High impact of peeling stresses on solder joint reliability, and how to account for these stresses in failure criteria, are discussed. [S1043-7398(00)00803-3]

1.
Tsao
,
P.-H.
,
Chang
,
L. C.
,
Chen
,
T. C.
,
Haung
,
C.
, and
Chen
,
C. Z.
,
1998
, “
Investigation of the Lead-On-Chip Package’s Reliability
,”
ASME J. Electron. Packag.
,
120
, pp.
171
174
.
2.
Visvanadham, P., Stennett, M., Emerick, A., and Haggett, R., 1993, “Second Level Assembly and Reliability Aspect of TSOPs,” Proc. of ASME-EEP, Sept., 1127–1134.
3.
The American Society for Metals, 1948, “Metals Handbook,” 1948 Edition, p. 1144.
4.
Engelmaier, W., and Fuentes, B., 1995, “Alloy-42—a Material To Be Avoided for Surface Mount Component Leads and Lead Frames,” NEPCON-West, pp. 1730–1742.
5.
Engelmaier
,
W.
,
1983
, “
Fatigue Life of LLCC Solder Joints During Power Cycling
,”
CHMT
,
6
, No. 3, Sept.
6.
Engelmaier, W., 1984, “Functional Cycling and SM Attachment Reliability,” ISHM Technical Monograph Series, 6984-002, pp. 84–114.
7.
Solomon, H. D., 1986, “Creep, Strain Rate Sensitivity, and Low-Cycle Fatigue of 60-40 Solder,” GE Technical Information Series, Sept.
8.
Shine, M. C., and Fox, L. R., 1987, “Fatigue of Solder Joints in Surface Mount Devices,” Low Cycle Fatigue—ASTM Special Technical Publication 942, 588–610.
9.
Iannuzzelli, R., 1990, “Validation of Module Assembly Physical Models,” 40th ECTC, May 21–23.
10.
Knecht, S., and Fox, L., 1991, “Integrated Matrix Creep: Application to Accelerated Testing and Lifetime Prediction,” Solder Joint Reliability, Ed. J. H. Lau.
11.
Knecht, S., 1990, “Integrated Matrix Creep: Application to Lifetime Prediction of Eutectic Tin-Lead Solder Joints,” Mater. Res. Soc. Symp. Proc.
12.
Mohr
,
O.
,
1900
, “
Welche Umsta¨ande bedingen die Elastizita¨tgrenze und den Bruch eines Materials?
Zeitschrift des Vereines deutscher Ingenieure
,
44
, pp.
1524
1530
.
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