CN104152035A - Oil-based radiation heat-loss paint and preparation method thereof - Google Patents

Abstract

The invention relates to an oil-based radiation heat-loss paint compose of the components of, by mass: 15-30% of polyester resin, 10-20% of amino resin, 8-15% of a solvent, 15-35% of filling materials, and 20-40% of a pigment. The filling materials are graphene microchips and mixed powder of carbides and nitrides. With intrinsic conduction functions of carbides and nitrides, crystals and chips are combined, and thermal link is formed. With the graphene chip material, infra-red radiation heat loss area and intensity can be enhanced, such that an effective radiation heat-loss condition is achieved. According to the invention, the graphene microchips with the special structure cooperate with the carbides and nitrides, such that the prepared paint has the characteristics of good heat loss effect and low cost. The pant does not pollute the environment, and does not cause a gelling phenomenon. The dispersing performance of the paint is better than that obtained with a melt mixing method. The paint has good electrostatic spraying and coating leveling effects.

Description

Oiliness heat loss through radiation coating and preparation method thereof

Technical field

The present invention relates to heat radiation coating technical field, be specifically related to a kind of oiliness heat loss through radiation coating and preparation method thereof.

Background technology

In social fast development, make various electric equipment products all towards miniaturization, lightweight, densification and high efficiency future development, so there is high-power electronic product, obtain fast development, and distributing space, consequent a large amount of heat will directly not affect job stability, processing safety and the work-ing life of electronic product, the conventional type of cooling can not meet the heat radiation requirement of high power electronic product, so just must improve the rate of heat dissipation of electronic product, and adopt at present maximum be coated heat radiation coating.

Heat radiation coating, by improving body surface radiation efficiency (particularly improving ir radiation efficiency), strengthen object heat dispersion, there is cost low, implement simple, heat loss through radiation cooling coating directly construct and is arrived the body surface of wanting radiating and cooling, and heat loss through radiation is lowered the temperature coating can be with infrared wave to the heat on airspace radiation object, reduce body surface and internal temperature, radiating and cooling is obvious.Coating heat radiation is not affected by surrounding medium, and coating heat radiation can be used in vacuum environment.Coating, when playing radiation cooling, can also increase the performances such as self-cleaning, insulativity, preservative property, water-repellancy, antiacid alkali.

At present, in heat radiation coating, conventional heat radiation filler is aluminium nitride, silicon nitride, aluminum oxide, beryllium oxide, magnesium oxide, silicon oxide and zinc oxide etc., the price of the material of these high thermal conductivity is higher, and the organic solvent toxicity of preparing coating causes environmental pollution compared with conference, also can there is the phenomenon of part gel, therefore, just need that a kind of price is low, environmental friendliness and there will not be the heat radiation coating of gel phenomenon.

At present Graphene on the market or Graphene microplate are generally all with conduction, heat conduction is as heat sink material medium, the structure of Graphene is that the plane slices of honeycomb type are stacked up formation, remaining unbound electron can move between " graphite flake ", so can form the stream of electrons of displacement, also just can conduct electricity, this principle with metallic conduction is the same.As Chinese patent CN102649896A, a kind of Novel heat-conducting heat radiation coating is disclosed, select graphite, nano-graphite, crystalline flake graphite, Graphene, RESEARCH OF PYROCARBON, pyrolytic graphite, graphite composite powder, carbon nanotube, carbon fiber, graphite fibre, ceramic fiber, silica fiber, steel fiber, zirconium white, boron nitride, silicon nitride, norbide, silicon carbide, magnesia powder, metasilicic acid fiber, Calucium Silicate powder aluminum fiber, sapphire whisker, copper, aluminium, silver, tungsten, molybdenum powder wherein a kind of or wherein multiple as filler, in specification sheets, corresponding disclosing can be adjusted heat transfer direction according to the orientation of Graphene, but this radiating effect need further lifting.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of good heat dissipation effect, anti-oxidant, oiliness heat loss through radiation coating of good insulating and preparation method thereof.

