Enhanced Thermal Conductivity of the Underfill Materials Using Insulated Core/shell Filler Particles for High Performance Flip Chip Applications

2017 IEEE 67th Electronic Components and Technology Conference (ECTC) Pub Date : 2017-05-01 DOI:10.1109/ECTC.2017.196

Tae-Ryong Kim, Kisu Joo, B. Lim, Sung-Soon Choi, B. Lee, E. Yoon, Se Young Jeong, M. Yim

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引用次数: 4

Abstract

In this study, we investigated the correlation between thermal conductivity and insulative shell thickness of SiO2 coated Ag (SCA) particles for the thermal filler material in the high performance underfill with focus on improved thermal conductivity. We synthesized the coating of various SiO2 insulation layer on the surface of spherical Ag powder and used them for underfill material formulation to achieve >2 W/mK grade high thermal conductivity capillary underfill. In order to achieve powder distribution with gaussian curve additional spherical alumina was mixed with SCA powder. This mixture blended with epoxy based multifunctional resin matrix. Trend profiling of thermal conductivity and electrical resistivity as a function of SiO2 shell thickness were performed. In addition, correlation of thermal conductivity and viscosity were investigated. Resulting capillary underfill with SCA powders showed 2.14 W/mK thermal conductivity and passed thermal cycling test corresponding to JEDEC LEVEL 3.

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在高性能倒装芯片应用中使用绝缘芯/壳填料颗粒增强下填充材料的导热性

在本研究中，我们研究了用于高性能底填料的SiO2包覆Ag (SCA)颗粒的导热性与隔热壳厚度的相关性，重点研究了导热性的改善。在球形银粉表面合成了各种SiO2保温层涂层，并将其用于下填料配方，实现了>2 W/mK级的高导热毛细管下填料。为了使粉末呈高斯曲线分布，在SCA粉末中加入了球形氧化铝。该混合物与环氧基多功能树脂基体混合而成。进行了导热系数和电阻率随SiO2壳层厚度的变化趋势分析。此外，还研究了导热系数与粘度的相关性。制备的SCA粉末毛细管下填料导热系数为2.14 W/mK，通过JEDEC 3级热循环测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 67th Electronic Components and Technology Conference (ECTC)

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