Solder joints in electronic assemblies are subjected to mechanical and thermal cycling. These cyclic loadings lead to the fatigue failure of solder joints involving damage accumulation, crack initiation, crack propagation, and failure. Aging leads to significant changes on the microstructure and mechanical behavior of solder joints. While the effect of thermal aging on solder behavior has been examined, no prior studies have focused on the effect of long-term room temperature aging (25 °C) on the solder failure and fatigue behavior. In this paper, the effects of long-term room temperature aging on the fatigue behavior of five common lead-free solder alloys, i.e., SAC305, SAC105, SAC-Ni, SAC-X-Plus, and Innolot, have been investigated. Several individual lead-free solder joints on printed circuited boards with two aging conditions (no aging and 4 years of aging) have been prepared and subjected to shear cyclic stress–strain loadings until the complete failure. Fatigue life was recorded for each solder alloy. From the stress–strain hysteresis loop, inelastic work and plastic strain ranges were measured and empirically modeled with the fatigue life. The results indicated that 4 years of room temperature aging significantly decreases the fatigue life of the solder joints. Also, inelastic work per cycle and plastic strain range are increased after 4 years of room temperature aging. The fatigue life degradation for the solder alloys with doped elements (Ni, Bi, Sb) was relatively less compared to the traditional SAC105 and SAC305.
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September 2018
Research-Article
Effect of Long-Term Room Temperature Aging on the Fatigue Properties of SnAgCu Solder Joint
Sinan Su,
Sinan Su
Department of Industrial and
Systems Engineering,
Auburn University,
3301 Shelby Center,
Auburn, AL 36849
Systems Engineering,
Auburn University,
3301 Shelby Center,
Auburn, AL 36849
Search for other works by this author on:
Nianjun Fu,
Nianjun Fu
Department of Mechanical Engineering,
Auburn University,
Auburn, AL 36849
Auburn University,
Auburn, AL 36849
Search for other works by this author on:
Francy John Akkara,
Francy John Akkara
Department of Industrial and
Systems Engineering,
Auburn University,
Auburn, AL 36849
Systems Engineering,
Auburn University,
3301 Shelby Center
,Auburn, AL 36849
Search for other works by this author on:
Sa'd Hamasha
Sa'd Hamasha
Department of Industrial and Systems
Engineering,
Auburn University,
Auburn, AL 36849
e-mail: smh0083@auburn.edu
Engineering,
Auburn University,
3301 Shelby Center
,Auburn, AL 36849
e-mail: smh0083@auburn.edu
Search for other works by this author on:
Sinan Su
Department of Industrial and
Systems Engineering,
Auburn University,
3301 Shelby Center,
Auburn, AL 36849
Systems Engineering,
Auburn University,
3301 Shelby Center,
Auburn, AL 36849
Nianjun Fu
Department of Mechanical Engineering,
Auburn University,
Auburn, AL 36849
Auburn University,
Auburn, AL 36849
Francy John Akkara
Department of Industrial and
Systems Engineering,
Auburn University,
Auburn, AL 36849
Systems Engineering,
Auburn University,
3301 Shelby Center
,Auburn, AL 36849
Sa'd Hamasha
Department of Industrial and Systems
Engineering,
Auburn University,
Auburn, AL 36849
e-mail: smh0083@auburn.edu
Engineering,
Auburn University,
3301 Shelby Center
,Auburn, AL 36849
e-mail: smh0083@auburn.edu
1Corresponding author.
Contributed by the Electronic and Photonic Packaging Division of ASME for publication in the JOURNAL OF ELECTRONIC PACKAGING. Manuscript received October 12, 2017; final manuscript received April 27, 2018; published online May 21, 2018. Assoc. Editor: Toru Ikeda.
J. Electron. Packag. Sep 2018, 140(3): 031005 (9 pages)
Published Online: May 21, 2018
Article history
Received:
October 12, 2017
Revised:
April 27, 2018
Citation
Su, S., Fu, N., John Akkara, F., and Hamasha, S. (May 21, 2018). "Effect of Long-Term Room Temperature Aging on the Fatigue Properties of SnAgCu Solder Joint." ASME. J. Electron. Packag. September 2018; 140(3): 031005. https://doi.org/10.1115/1.4040105
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