DocumentCode
2166578
Title
Interface microstructure and mechanical fatigue behavior of Sn63Pb37 on electroplated Cu and Ni
Author
Zhang, Charles ; Shang, Jian-Ku ; Liu, Pilin
Author_Institution
Semicond. Products Sector, Motorola Inc., Tempe, AZ, USA
fYear
2000
fDate
2000
Firstpage
138
Lastpage
141
Abstract
Electroplated Cu and Ni are commonly used as under bump metallurgy (UBM) in flip chip bumping due to their good wetting to common solders. The objective of this study was to understand interface microstructure and mechanical fatigue property of eutectic SnPb solder on electroplated Cu and Ni. The study focused on the intermetallic compound morphology, its distribution and the impact of such on interfacial fatigue life under controlled cyclic load. Flexural peel technique was used to study the fatigue crack propagation along the interface of solder and intermetallics. Interface microstructure, fatigue crack profile and crack surface were analyzed by both optical and scanning electron microscopies. The experimental results showed the solder joint fatigue life depends strongly on under bump metallurgy materials and the interfacial microstructure, especially the intermetallic phase and their distribution at the interfaces. For Cu, a continuous coarse cell-shape Cu6Sn5 intermetallic formed at the Cu/solder interface and the fatigue crack propagated along this interface under relatively small load. For Ni, it was clearly seen that Ni effectively limited the isotropic growth of intermetallics at the interface. Moreover, the needle-shape Ni3Sn4 intermetallic compound tends to grow into the bulk of solder which results in a zigzag intermetallics and solder interface. This zigzag interface is able to deflect the crack tip into solder and divert the crack propagation direction. Consequently, a relatively high resistance to fatigue crack was observed at this interface. The better mechanical fatigue life of Ni makes it a better choice for flip chip UBM selection
Keywords
copper; electroplated coatings; eutectic alloys; fatigue; fatigue cracks; flip-chip devices; interface structure; lead alloys; nickel; soldering; tin alloys; Sn63Pb37-Cu; Sn63Pb37-Ni; SnPb eutectic alloy; crack propagation; electroplated metal substrate; flexural peel technique; flip-chip interconnect; interface microstructure; intermetallic compound morphology; mechanical fatigue; optical microscopy; scanning electron microscopy; solder joint; under bump metallurgy; Fatigue; Flip chip; Intermetallic; Mechanical factors; Microstructure; Morphology; Optical microscopy; Optical propagation; Surface cracks; Tin;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Components & Technology Conference, 2000. 2000 Proceedings. 50th
Conference_Location
Las Vegas, NV
Print_ISBN
0-7803-5908-9
Type
conf
DOI
10.1109/ECTC.2000.853135
Filename
853135
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