TW201002792A - The heat elimination paint and method therefrom - Google Patents

Abstract

The present invention relates to a heat elimination paint and a preparation method thereof, wherein the preparation method contains: (a) providing a silicone resin and one or more solvents, mixing them thoroughly to form a first mixing solution; (b) adding zinc oxide powder to the first mixing solution and mixing them thoroughly to form a second mixing solution; (c) adding silicon carbide powder and aluminium powder to the second mixing solution and mixing them thoroughly to form the third mixing solution; (d) adding an anti-sediment agent and a dispersion agent to the third mixing solution and mixing them thoroughly to form the heat elimination paint; wherein the percentages of the components in the heat elimination paint are: silicone resin 20-40%, solvent 30-50%, anti-sediment agent 0.0-5.0%, zinc oxide 0.1-5.0%, silicon carbide 5-40%, aluminium powder 5-40%, dispersion agent and smoothing agent 0.0-5.0%. The heat elimination paint of the present invention can be painted on a heat elimination device to increase the heat dissipation area so as to enhance the heat dissipation effect.

Description

201002792 IX. Description of the Invention: [Technical Field] The present invention relates to a heat dissipating coating, and more particularly to a coating which can be applied to a heat dissipating device to increase the heat dissipating effect. [Prior Art] Today's electronic products need to be concerned about the power generated by them in order to avoid excessive waste heat generated by electronic products during use and damage internal electronic components. In the field of application of heat sinks today, in order to make the heat dissipation The device has a better heat dissipation effect, and most of the materials are directed toward a material having a higher thermal conductivity, so that the heat dissipation device can have a better heat dissipation effect. However, in the discussion of the heat dissipation effect, the size of the contact area between the heat sink and the outside is a very important factor, because the larger the heat dissipation area of the heat sink, the better the heat dissipation effect. However, the heat conductivity is generally high. The surface of the material is smooth rather than concave and convex, so the heat dissipation area is limited, so that the heat dissipation effect is also limited. Therefore, in order to allow the heat dissipation device to have a better heat dissipation effect, the structure of the heat dissipation device can often only be changed. The heat sink has a higher heat dissipation effect to discharge the waste heat of the electronic components to the outside. ,, ^ 咐 处 要 要 要 要 要 要 要 要 sub sub sub sub sub sub sub sub sub sub sub sub sub sub sub sub sub sub sub pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa pa For other factors, the 兮埤', 、, 凌 ing can have better heat dissipation effect. Monthly 201002792 [Summary of the Invention] Therefore, the effect of the present invention is based on the fact that the heat dissipation effect of the At y* device is such that the heat dissipation is not changed, the heat dissipation is provided to provide a coating that can be improved. heat radiation. The heat-dissipating coating on the heat-dissipating device to increase the heat-dissipating device is the above-mentioned item. The method for preparing the heat-dissipating paint of the present invention includes, (4) providing a solvent for the above-mentioned and more than the above-mentioned solvent, and making the resin and the solvent sufficiently Mixing to form a first mixed solution; (b) adding Wei zinc in the first mixed solution, and thoroughly mixing to form a second mixed solution; (c) adding a carbon cut powder and a powder in the second mixed solution, And thoroughly mixing to form a third mixed solution; and (d) adding an anti-amplifier and a dispersing agent to the third mixed solution, and thoroughly mixing to form a heat-dissipating paint.

