Thermomigration in lead-free solder joints
In the next generation nanoelectronics and SiC based electronic packaging, current density and temperature gradient will be larger in orders of magnitude. Electromigration and thermomigration are considered to be major road blocks leading to realisation of nanoelectronics and SiC based high tempera...
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2008
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my.utm.84932009-04-30T09:24:36Z http://eprints.utm.my/id/eprint/8493/ Thermomigration in lead-free solder joints Abdul Hamid, M. F S., Li Basaran, C. TJ Mechanical engineering and machinery In the next generation nanoelectronics and SiC based electronic packaging, current density and temperature gradient will be larger in orders of magnitude. Electromigration and thermomigration are considered to be major road blocks leading to realisation of nanoelectronics and SiC based high temperature power electronics. In this paper, damage mechanics of 95.5Sn4Ag0.5Cu (SAC405) lead-free solder joints under high temperature gradients have been studied. This paper presents observations on samples which were subjected to 1000°C/cm thermal gradient for two hours, 286 hours, 712 hours and 1156 hours. It was observed that samples subjected to thermal gradient did not develop a Cu3Sn intermetallic compound (IMC) layer at the hot side due to Cu migration to the cold side thus causing insufficient Cu mass concentration to form Cu3Sn. On the other hand, in samples subjected to isothermal annealing exhibited IMC growth. In samples subjected to thermomigration, near the cold side the Cu concentration is significantly higher, compared to hot side. Extensive surface hardness testing showed increase in hardness from the hot to cold sides, which indicates vacancy migration and Sn grain coarsening are in the opposing direction Inderscience Publishers 2008 Article PeerReviewed Abdul Hamid, M. F and S., Li and Basaran, C. (2008) Thermomigration in lead-free solder joints. International Journal of Materials and Structural Integrity, 2 (1-2). pp. 11-34. ISSN 1745-0055 http://dx.doi.org/10.1504/IJMSI.2008.018898 10.1504/IJMSI.2008.018898 |
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TJ Mechanical engineering and machinery Abdul Hamid, M. F S., Li Basaran, C. Thermomigration in lead-free solder joints |
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In the next generation nanoelectronics and SiC based electronic packaging, current density and temperature gradient will be larger in orders of magnitude. Electromigration and thermomigration are considered to be major road blocks leading to realisation of nanoelectronics and SiC based high temperature power electronics. In this paper, damage mechanics of 95.5Sn4Ag0.5Cu (SAC405) lead-free solder joints under high temperature gradients have been studied. This paper presents observations on samples which were subjected to 1000°C/cm thermal gradient for two hours, 286 hours, 712 hours and 1156 hours. It was observed that samples subjected to thermal gradient did not develop a Cu3Sn intermetallic compound (IMC) layer at the hot side due to Cu migration to the cold side thus causing insufficient Cu mass concentration to form Cu3Sn. On the other hand, in samples subjected to isothermal annealing exhibited IMC growth. In samples subjected to thermomigration, near the cold side the Cu concentration is significantly higher, compared to hot side. Extensive surface hardness testing showed increase in hardness from the hot to cold sides, which indicates vacancy migration and Sn grain coarsening are in the opposing direction |
| format |
Article |
| author |
Abdul Hamid, M. F S., Li Basaran, C. |
| author_facet |
Abdul Hamid, M. F S., Li Basaran, C. |
| author_sort |
Abdul Hamid, M. F |
| title |
Thermomigration in lead-free solder joints
|
| title_short |
Thermomigration in lead-free solder joints
|
| title_full |
Thermomigration in lead-free solder joints
|
| title_fullStr |
Thermomigration in lead-free solder joints
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| title_full_unstemmed |
Thermomigration in lead-free solder joints
|
| title_sort |
thermomigration in lead-free solder joints |
| publisher |
Inderscience Publishers |
| publishDate |
2008 |
| url |
http://eprints.utm.my/id/eprint/8493/ http://dx.doi.org/10.1504/IJMSI.2008.018898 |
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1643645001418145792 |
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13.159267 |