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Effect of Improving the Slip Properties of the Organic Materials on the Inorganic Filler in Heat Dissipated Pad
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作者 meehye oh Yeoseong Yoon +1 位作者 Dongjoon Moon Eunjin Jang 《Materials Sciences and Applications》 2021年第12期595-602,共8页
The heat dissipated pad is made of composite mixing silicon or epoxy resin with thermal conductive inorganic fillers. The heat-dissipation material improves performance as the amount of thermal conductivity filler inc... The heat dissipated pad is made of composite mixing silicon or epoxy resin with thermal conductive inorganic fillers. The heat-dissipation material improves performance as the amount of thermal conductivity filler increases. However, the optimum recipe should be determined by considering the price and pad formability. In this study, high performance thermal pad is made of silicon resin mixed with Al2O3 as a thermally conductive filler. Since Al2O3 is low cost, it can use much filler. Al2O3 has improved slip-ability with organic coating on it to increase the viscosity of the slurry. The same process and the same recipe, could maximize the amount of the filler. As a result, the thermal conductivity is lower by 10%. But the viscosity is reduced by 60%, too. So form-ability is getting priority. 展开更多
关键词 Slip Property Organic Coat Slurry Flow-Ability Thermal Conductivity Heat Dissipated Pad
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Study of Dielectric and Thermal Conductivity Characteristics of Polyimide Composite
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作者 meehye oh Yeoseong Yoon +1 位作者 Eunjin Jang Dongjoon Moon 《Materials Sciences and Applications》 2019年第3期197-204,共8页
The graphene is used to enhance the thermal conductivity, but it is difficult to obtain uniform dispersion and low dielectric property. We fabricate the polyimide composite with high thermal conductivity and low diele... The graphene is used to enhance the thermal conductivity, but it is difficult to obtain uniform dispersion and low dielectric property. We fabricate the polyimide composite with high thermal conductivity and low dielectric property. It changes the filler contents, and examines curing time and dispersion. The dispersion characteristics were quantified by absorbance measurement. The graphene 0.1 wt% and BN 0.5 wt% polyimide composites show a thermal conductivity of 6.6 W/m&reg;K by LFA (Laser Flash Analysis) and a dielectric constant of 4.6@10 GHz by SPDR (Split Post Dielectric Resonators). 展开更多
关键词 DIELECTRIC PROPERTY THERMAL CONDUCTIVITY POLYIMIDE Composite FLEXIBLE PCB
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