基于翘曲的电子封装聚合物固化轮廓优化

Fifth International Conference onElectronic Packaging Technology Proceedings, 2003. ICEPT2003. Pub Date : 1900-01-01 DOI:10.1109/EPTC.2003.1298757

D.G. Yang, K. Jansen, Q. Li, J. Liang, L. Ernst, G.Q. Zhang

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引用次数: 4

摘要

工艺引起的翘曲可能对电子封装造成严重的问题。本文提出了一种实用的方法来预测热固性聚合物的固化过程和随后的冷却阶段所引起的翘曲，并提出了一种优化方法来最小化翘曲。采用与固化相关的粘弹性本构模型来描述固化过程中的行为演变。使用DMA和DSC测量的组合方法表征了治疗相关参数。固化收缩是通过密度测量来表征的，并作为初始应变应用于环氧树脂的每一个时间增量。通过基于仿真的优化程序，可以得到一个最佳的固化轮廓，以最小化工艺引起的翘曲。

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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Warpage-based optimization of the curing profile for electronic packaging polymers

Process-induced warpage may cause serious problems for the electronic packages. In this paper, a practical methodology is developed to predict the warpage caused by the curing process of the thermosetting polymer and the subsequent cooling down phase, and an optimization method is proposed to minimum the warpage. A cure-dependent viscoelastic constitutive model is applied to describe the behavior evolution during the curing process. The cure-dependent parameters were characterized using a combinational approach of DMA and DSC measurements. Cure shrinkage was characterized with density measurement and is applied to epoxy as an initial strain for each time increment. With the simulation-based optimization procedure, an optimal curing profile could be obtained to minimise the process-induced warpage.

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Fifth International Conference onElectronic Packaging Technology Proceedings, 2003. ICEPT2003.

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