The weight percentage of each component in the 'β heat-dissipating paint is as follows: 矽树知20~40%; solvent 3〇~5〇%; anti-settling agent 〇〇~5 〇%; oxidation word 0.1 5.CU,&lt ;; 5 eve 5~4Q%; Ming powder 5~; dispersant and smoothing agent 0·0~5.0%. =佳佳' The solvent is selected from the group consisting of butyl ketone, chloroform, dichloromethane, glacial acetic acid, benzene, toluene, xylene, propylene glycol methyl acetate, acetic acid n-butyl vinegar, diterpene vinegar mixed acid And a group consisting of the above substances. Preferably, the dispersing agent is selected from the group consisting of unsaturated & amine sulphate and low molecular acid polyester, high molecular polyamine and alkylamine, high molecular polyamine and polyamine amide, long 201002792 ^ According to decylamine and polar acid sl, acid group-containing polymer, pigment affinity soil group: copolymerization 6, polymer-containing copolymer group containing affinity pigment group, acidity: agglomeration σ %, south molecular alkyl alcohol A group consisting of aminoguanamine, an acid pigment-containing affinity group, a polymer, an acrylic copolymer, and a polyamine of an unsaturated polyamine. (Please specify clearly what is meant by "pigment affinity group" and "polyamine of unsaturated polyamine"?: as described in the attached dispersant). Preferably, the smoothing agent is selected from polyoxyl a group consisting of an alkane and an organic hydrazine. In addition, the present invention is further related to a heat-dissipating paint, the weight percentage of which is as follows: Shi Xi resin 20~40%; solvent 30~50%; anti-settling agent 〇·〇~5.0%; zinc oxide 0.1~ 5.0%; bismuth carbide 5~40%; aluminum powder 5~40%; dispersant and smoothing agent 0.0~5.0%. Preferably, the solvent is selected from the group consisting of methyl ethyl ketone, chloroform, dichloromethane, glacial acetic acid, benzene, toluene, xylene, propylene glycol methyl ether acetate, n-butyl acetate, dimethyl ester mixed dimethyl ester and A group consisting of a mixture of any two or more of the above. Preferably, the dispersing agent is selected from the group consisting of unsaturated polyamides and low molecular acid polyesters, high molecular weight polyamines and alkylamines, high molecular polyamines and polyamines, and long chain multi-buttons. Amines and polar acid esters, acid group-containing polymers, copolyesters having pigment affinity groups, macromolecular copolymers containing anionic pigment group, acid group-containing polymers, polymer alkyl alcohol aminoguanidines A group consisting of an amine, an acid pigment-containing affinity polymer interpolymer, an acrylic copolymer, and an unsaturated polyamine polyamine. 201002792 Preferably, the smoothing agent is selected from the group consisting of polyoxyalkylene oxides and organic germanium. The heat dissipating paint can be applied to the heat dissipating device to promote the surface of the heat dissipating device to form an irregular surface to absorb the heat dissipating surface of the heat dissipating device, thereby further improving the heat dissipating effect to avoid heat dissipation. The effect is to change the heat sink again. [Embodiment] The present invention relates to a heat-dissipating paint, which comprises the steps of: thoroughly mixing a resin having a weight percentage of 20 to 40% and a solvent having a weight percentage of 30 to 50%, and then adding a weight percentage. ~5 〇% of zinc oxide powder and thoroughly mixed and stirred' Then add 5~4% by weight of carbonized carbide powder and 5~40% by weight of aluminum powder and mix well, and finally add weight percentage 〇·〇 ~5·0% anti-settling agent and weight percentage 〇〇~5 〇% of dispersant and thoroughly mixed to form a heat-dissipating coating. Other features and advantages of the present invention will be apparent from the following detailed description of the invention. <Example 1> A solvent was first prepared by mixing butyl acetate/xylene/propylene glycol methyl ether acetate vinegar/divalent acid vinegar at a ratio of 30/30/30/15, and then taking the weight. The solvent of percentage 40 is thoroughly mixed with the resin of 3 重量 by weight, and then the oxidized powder of 2% by weight is added thereto, and thoroughly