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Far-infrared thermal conductive slurry and preparation method and application thereof

A far-infrared and far-infrared powder technology, which is applied in applications, household utensils, inks, etc., can solve the problems of not having the ability to release hydroxyl anions for antibacterial, antibacterial and air purification, the far-infrared radiation rate is not high enough, and the effect of physical therapy and health care is low. , to achieve good self-limiting temperature effect, strong radiation effect and good stability

Active Publication Date: 2018-05-08
深圳埃法智能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, the carbon-based electrothermal ink in the prior art, after being powered on, at a certain temperature, the far-infrared radiation rate is not high enough, the effect on the human body is weak, the effect of physical therapy and health care is low, and the temperature required to produce far-infrared radiation is high. Generally, it needs to be above 150°C to have strong radiation, and it does not have the functions of releasing hydroxyl anions, antibacterial and antibacterial, and air purification.

Method used

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  • Far-infrared thermal conductive slurry and preparation method and application thereof
  • Far-infrared thermal conductive slurry and preparation method and application thereof
  • Far-infrared thermal conductive slurry and preparation method and application thereof

Examples

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preparation example Construction

[0090] As a preferred technical solution of the present invention, the preparation method of the pyrrole-modified far-infrared powder at least includes the following steps:

[0091] Dissolve 0.01g of cetyltrimethylammonium bromide in 30mL of deionized water, add 3g of the far-infrared powder into the solution, ultrasonically disperse for 30-60min, add 80μL of pyrrole, and stir for 10min; 5 mL of 1 mol / L hydrochloric acid aqueous solution containing 0.2 g of ammonium persulfate was gradually added dropwise to the above solution, reacted under ice bath for 10 h, added 2 mL of methanol to terminate the reaction, filtered with suction, and washed the filtrate repeatedly with methanol and distilled water until pH = 7. Vacuum-dry at 60°C for 12 hours to obtain the pyrrole-modified far-infrared powder.

[0092] Cetyltrimethylammonium bromide, CAS: 57-09-0, was purchased from Sinopharm Chemical Reagent Co., Ltd.

[0093] Pyrrole, CAS: 109-97-7, purchased from Sinopharm Chemical Reage...

Embodiment 1

[0132] A far-infrared heat-conducting paste, which comprises at least the following components in parts by weight: 7 parts by weight of resin binder A; 1 part by weight of resin binder B; 18 parts by weight of conductive filler; 3 parts by weight of far-infrared powder; Agent 6 parts by weight; Solvent 19 parts by weight.

[0133] The far-infrared powder is pyrrole-modified far-infrared powder.

[0134] The preparation method of the pyrrole-modified far-infrared powder at least comprises the following steps:

[0135] Dissolve 0.01g of cetyltrimethylammonium bromide in 30mL of deionized water, add 3g of the far-infrared powder into the solution, ultrasonically disperse for 50min, add 80μL of pyrrole, and stir for 10min; Add 5 mL of 1 mol / L hydrochloric acid aqueous solution containing 0.2 g of ammonium persulfate gradually to the above solution dropwise, react in an ice bath for 10 h, add 2 mL of methanol to terminate the reaction, filter with suction, and wash the filtrate re...

Embodiment 2

[0144] A kind of far-infrared heat-conducting slurry, by weight, at least includes the following components: 15 parts by weight of resin binder A; 6 parts by weight of resin binder B; 30 parts by weight of conductive filler; 12 parts by weight of far-infrared powder; 15 parts by weight of agent; 21 parts by weight of solvent.

[0145] The far-infrared powder is pyrrole-modified far-infrared powder.

[0146] The preparation method of the pyrrole-modified far-infrared powder is the same as that in Example 1.

[0147] The preparation method of the far-infrared heat-conducting paste is the same as in Example 1.

[0148] The resin binder A is polyamide resin, purchased from Anqing Hongyu Chemical Co., Ltd., the brand is HY-608; the resin binder B is epoxy resin, purchased from Wuxi Xinyehao Chemical Co., Ltd. , the grade is E-52 (618); the conductive filler is aluminum-doped zinc oxide powder, purchased from Shenzhen Jingcai Chemical Co., Ltd., and the model is AZO-W; the far-inf...

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Abstract

The invention relates to the field of thermal conductive printing ink, in particular to a far-infrared thermal conductive slurry, a preparation method and application thereof. The far-infrared thermalconductive slurry is prepared from, by weight, 7-15 parts of resin binder A, 1-6 parts of resin binder B, 18-30 parts of conductive fillers, 3-12 parts of far infrared powder, 6-15 parts of additivesand 30-50 parts of solvent, wherein the ratio of the total mass of the resin binder to the mass of the solvent is 1:1-5.

Description

technical field [0001] The invention relates to the field of heat-conducting inks, in particular to a far-infrared heat-conducting slurry and its preparation method and application. Background technique [0002] Carbon-based heat-conducting ink has good adhesion on phenolic paper board, epoxy glass fiber board, polyethylene terephthalate (PET) film board and flexible board, and has excellent printability, heat resistance and moisture resistance It is widely used in far-infrared drying ovens, incubators, electric blankets, sauna rooms, circuit boards, electric floor heating panels and greenhouse electric heating and other fields. At present, in the application of carbon-based electrothermal ink in far-infrared radiation, the principle is that when the carbon-based electrothermal ink is energized, the carbon powder emits 8-15 μm far-infrared light, which produces far-infrared radiation, which is easy for the human body to absorb and beneficial to the human body. Healthy, able...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D11/102C09D11/03C09D11/107C09D11/106
CPCC09D11/03C09D11/102C09D11/106C09D11/107
Inventor 徐若谷徐若飞
Owner 深圳埃法智能科技有限公司
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