High-heat-conductivity electric-insulation heat-conducting silica gel gasket and preparation method thereof

A technology of insulation and heat conduction and silicone gasket, which is applied in the direction of chemical instruments and methods, heat exchange materials, etc., can solve the problems of insufficient thermal conduction channels of thermal silica gel, poor thermal conductivity of silica gel pad, and limited application range, etc., to achieve good insulation, Improved thermal conductivity and improved thermal conductivity

Active Publication Date: 2013-12-11
SHENZHEN HFC SHIELDING PRODS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] Heat is mainly transferred through three ways: heat conduction, heat convection and heat radiation. For heat-conducting silica gel, its main heat-conducting mechanism is through heat conduction. The heat-conducting silica gel currently used is insufficient in internal heat-conducting channels, resulting in the heat conduction of the silica gel pad. Poor performance limits its scope of application

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment example 1

[0042] A high-thermal-conductivity insulating and heat-conducting silicone gasket is prepared in the following manner:

[0043] (1) Screening of spherical alumina particles: Sieve 1000 parts by weight of spherical alumina particles through a sieve to obtain spherical alumina particles of two sizes, respectively, and the large particle size of spherical alumina particles is 70 -100μm, small particle size spherical alumina particle size is 4-6μm, the mass ratio of large and small particle size spherical alumina particles is 2:6;

[0044] (2) Sintering of spherical alumina particles: sintering spherical alumina particles with a mass ratio of 2:6 at a high temperature of 1200°C for 2 hours to obtain sintered spherical alumina particles;

[0045] (3) 5 parts by weight of methyl vinyl silicone rubber and 40 parts by weight of simethicone oil are added to a three-roll mill for grinding to obtain a uniformly mixed silicone rubber colloid;

[0046] (4) Put the ground silicone rubber m...

Embodiment example 2

[0051] A high-thermal-conductivity insulating and heat-conducting silicone gasket is prepared in the following manner:

[0052] (1) Screening of spherical alumina particles: Sieve 1000 parts by weight of spherical alumina particles through a sieve to obtain spherical alumina particles of two sizes, respectively, and the large particle size of spherical alumina particles is 70 -100μm, small particle size spherical alumina particle size is 4-6μm, the mass ratio of large and small particle size spherical alumina particles is 3:7:;

[0053] (2) Sintering of spherical alumina particles: sintering spherical alumina particles with a mass ratio of 3:7 at a high temperature of 1350°C for 2 hours to obtain sintered spherical alumina particles;

[0054] (3) Add 8 parts by weight of methyl vinyl silicone rubber and 53 parts by weight of dimethyl silicone oil to a three-roll mill for grinding to obtain a uniformly mixed silicone rubber colloid;

[0055] (4) Put the ground silicone rubber ...

Embodiment example 3

[0060] A high-thermal-conductivity insulating and heat-conducting silicone gasket is prepared in the following manner:

[0061] (1) Screening of spherical alumina particles: Sieve 1000 parts by weight of spherical alumina particles through a sieve to obtain spherical alumina particles of two sizes, respectively, and the large particle size of spherical alumina particles is 70 -100μm, small particle size spherical alumina particle size is 4-6μm, the mass ratio of large and small particle size spherical alumina particles is 4:7:;

[0062] (2) Sintering of spherical alumina particles: sintering spherical alumina particles with a mass ratio of 4:7 at a high temperature of 1500°C for 1.5 hours to obtain sintered spherical alumina particles;

[0063] (3) Add 15 parts by weight of methyl vinyl silicone rubber and 60 parts by weight of dimethyl silicone oil to a three-roll mill for grinding to obtain a uniformly mixed silicone rubber colloid;

[0064] (4) Put the ground silicone rubb...

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Abstract

The invention discloses a high-heat-conductivity electric-insulation heat-conducting silica gel gasket and a preparation method thereof. The preparation method comprises the following steps: taking the following raw materials in parts by weight: 600-1000 parts of spherical aluminum oxide, 5-15 parts of methylvinylsiloxane rubber, 30-70 parts of dimethyl silicon oil, 2-15 parts of hydrogen-containing silicon oil and 0.5-1.5 parts of catalyst; and screening the aluminum oxide particles, sintering, grinding the methylvinylsiloxane rubber and dimethyl silicon oil, stirring, vacuumizing, vulcanizing to form, and the like. The spherical aluminum oxide particles are screened and sintered to implement reasonable distribution of the aluminum oxide particles in the silica gel base and enhancement of the heat conductivity coefficient of the aluminum oxide particles; and the base material is sufficiently ground to implement sufficient fusion of the silica gel base and the aluminum oxide heat-conducting particles, thereby enhancing the heat-conducting property of the silica gel gasket. The silica gel gasket has favorable electric insulativity, and the heat conductivity coefficient is enhanced to 5.0W above.

Description

[0001] technical field [0002] The invention relates to a silica gel gasket and a preparation method thereof, in particular to a high thermal conductivity insulating and heat conduction silica gel gasket and a preparation method thereof. [0003] Background technique [0004] With the development of science and technology, electronic components are becoming more and more dense and miniaturized, which puts forward higher requirements for the stability of electronic devices. The reliability and performance of electronic products depend to a large extent Whether the heat dissipation material and heat dissipation scheme adopted are reasonable. Statistics show that for every 2°C increase in the temperature of electronic components, their reliability will decrease by 10%, and if the temperature decreases by 8°C, the life of electronic components will double. Therefore, thermal interface materials play an increasingly important role in the field of information technology. How t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L83/04C08L83/07C08L83/05C08K3/22C09K5/14
CPCC08L83/04C08G77/12C08G77/04C08G77/20C08L83/00C08K3/22C08K5/56
Inventor 谢佑南
Owner SHENZHEN HFC SHIELDING PRODS CO LTD
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