DocumentCode
2070439
Title
Transient thermal analysis of electronic packages by the boundary element method
Author
Guven, I. ; Chan, C.L. ; Mad, E.
Author_Institution
Dept. of Aerosp. & Mech. Eng., Arizona Univ., Tucson, AZ, USA
fYear
1997
fDate
18-21 May 1997
Firstpage
279
Lastpage
288
Abstract
The fabrication of electronic packages involves heating and then cooling from high processing temperatures. Because these devices consist of bonded materials with different thermal and mechanical properties, high thermo-mechanical stresses develop due to thermal and stiffness mismatches of bonded materials at regions with geometric and/or material discontinuities. These high stresses may result in crack initiations, leading to delaminations. Therefore, accurate temperature and flux distributions are critical when computing thermo-mechanical stresses, knowledge of which is essential for reliable designs. This study presents an analysis method based on the Boundary Element Method (BEM) to investigate the transient thermal response of electronic packages consisting of dissimilar materials while subjected to general boundary conditions. In order to demonstrate its capability, a chip on a substrate configuration subject to natural cooling is considered. The boundary conditions across the interfaces between the chip and the adhesive and adhesive and substrate are matched through exact expressions. The results capture the singular flux field arising from the mismatch in the thermal conduction coefficients and geometric discontinuity. The comparison of the results with those obtained from finite element analysis shows that BEM is rather robust and efficient for this class of transient conduction analyses
Keywords
boundary-elements methods; packaging; thermal analysis; transient analysis; adhesive; bonded material; boundary element method; chip substrate interface; cooling; cracking; delamination; discontinuity; electronic package; flux distribution; stiffness mismatch; temperature distribution; thermal conduction mismatch; thermomechanical stress; transient thermal analysis; Bonding; Boundary conditions; Electronic packaging thermal management; Electronics cooling; Fabrication; Heating; Temperature; Thermal stresses; Thermomechanical processes; Transient analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Components and Technology Conference, 1997. Proceedings., 47th
Conference_Location
San Jose, CA
ISSN
0569-5503
Print_ISBN
0-7803-3857-X
Type
conf
DOI
10.1109/ECTC.1997.606182
Filename
606182
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