A Review of the Performance and Characterization of Conventional and Promising Thermal Interface Materials for Electronic Package Applications
2019
Thermal interface materials (TIMs) play a key role in reducing
thermal resistancebetween jointed solid surfaces in order to increase
thermal transferefficiency. A TIM is a thermally conductive material which is applied between the interfaces of two components (such as circuit board and heat sinks) to enhance the thermal conductance between them. The present paper provides a detailed review in order to characterize conventional and advanced TIMs in terms of thermal performance. The paper also discusses the measurement of TIM performance using different techniques. It was found that
greasesare the most widely used TIMs and offer
thermal resistancein the range of 0.1–1 cm2°C/W. However,
greasesare messy and difficult to apply and remove due to their high viscosity. Moreover, they have reliability issues such as pump-out, phase separation and dry-out, which limits their use as an efficient TIM. The
thermal resistanceof TIMs which contain carbon nanotubes (CNT) fall in the range of 0.01–0.19 cm2°C/W. However, the use of CNT as a TIM at high temperatures does not allow for uniform distribution of heat on cooling of
electronic packagingsystems. Although TIMs with the addition of nano--metal particles are considered promising, it is necessary to carry out extensive research on CNT as a TIM.
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