Technical problem to be solved by this invention realizes by the following technical solutions:

An oiliness heat loss through radiation coating, consists of the component of following mass percent:

Described filler is the mixed powder of Graphene microplate and carbide and nitride, wherein the ratio of Graphene microplate and carbide and nitride is 7:1.5:1.5, utilize the own conduction function of nitride and oxide compound, lenticular is combined with sheet Like, generation heat energy links, Graphene sheet material can strengthen infrared radiation area of dissipation and intensity, reaches effective spoke and penetrates loose hot Strip part.

Described Graphene microplate is with long brilliant generate (as the Diamond Deposit class) of three-dimensional honeycomb mode, and four valence electrons of each carbon atom form, covalent linkage is in bond has lived, can not form the stream of electrons of displacement, so just can not conduct electricity, after generating, graphite carbon crystal utilizes the nano-milled mode of wet type, with single direction, grind, generation thickness is nanometer, the Graphene microplate that area is micronization.

Described Graphene microplate thickness minimizes and is about 5nm, and the product after development itself has high electrical resistance, non-conductive, not heat conduction, but can strengthen infrared radiation wavelength, peak-peak is about 7.5～9.5um.

Another object of the present invention is to provide a kind of preparation method of oiliness heat loss through radiation coating, and step is as follows:

1) by alkyd resin and aminoresin mixing and stirring;

2) step 1) complete after interpolation stirring solvent even;

3) step 2) complete after interpolation auxiliary agent, adopt ball mill grinding even;

4) step 3) complete after interpolation pigment ball mill grinding after approximately 4 hours, adopt No. 2, rock field cup test dilution 10 ± 1S standard;

5) packing.

The invention has the beneficial effects as follows: the present invention adopts special construction Graphene microplate and carbide to coordinate with nitride, and the coating of preparation has good heat dissipation effect, anti-oxidant, good insulating feature, can, to environment, not there will not be gel phenomenon; Dispersed superior; Spraying effect and the levelling of filming are effective.

Accompanying drawing explanation

Fig. 1 is thickness before Graphene microplate of the present invention grinds;

Fig. 2 is thickness after Graphene microplate of the present invention grinds;

Fig. 3 is thickness enlarged view after Graphene microplate of the present invention grinds.

Embodiment

For technique means, creation characteristic that the present invention is realized, reach object and effect is easy to understand, below in conjunction with concrete diagram, further set forth the present invention.

Embodiment 1

An oiliness heat loss through radiation coating, consists of the component of following mass percent:

Described filler is the mixed powder of Graphene microplate and carbide and nitride, wherein the ratio of Graphene microplate and carbide and nitride is 7:1.5:1.5, utilize the own conduction function of nitride and oxide compound, lenticular is combined with sheet Like, generation heat energy links, Graphene sheet material can strengthen infrared radiation area of dissipation and intensity, reaches effective spoke and penetrates loose hot Strip part.

Referring to Fig. 1-3, Graphene microplate is with long brilliant generate (as the Diamond Deposit class) of three-dimensional honeycomb mode, and four valence electrons of each carbon atom form, covalent linkage is in bond has lived, can not form the stream of electrons of displacement, so just can not conduct electricity, after generating, graphite carbon crystal utilizes the nano-milled mode of wet type, with single direction, grinds, generation thickness is nanometer, the Graphene microplate that area is micronization.Graphene microplate thickness minimizes and is about 5nm, and the product after development itself has high electrical resistance, non-conductive, not heat conduction, but can strengthen infrared radiation wavelength, peak-peak is about 7.5～9.5um.

Another object of the present invention is to provide a kind of preparation method of oiliness heat loss through radiation coating, and step is as follows:

1) by alkyd resin and aminoresin mixing and stirring;

2) step 1) complete after interpolation stirring solvent even;

3) step 2) complete after interpolation auxiliary agent, adopt ball mill grinding even;

4) step 3) complete after interpolation pigment ball mill grinding after approximately 4 hours, adopt No. 2, rock field cup test dilution 10 ± 1S standard;

5) packing.

