CN106752695A - High IR emissivity radiating antiradar coatings for electronic device and preparation method thereof - Google Patents

Abstract

The present invention relates to coating material production technical field, more particularly to one kind is mainly used in miniature electric component outer surface high IR emissivity radiating antiradar coatings and preparation method thereof, its by following component by weight：30 50 parts of modifying epoxy resin by organosilicon, 10 25 parts of titanium dioxide, 5 15 parts of graphite powder, 8 20 parts of cupric oxide powder, 10 20 parts of chrome green powder, 8 18 parts of nickel oxide, 5 15 parts of silicon dioxide powder；Used on electronic component outer surface, electronic component is prevented due to using the excessive damage of power, prevent electronic component non-normal working caused by Electromagnetic Interference simultaneously, it is also possible to play a certain degree of stealthy effect, coating also greatlys save cost while multifunction is realized.

Description

High IR emissivity radiating antiradar coatings for electronic device and preparation method thereof

Technical field

The present invention relates to coating material production technical field, more particularly to one kind is mainly used in miniature electric component outer surface With high IR emissivity radiating antiradar coatings and preparation method thereof.

Background technology

With the fast development of electronic technology and electronic industry, some new technologies, new product are emerged in multitude.Electronics unit device Part, the update pattern of electronic industry will be naturally also adapted to as a part therein with development pattern at full speed.At present Electronic component mainly experienced classical electron component, miniaturized electronic component, general microelectronic component, the micro- electricity of intelligence Sub- component epoch, future is marching toward the Quantum Electronics component epoch.So, with the progressively miniaturization of electronic component with And multifunction, the radiating of electronic component certainly will will be caused to go wrong, especially some high-power electronic components, its Substantial amounts of heat will be produced in running.Will be significantly if so big heat gathers electronic component surface for a long time Shorten its service life and service efficiency, result even in burning for electronic component, serious possibility causes fire etc. can not The consequence of appraisal.Simultaneously as the fast development of contemporary science and technology, is all by substantial amounts of electronics for most equipment Component is constituted, and so, Electromagnetic Interference certainly will be produced between electronic component, and ultimately resulting in electronic component can not be normal Work and disabler.But require that electronic component surface has certain absorbing property for some specific occasions, with reality The a certain degree of stealthy function of existing electronic component.So an urgent demand one kind is sent out for electronic component outer surface with high IR Penetrate rate radiating antiradar coatings.

The content of the invention

The invention aims to provide a kind of Novel electronic devices high IR emissivity radiating antiradar coatings and its Preparation method, to improve the thermal diffusivity and wave absorbtion of electronic component, prevents electronic equipment damage in use, while The anti-electromagnetic wave interference of electronic component is realized, and then reaches the multifunctionality of electronic component.

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：Modifying epoxy resin by organosilicon 30-50 parts, titanium dioxide 10-25 parts, graphite Powder 5-15 parts, cupric oxide powder 8-20 parts, 10-20 parts, nickel oxide 8-18 parts, silicon dioxide powder 5-15 parts of chrome green powder.

Preferably, described Novel electronic devices with high IR emissivity radiate antiradar coatings by following component according to weight Amount number composition：Modifying epoxy resin by organosilicon 33-48 parts, titanium dioxide 12-23 parts, graphite powder 8-13 parts, cupric oxide powder 10- 18 parts, 13-18 parts, nickel oxide 10-15 parts, silicon dioxide powder 7-13 parts of chrome green powder.

It is further preferred that described Novel electronic devices with high IR emissivity radiate antiradar coatings by following component according to weight Number is constituted：45 parts of modifying epoxy resin by organosilicon, 17 parts of titanium dioxide, 10 parts of graphite powder, 15 parts of cupric oxide powder, three oxidations two 15 parts of chromium powder, 13 parts of nickel oxide, 11 parts of silicon dioxide powder.

A kind of Novel electronic devices preparation method of high IR emissivity radiating antiradar coatings, comprises the following steps：

The functional stuffings such as titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silicon dioxide powder are put 6h is dried in 70 DEG C of baking ovens；Then add the filler high speed ball milling mixing of above-mentioned drying equal in modifying epoxy resin by organosilicon Prepared high IR emissivity radiating antiradar coatings finished product after even.

The beneficial effects of the invention are as follows coating with thermal diffusivity and wave absorbtion, can make on electronic component outer surface With, prevent electronic component due to use the excessive damage of power, while preventing electronic component anon-normal caused by Electromagnetic Interference Often work, it is also possible to play a certain degree of stealthy effect.Coating also greatlys save cost while multifunction is realized.

Specific embodiment

With reference to specific embodiment, the present invention will be described in detail.

Specific embodiment 1：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：38 parts of modifying epoxy resin by organosilicon, 20 parts of titanium dioxide, graphite powder 12 Part, 17 parts of cupric oxide powder, 13 parts of chrome green powder, 12 parts of nickel oxide, 8 parts of silicon dioxide powder.

Preparation method：By titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silicon dioxide powder, on State during functional stuffing is put into 70 DEG C of baking ovens and dry 6h；Then add the filler of above-mentioned drying high in modifying epoxy resin by organosilicon Fast ball milling mixing is uniformly obtained high IR emissivity radiating antiradar coatings finished product afterwards.

Specific embodiment 2：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：40 parts of modifying epoxy resin by organosilicon, 18 parts of titanium dioxide, graphite powder 12 Part, 11 parts of cupric oxide powder, 18 parts of chrome green powder, 16 parts of nickel oxide, 12 parts of silicon dioxide powder.