stirred and mixed by ultrasonic for 10 minutes, followed by adding weight percent Λ i" cerium carbide powder and weight Hundreds 201002792 Knife is more thoroughly mixed with 15 powder, and finally added 2% by weight of anti-settling agent and 1% by weight of dispersant/smoothing agent and mixed thoroughly to form a heat-dissipating paint. Test method: Control group · Please refer to Annex 4 for an 7.5 cm X 7.5 cm X 3 mm aluminum plate. Experimental group: Please refer to Appendix 5 for another 7.5 cm X 7_5 cm X 3 mm aluminum plate and spray the heat-dissipating paint onto the aluminum plate surface. Experimental procedure: Please refer to the attachments 1 to 4, respectively, the control group and the experimental group are connected by a thermal grease and a light-emitting diode respectively, and the light-emitting diodes are respectively connected with a 5w power supply wire (red and white wire) and a temperature sensing line. Connect the photo of the (yellow line). Then test the temperature of the light-emitting diode at a temperature other than °C to understand its heat dissipation effect. Measure,,’. If it is shown in the figure in May, the temperature of the aluminum plate coated with the heat-dissipating paint is slower than that of the uncoated heat-dissipating paint, so it can be proved that the coating with the heat-dissipating paint has a lower heat dissipation effect. <Example 2> First, a solvent is prepared from j 曰 / 曱 / / propylene glycol methyl ether acetate / divalent acid ester according to 30 / 3 〇 / 3 〇 / 15 ^ 168 s Μ &; ' The eyes are mixed with each other, then take the solvent with a weight ratio of 25 and add weight to the weight of 詈 比 比 ^ ^ ^ ^ ^ ^ 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分 充分Then add the weight of 100 ~, the work of the ultra-wave, h 撹垔 撹垔 百 百 百 25 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 Dispersant/smoothing agent and thoroughly mixed to form a heat-dissipating coating. <Example 3> First, a solvent is prepared by mixing butyl acetate/xylene, propylene glycol methyl ether acetate/divalent acid vinegar at a ratio of 30/30/3 〇/15 & After that, the weight of 100/grain is mixed with the resin of 5〇 by weight, and then added, and the zinc oxide powder of 2 parts is added to the mixture, and the mixture is thoroughly mixed by ultrasonic for 10 minutes. Percent carbonization (4) and weight percentage 3: aluminum powder and well mixed uniformly, finally adding 2% by weight of anti-settling agent and 1% by weight of dispersant/smoothing agent and thoroughly mixing to form a heat-dissipating coating. According to the above embodiments, it can be seen that the present invention only needs to apply the coating on the heat dissipating device, and the surface of the heat dissipating device is formed to form an irregular surface, so as to increase the heat dissipating area and promote the heat dissipating effect. Avoid the hassle of changing the heat sink to improve the 'hot effect'. The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any one of the technical fields of the present invention has a general knowledge, and if it does not deviate from the technical features (4) of the present invention, the present invention is utilized. Embodiments of the present invention have been made in the context of the technical features of the present invention and have not departed from the technical features of the present invention. [Simple description of the drawings] The first figure is the temperature profile of the uncoated heat-dissipating paint name sheet and the heat-dissipating coating aluminum sheet of the present invention. ... 201002792 [Simple Description of Accessories] Attachment 1: This is an experimental test method for connecting the light-emitting diode to an aluminum plate (a plate of 75 cm x 7.5 mm solid-size). Attachment 2: After the input of the 5W power supply of the light-emitting diode of the present invention, the "light and heat" heat is transmitted through the heat-dissipating paste to cause the aluminum plate. Attachment 3: Aluminum sheets that are not coated with a heat-dissipating coating. Attachment 4: An aluminum sheet coated with a heat-dissipating paint of the present invention. [Main component symbol description] None.

