Comparative Analysis of Heat Sink and Adhesion Properties of Thermal Conductive Particles for Sheet Adhesive (열전도성 입자를 활용한 시트용 점착제의 점착 특성과 방열특성 연구)

Yeong Su Kim (김영수); 이승한; 박상하; 최정우; 공이성; 윤관한; Min, Byung-Ghyl (민병길)

Comparative Analysis of Heat Sink and Adhesion Properties of Thermal Conductive Particles for Sheet Adhesive

Textile Coloration and Finishing
Abbr : Text. Color. and Finish.
2016, 28(1), pp.48-56
Publisher : The Korean Society Of Dyers And Finishers
Research Area : Engineering > Fiber Engineering > Dyeing Engineering

Yeong Su Kim ¹, 이승한 ², 박상하 ¹, 최정우 ¹, 공이성 ¹, 윤관한 ¹, Min, Byung-Ghyl ¹

¹금오공과대학교
²KIT융합기술원

Accredited

ABSTRACT

Improvement of heat sink technology related to the continuous implementation performance and extension of device-life in circumstance of easy heating and more compact space has been becoming more important issue as multi-functional integration and miniaturization trend of electronic gadgets and products has been generalized. In this study, it purposed to minimize of decline of the heat diffusivity by gluing polymer through compounding of inorganic particles which have thermal conductive properties. We used NH-9300 as Base resin and used inorganic fillers such as silicon carbide(SiC), aluminum nitride(AIN), and boron nitride(BN) to improve heat diffusivity. After making film which was made from 100 part of acrylic resin mixed hardener(1.0 part more or less) with inorganic particles. The film was matured at 80℃ for 24h. Diffusivity were tested according to sorts of particles and density of particles as well as size and structure of particle to improve the effect of heat sink in view of morphology assessing diffusivity by LFA (Netzsch/ LFA 447 Nano Flash) and adhesion strength by UTM (Universal Testing Machine). The correlation between diffusivity of pure inorganic particles and composite as well as the relation between density and morphology of inorganic particles has been studied. The study related morphology showed that globular type had superior diffusivity at low density of 25% but on the contarary globular type was inferior to non-globular type at high density of 80%.

KEYWORDS

diffusivity, heat sink, thermal conductivity, adhesive, adhesion, inorganic composite, acrylic adhesive

Citation status

* References for papers published after 2023 are currently being built.

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