any proportion the several of one or more in waterborne polyurethane resin, waterglass and Ludox.

5. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the solvent is Water.

6. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the dispersant It is sodium tripolyphosphate, calgon or polyethylene glycol type water reducer FS10.

7. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the coupling agent It is trimethoxysilane coupling agent.

8. high temperature resistant anti-infrared radiance according to claim 1 decay energy-saving coatings, it is characterised in that the defoamer It is the G60 defoamers of Sima Chemical Manufacture.