TY - GEN
T1 - Comparative Study on the Bonding Property of Laser and Reflow Soldered Sn-37Pb/Ni-P Micro-Joints after Isothermal Aging and Multiple Reflow
AU - Yao, Hua
AU - Chen, Leida
AU - Wu, Yang
AU - Zhang, Zhijie
AU - Zhou, Deyun
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Laser soldering is becoming increasingly popular in microbumps joint due to its noncontact and confined heat, rapid joining time, and straightforward mechanization. This study examines the internal structure and fracture features of Sn-37Pb/Ni-P microbumps fabricated by laser soldering and reflow soldering techniques. This study examines the impact of isothermal ageing and periodic reflowing on the microbumps. The experimental results showed that laser soldering of microbumps produced a fine, loose (Cu, Ni)6Sn5 intermetallic compound (IMC), whereas reflow soldering of microbumps resulted in the creation of a small plane-like, lumpy (Cu, Ni)6Sn5 IMC. The (Cu, Ni)6Sn5 particles underwent isothermal ageing at a temperature of 150 °C, resulting in a transformation of their structure into a scallop shape with a notable aspect ratio. These particles were soldered using a laser in microbumps. In contrast, in microbumps that were soldered using reflow soldering, the particles developed into irregular lumps. The thickness of the IMC in microbumps increased in a parabolic manner as the ageing time increased. Nevertheless, the IMC thickness in laser-soldered microbumps was consistently significantly smaller than that in reflow-soldered microbumps. The breaking point of both connected procedures had a significant decline after 100 hours of ageing, and subsequently maintained a similar level as the ageing time increased to 400 hours. Throughout the process involving several reflows, the morphology of (Cu, Ni)6Sn5 particles in both laser soldered and reflow soldered microbumps grow into large irregular lumps, and the IMC thick of laser soldered microbumps grows sharply after one time reflowing, then grow over time within both scenarios. The breaking strength of both soldered procedures for microbumps reduced slightly as the reflowing times increased. Hence, laser soldering proves to be efficient in lowering the thickness of IMCs and maintaining the structural strength of microbumps even after undergoing isothermal ageing and numerous reflow operations, comparable to traditional reflow soldering.
AB - Laser soldering is becoming increasingly popular in microbumps joint due to its noncontact and confined heat, rapid joining time, and straightforward mechanization. This study examines the internal structure and fracture features of Sn-37Pb/Ni-P microbumps fabricated by laser soldering and reflow soldering techniques. This study examines the impact of isothermal ageing and periodic reflowing on the microbumps. The experimental results showed that laser soldering of microbumps produced a fine, loose (Cu, Ni)6Sn5 intermetallic compound (IMC), whereas reflow soldering of microbumps resulted in the creation of a small plane-like, lumpy (Cu, Ni)6Sn5 IMC. The (Cu, Ni)6Sn5 particles underwent isothermal ageing at a temperature of 150 °C, resulting in a transformation of their structure into a scallop shape with a notable aspect ratio. These particles were soldered using a laser in microbumps. In contrast, in microbumps that were soldered using reflow soldering, the particles developed into irregular lumps. The thickness of the IMC in microbumps increased in a parabolic manner as the ageing time increased. Nevertheless, the IMC thickness in laser-soldered microbumps was consistently significantly smaller than that in reflow-soldered microbumps. The breaking point of both connected procedures had a significant decline after 100 hours of ageing, and subsequently maintained a similar level as the ageing time increased to 400 hours. Throughout the process involving several reflows, the morphology of (Cu, Ni)6Sn5 particles in both laser soldered and reflow soldered microbumps grow into large irregular lumps, and the IMC thick of laser soldered microbumps grows sharply after one time reflowing, then grow over time within both scenarios. The breaking strength of both soldered procedures for microbumps reduced slightly as the reflowing times increased. Hence, laser soldering proves to be efficient in lowering the thickness of IMCs and maintaining the structural strength of microbumps even after undergoing isothermal ageing and numerous reflow operations, comparable to traditional reflow soldering.
KW - Interfacial reaction
KW - Isothermal aging
KW - Laser soldering
KW - Multiple reflowing
KW - Shear strength
KW - Sn-37Pb
UR - http://www.scopus.com/inward/record.url?scp=85206112700&partnerID=8YFLogxK
U2 - 10.1109/ICEPT63120.2024.10668522
DO - 10.1109/ICEPT63120.2024.10668522
M3 - 会议稿件
AN - SCOPUS:85206112700
T3 - 2024 25th International Conference on Electronic Packaging Technology, ICEPT 2024
BT - 2024 25th International Conference on Electronic Packaging Technology, ICEPT 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 25th International Conference on Electronic Packaging Technology, ICEPT 2024
Y2 - 7 August 2024 through 9 August 2024
ER -