基于烧结模贴材料的先进热界面技术的可靠性

19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 2013-12-02 DOI:10.1109/THERMINIC.2013.6675229

J. Heilmann, I. Nikitin, D. May, K. Pressel, B. Wunderle

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引用次数: 0

摘要

本文提出了金属基热界面寿命终止预测的机械加速度准则。我们采用了一种先进的纳米效应烧结银层作为模具与钢衬底之间的界面材料，该材料具有良好的导电性和导热性。计划进行两种类型的实验/模拟。通过热循环对试件进行快速疲劳破坏和热应变疲劳的力学4-pt弯曲实验进行比较。制造的样品设计用于这两种情况。利用有限元模型可以模拟累积的von Mises应变作为失效参数，从而生成寿命模型。大部分工作目前正在进行中，结果将很快作为完整的论文交付。

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Reliability of advanced thermal interface technologies based on sintered die-attach materials

This paper proposes a guideline for the mechanical acceleration of end-of-lifetime prognostics of metal based thermal interfaces. As die attach material, we used an advanced nano-effect sintered silver layer as interface between die and steel substrate which has very good electrical and thermal conductivities. Two types of experiments/simulations are scheduled. A mechanical 4-pt bending experiment to cause the specimens to undergo fatigue failure rapidly as well as a thermal strain induced fatigue by thermal cycling for comparison. The manufactured specimens are designed to be used for both. With a Finite Element (FE)-model it is possible to simulate the accumulated von Mises strain as failure parameter to generate a lifetime model. Most of the work is currently in progress and results will be delivered soon as full paper.

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19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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