Embodiment 2

An oiliness heat loss through radiation coating, consists of the component of following mass percent:

Filler is the mixed powder of Graphene microplate and carbide and nitride, wherein the ratio of Graphene microplate and carbide and nitride is 7:1.5:1.5, utilize the own conduction function of nitride and oxide compound, lenticular is combined with sheet Like, generation heat energy links, Graphene sheet material can strengthen infrared radiation area of dissipation and intensity, reaches effective spoke and penetrates loose hot Strip part.

Referring to Fig. 1-3, Graphene microplate is with long brilliant generate (as the Diamond Deposit class) of three-dimensional honeycomb mode, and four valence electrons of each carbon atom form, covalent linkage is in bond has lived, can not form the stream of electrons of displacement, so just can not conduct electricity, after generating, graphite carbon crystal utilizes the nano-milled mode of wet type, with single direction, grind, generation thickness is nanometer, area is the Graphene microplate of micronization, Graphene microplate thickness minimizes and is about 5nm, product after development itself has high electrical resistance, non-conductive, not heat conduction, but can strengthen infrared radiation wavelength, peak-peak is about 7.5～9.5um.

Another object of the present invention is to provide a kind of preparation method of oiliness heat loss through radiation coating, and step is as follows:

1) by alkyd resin and aminoresin mixing and stirring;

2) step 1) complete after interpolation stirring solvent even;

3) step 2) complete after interpolation auxiliary agent, adopt ball mill grinding even;

4) step 3) complete after interpolation pigment ball mill grinding after approximately 4 hours, adopt No. 2, rock field cup test dilution 10 ± 1S standard;

5) packing.

Test one: without spraying Lamp cup

Condition: enclosed space casing 30cm*30cm square synthetic glass case

Lamp cup condition: built-in constant current power supply/lampshade/e27 lamp holder is not installed;

Object: test as spraying naked aluminium cup with 24 Samsungs, 5630 lamp pearls the heat energy of dispersing performance;

Test duration: 2 hours

111 ℃ of the unchanged rear final lamp plate negative pole temperature of temperature;

Test two: spraying heat radiation coating Lamp cup

Condition: enclosed space casing 30cm*30cm square synthetic glass case

Lamp cup condition: built-in constant current power supply/lampshade/e27 lamp holder is not installed;

Object: after test spraying heat sink material, aluminium cup is with 24 Samsungs, 5630 lamp pearls, and the heat energy of dispersing shows;

Voltage can change with temperature is different, if temperature high-voltage is low, so low lightness temperature low voltage is high, so brightness is high;

Test duration: 2 hours

86 ℃ of the unchanged rear final lamp plate negative pole temperature of temperature.

More than show and described ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; that in above-described embodiment and specification sheets, describes just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.The claimed scope of the present invention is defined by appending claims and equivalent thereof.

Claims (3)

1. an oiliness heat loss through radiation coating, is characterized in that, the component of following mass percent, consists of:

Described filler is the mixed powder of Graphene microplate and carbide and nitride; Wherein the ratio of Graphene microplate and carbide and nitride is 7:1.5:1.5;

Described Graphene microplate is that after generating, graphite carbon crystal utilizes the nano-milled mode of wet type, with single direction, grinds with long brilliant generation of three-dimensional honeycomb mode, and generation thickness is nanometer, the Graphene microplate that area is micronization.

2. oiliness heat loss through radiation coating according to claim 2, is characterized in that, described Graphene microplate thickness is minimised as 5nm, and peak-peak is at 7.5～9.5um.

3. a preparation method for oiliness heat loss through radiation coating described in claim 1, is characterized in that, step is as follows:

1) by alkyd resin and aminoresin mixing and stirring;

2) step 1) complete after interpolation stirring solvent even;

3) step 2) complete after interpolation auxiliary agent, adopt ball mill grinding even;

4) step 3) complete after interpolation pigment ball mill grinding after approximately 4 hours, adopt No. 2, rock field cup test dilution 10 ± 1S standard;

5) packing.