Claims (1)

201002792 X. Patent application scope: 1 heat-dissipating paint preparation (4) provides - resin and a kind of dip... The following steps: mixing to form a first mixed solution granule, and charging the resin and solvent into the first mixed solution, and Fully mixing (b) adding zinc oxide powder to the first mixed solution; (c) adding a tantalum carbide powder and mixing the mixture to form a flute π in the second mixed solution, and filling the mouth to form a third mixed solution And (d) adding an anti-settling agent and mixing to form a heat-dissipating paint; in the second mixed liquid, and fully describing that the weight percentage of each component in the heat-dissipating paint is oxidized as follows; ^3C)~5Q% ; : 匕 zinc; carbon cut 5~4Q%; return 5~俺; disperse Μ and smoothing agent 0.0~5.0%. 2 The method for preparing a heat-dissipating paint according to the invention of claim U, wherein the solvent is selected from the group consisting of butyl ketone, gas imitation, methylene chloride, glacial acetic acid, toluene, propylene glycol methyl ether acetate, and n-butyl acetate. A mixture of brewing, dimethyl vinegar, and a mixture of two or more of the above substances. The method for preparing a heat-dissipating paint according to claim 1 or 2, wherein the dispersing agent is selected from the group consisting of unsaturated polyamidamine and low molecular weight polyglycolic acid, high molecular polyamine and alkylamine, High-density polyamine and polyamine amine long-term bond acid amine and polar acid ester, acid group-containing polymer, copolymerized vinegar with pigment affinity group of 11.201002792, polymer conjugate with pigment-containing group a group consisting of a segmented agglomerate, an acid group-containing polymer, a polymer amide aminoguanamine, an acid pigment-containing affinity polymer interpolymer, an acrylic acid copolymer, and an unsaturated polyamine polyamine group. The method for preparing a heat-dissipating paint according to the invention of claim 2 or 2, wherein the smoothing agent is selected from the group consisting of polyoxymethane and organic stone. 5. The method of preparing a heat-dissipating paint according to claim 3, wherein the smoothing agent is selected from the group consisting of polysiloxane and organic hydrazine. 6 'A heat-dissipating coating' includes: 矽 resin's weight percentage accounts for 20~40% of the heat-dissipating coating as a whole; solvent '% by weight accounts for 3〇~5〇% of the heat-dissipating coating as a whole; The agent's weight percentage accounts for 〇〇~5 〇% of the heat-dissipating paint as a whole; V, · Zinc oxide's weight percentage accounts for 0.1~5.0% of the heat-dissipating paint as a whole; The heat-dissipating paint is 5~40% of the whole; 15 powder's weight percentage accounts for 5~40% of the whole heat-dissipating paint; the dispersant and the smoothing agent, the weight percentage thereof accounts for 整体.〇~5.0% of the heat-dissipating paint as a whole. 〇7 · The method for preparing a heat-dissipating paint according to claim 6 of the patent application, 12 201002792 wherein the 5 hai/grain agent is selected from the group consisting of methyl ethyl ketone, chloroform, dichloro decane, glacial acetic acid, benzotoluene, and a stupid And a group consisting of propylene glycol oxime ether acetate, n-butyl acetate, dimethyl hydrazine, σ 駄 methyl ester, and a mixture of any two or more of the foregoing. 8. The method of preparing a heat-dissipating paint according to claim 6 or 7, wherein the dispersing agent is selected from the group consisting of unsaturated polyamidamine and low molecular weight polyorganisms, ruthenium polyamines and alkanes Amine, high molecular weight polyamine and polyamine oxime amine, long chain polyamine and polar acid ester, acid group polymer, copolyester with pigment affinity group, polymer with pigment-containing group a group consisting of a copolymer body, an acid group-containing polymer, a polymer alkyl alcohol aminoguanamine, an acid pigment-containing affinity polymer interpolymer, an acrylic acid copolymer, and an unsaturated polyamine polyamine . 9. The method of preparing a heat-dissipating paint according to claim 7 or 7, wherein the smoothing agent is selected from the group consisting of polysiloxane and organic hydrazine. L 10. The method of preparing a heat-dissipating paint according to claim 8 wherein the smoothing agent is selected from the group consisting of polysiloxane and organic hydrazine. XI. Schema: as the next page 13