新型各向同性导电胶的热传导性能

2017 23rd International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 2017-09-01 DOI:10.1109/THERMINIC.2017.8233820

H. Kristiansen, K. Redford, S. Helland, Erik Kalland, Nina H. H⊘glund, M. A. Ras, C. Grosse, B. Hay, L. Ramiandrisoa, G. Davée, S. Gomés, S. Pettersen

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引用次数: 1

摘要

研制了一种新型的低银各向同性导电胶(ICA)。导电颗粒是基于镀银的聚合物球。采用基于稳态法和非接触式瞬态法的两种不同表征技术研究了ICAs的热性能。结果表明，导热系数与导电颗粒的体积分数和银镀层厚度密切相关。对于含银量小于4%的粘合剂，其导热系数(κ)大于2.8 W/mK。然而，在渗流阈值以上，使用稳态方法和瞬态方法获得的结果之间存在显著差异。一个可能的原因是样品制备过程中不同的体积限制。

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Thermal conduction in novel isotropic conductive adhesive

A novel and low silver content isotropic conductive adhesive (ICA) has been developed and characterised. The conductive particles are based on a silver coated polymer sphere. The thermal properties of the ICAs have been investigated by two different characterisation techniques based on a steady state method and a contactless transient method. Results show that the thermal conductivity is strongly correlated with both volume fraction and silver coating thickness of conductive particles. A thermal conductivity (κ) of more than 2.8 W/mK has been obtained for an adhesive containing less than 4% volume of silver. However, a significant difference between the results obtained using the steady state and transient methods has been observed above the percolation threshold. One possible reason for this is the different volumetric constraints during the sample preparation.

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2017 23rd International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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