Analysis of Grain Growth Behavior of Intermetallic Compounds on Plated Pure Sn for Micropump Solder Caps
Hwa-Sun Park, Chang-Yun Na, Jong-Wook Kim, Woon-Seok Jung, Jae-Hyuk Park, Jong-Woo Lim, Youn-Goo Yang

TL;DR
This paper studies how repeated heating cycles affect the grain structure of intermetallic compounds in solder caps used in micropumps.
Contribution
The study reveals how reflow cycles impact the morphology and growth of IMC grains in pure tin microbumps.
Findings
The average number of IMC grains decreases linearly up to five reflow cycles and then gradually.
The average surface area of IMC grains increases proportionally with the number of reflow cycles.
After more than ten reflow cycles, solder cap pure Sn is reduced by over 50% due to IMC grain growth.
Abstract
We evaluated for the morphology and growth behavior of IMC grain according to number of reflows of solder cap pure Sn microbumps. In the structure of Ni barrier/Cu layer between Cu pillar and pure Sn, solder cap pure Sn on the top layer was analyzed for the behavior change of IMC grain according to the number of reflows. The height and diameter of the bumps on the wafer were designed to be 40 μm and 30 μm, respectively. The vertical structure of the microbump consisted of Ti/Cu (1000 Å/2000 Å), Cu pillar (20 µm), Ni barrier (3 µm), and Cu (1 µm). The overall height of the bump is about 40 μm. Additionally, the height of the solder cap pure Sn as the last layer is 20 μm. The diameter of the bump is 30 μm. It was formed using plating. After plating to solder cap Sn, it was finally formed for the microbump using reflow. Samples were prepared according to the number of reflows (1, 3, 5, 7,…
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Taxonomy
TopicsElectronic Packaging and Soldering Technologies · Aluminum Alloy Microstructure Properties · Recycling and Waste Management Techniques
