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Numerical simulation of conventional capillary flow and no-flow underfill in flip-chip packaging

✍ Scribed by Tomohisa Hashimoto; Tanifuji Shin-ichiro; Koji Morinishi; Nobuyuki Satofuka

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
398 KB
Volume
37
Category
Article
ISSN
0045-7930

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✦ Synopsis

We developed a numerical method for simulating the underfill flow of conventional capillary flow and no-flow types in flip-chip packaging. The analytical models for the two types of underfill encapsulation processes are proposed. In the capillary flow type, the underfill material is driven into the cavity with solder bump by the surface tension with an effect of contact angle as the capillary action. In the noflow type, the movement of IC chip during the reflow attachment is controlled by an appropriate loading to get the proper interconnect between IC chip and substrate. In both types, the flow behavior and filling time of underfill material in underfilling encapsulation process are investigated, taking the fluid dynamic force acting on the solder bump into account. It is found that the proposed analytical models have a considerable potential for predicting the underfill flow.

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Study on the Curing Process and the Gelation of Epoxy/Anhydride System for No-Flow Underfill for Flip-Chip Applications
✍ Zhuqing Zhang; Erin Beatty; C. P. Wong 📂 Article 📅 2003 🏛 John Wiley and Sons 🌐 English ⚖ 250 KB

## Abstract No‐flow underfill is used in the assembly of microelectronics to increase the productivity and to decrease the cost of the flip‐chip manufacturing. The curing process, especially the gelation of the no‐flow underfill, is essential for the yield and reliability of the flip‐chip assembly.