DocumentCode
1095108
Title
Interfacial behavior of a flip-chip structure under thermal testing
Author
Zhong, Z.W. ; Wong, K.W. ; Shi, X.Q.
Author_Institution
Nanyang Technol. Univ., Singapore
Volume
27
Issue
1
fYear
2004
Firstpage
43
Lastpage
48
Abstract
In this paper, the interfacial behavior of a flip-chip structure under thermal testing was investigated using high sensitivity, real-time Moire interferometry. The model package studied was a sandwich structure consisting of a silicon chip, epoxy underfill and FR4 substrate. The behavior of FR4-underfill and silicon-underfill interfaces of the specimen under certain thermal loading was examined. The results show that the shear strain variation increases significantly along the interfaces, with the maximum shear strain concentration occurring at the edge of the specimen. At the edge, the maximum shear strain occurs at the silicon-underfill interface, and the FR4-underfill interface experiences a slightly lower shear strain. The creep effect is more dominant in the FR4-underfill interface when the specimen is heated for 2 h at 100°C. Upon cooling to 20°C, both the interfaces of the specimen experience partial strain recovery.
Keywords
creep; flip-chip devices; interface phenomena; light interferometry; moire fringes; shear deformation; silicon; testing; thermal stress cracking; 100 C; 2 h; 20 C; FR4 substrate; Moire interferometry; creep; epoxy underfill; flip-chip structure; sandwich structure; shear strain; silicon chip; thermal loading; thermal stress; thermal testing; underfill interfaces; Atomic force microscopy; Capacitive sensors; Electronic packaging thermal management; Integrated circuit technology; Microelectronics; Optical interferometry; Silicon; Strain measurement; Testing; Thermal stresses; Creep; flip chip; interfacial behavior; packaging; real-time Moiré interferometry; shear strain; thermal stress; thermal testing;
fLanguage
English
Journal_Title
Electronics Packaging Manufacturing, IEEE Transactions on
Publisher
ieee
ISSN
1521-334X
Type
jour
DOI
10.1109/TEPM.2004.830516
Filename
1331574
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