Title :
Effect of intermetallic phases on performance in a mechanical drop environment: 96.5Sn3.5Ag solder on Cu and Ni/Au pad finishes
Author :
Saha, Samhit K. ; Mathew, Sesil ; Canumalla, Sridhar
Author_Institution :
Nokia, Irving, TX, USA
Abstract :
Mechanical drop test reliability risk due to incompatibility between component and board surface finishes of thin (30-100 μm) 96.5Sn3.5Ag solder joint assemblies is examined in this study. Failures in test components with ENIG plated interposers occurred owing to inhibition of any Ni-Sn(Cu) intermetallic phase growth at the interposer/solder interface on account of Cu migration from the solder/ceramic interface, i.e. a coupling effect between the two interfaces of the solder joint and consequently the lack of a metallurgical bond between solder and interposer. Results of this study demonstrate that interface reaction coupling phenomena play a critical role in determining the performance of thin lead-free solder joints under mechanical loading.
Keywords :
ball grid arrays; chemical interdiffusion; circuit reliability; copper; flip-chip devices; gold; impact testing; nickel; printed circuit testing; reflow soldering; silver alloys; solders; tin alloys; Cu; Ni-Au; PWB surface finishes; SnAg; interface reaction coupling; intermetallic phase growth; interposer-solder interface; mechanical drop test reliability risk; portable electronics products; solder-ceramic interface; surface finish incompatibility; thin solder joint assemblies; Assembly; Bonding; Ceramics; Environmentally friendly manufacturing techniques; Gold; Intermetallic; Lead; Soldering; Surface finishing; Testing;
Conference_Titel :
Electronic Components and Technology Conference, 2004. Proceedings. 54th
Print_ISBN :
0-7803-8365-6
DOI :
10.1109/ECTC.2004.1320279