Preparation method：By titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silicon dioxide powder, on State during functional stuffing is put into 70 DEG C of baking ovens and dry 6h；Then add the filler of above-mentioned drying high in modifying epoxy resin by organosilicon Fast ball milling mixing is uniformly obtained high IR emissivity radiating antiradar coatings finished product afterwards.

Specific embodiment 3：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：43 parts of modifying epoxy resin by organosilicon, 23 parts of titanium dioxide, graphite powder 10 Part, 12 parts of cupric oxide powder, 17 parts of chrome green powder, 14 parts of nickel oxide, 6 parts of silicon dioxide powder.

Preparation method：Titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silicon dioxide powder are put 6h is dried in 70 DEG C of baking ovens；Then add the filler high speed ball milling mixing of above-mentioned drying equal in modifying epoxy resin by organosilicon Prepared high IR emissivity radiating antiradar coatings finished product after even.

Specific embodiment 4：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：44 parts of modifying epoxy resin by organosilicon, 21 parts of titanium dioxide, 9 parts of graphite powder, 11 parts of cupric oxide powder, 14 parts of chrome green powder, 13 parts of nickel oxide, 13 parts of silicon dioxide powder.

Preparation method：Titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silicon dioxide powder are put 6h is dried in 70 DEG C of baking ovens；Then add the filler high speed ball milling mixing of above-mentioned drying equal in modifying epoxy resin by organosilicon Prepared high IR emissivity radiating antiradar coatings finished product after even.

Specific embodiment 5：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：30 parts of modifying epoxy resin by organosilicon, 10 parts of titanium dioxide, 5 parts of graphite powder, 8 parts of cupric oxide powder, 10 parts of chrome green powder, 8 parts of nickel oxide, 5 parts of silicon dioxide powder.

Preparation method：By above-mentioned titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silica Powder, above-mentioned functions filler dries 6h in being put into 70 DEG C of baking ovens；Then above-mentioned drying is added in modifying epoxy resin by organosilicon High IR emissivity radiating antiradar coatings finished product is obtained after filler high speed ball milling is well mixed.

Specific embodiment 5：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：30 parts of modifying epoxy resin by organosilicon, 10 parts of titanium dioxide, 5 parts of graphite powder, 8 parts of cupric oxide powder, 10 parts of chrome green powder, 8 parts of nickel oxide, 5 parts of silicon dioxide powder.

Preparation method：By above-mentioned titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silica Powder functional stuffing dries 6h in being put into 70 DEG C of baking ovens；Then add the filler of above-mentioned drying high in modifying epoxy resin by organosilicon Fast ball milling mixing is uniformly obtained high IR emissivity radiating antiradar coatings finished product afterwards.

Specific embodiment 6：

Ripple is inhaled in a kind of Novel electronic devices high IR emissivity radiating antiradar coatings, described high IR emissivity radiating Coating by following component by weight：50 parts of modifying epoxy resin by organosilicon, 25 parts of titanium dioxide, graphite powder 15 Part, 20 parts of cupric oxide powder, 20 parts of chrome green powder, 18 parts of nickel oxide, 15 parts of silicon dioxide powder.

Preparation method：By above-mentioned titanium dioxide, graphite powder, cupric oxide powder, chrome green powder, nickel oxide, silica Powder functional stuffing dries 6h in being put into 70 DEG C of baking ovens；Then add the filler of above-mentioned drying high in modifying epoxy resin by organosilicon Fast ball milling mixing is uniformly obtained high IR emissivity radiating antiradar coatings finished product afterwards.

Claims (4)

1. a kind of high IR emissivity for electronic device radiates antiradar coatings, it is characterised in that its by following component according to Ratio of weight and number is constituted：Modifying epoxy resin by organosilicon 30-50 parts, titanium dioxide 10-25 parts, graphite powder 5-15 parts, cupric oxide Powder 8-20 parts, 10-20 parts, nickel oxide 8-18 parts, silicon dioxide powder 5-15 parts of chrome green powder.

2. a kind of high IR emissivity for electronic device according to claim 1 radiates antiradar coatings, and its feature exists In the modifying epoxy resin by organosilicon is 33-48 parts, titanium dioxide 12-23 parts, graphite powder 8-13 parts, cupric oxide powder 10-18 Part, 13-18 parts, nickel oxide 10-15 parts, silicon dioxide powder 7-13 parts of chrome green powder.

3. a kind of high IR emissivity for electronic device according to claim 1 radiates antiradar coatings, and its feature exists In 45 parts of the modifying epoxy resin by organosilicon, 17 parts of titanium dioxide, 10 parts of graphite powder, 15 parts of cupric oxide powder, chrome green 15 parts of powder, 13 parts of nickel oxide, 11 parts of silicon dioxide powder.

4. a kind of side of the high IR emissivity radiating antiradar coatings for electronic device as described in claims 1 to 3 is prepared Method, it is characterised in that comprise the following steps：Titanium dioxide, graphite powder, cupric oxide powder, three are aoxidized two according to ratio of weight and number Chromium powder, nickel oxide and silicon dioxide powder dry 6h in being put into 70 DEG C of baking ovens；Then added in modifying epoxy resin by organosilicon The functional stuffing of above-mentioned drying, is obtained high IR emissivity radiating antiradar coatings after high speed ball milling is well mixed.