Sn(3.5Ag)润湿化学镀Ni-P过程中金属间化合物的剥落行为

2004 International IEEE Conference on the Asian Green Electronics (AGEC). Proceedings of Pub Date : 2004-09-27 DOI:10.1109/AGEC.2004.1290897

Y. Sohn, Jin Yu, S.K. Kang, D. Shih, Taek-Yeong Lee

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引用次数: 2

摘要

采用无铅焊料(Sn-3.5 wt.% Ag和纯Sn)对化学镀Ni-P薄膜的金属间化合物(IMC)剥落进行了研究，考察了焊料沉积方法(电镀、锡膏和焊料预制品)和Ni-P层中P含量(4.6、9和13 wt.% P)。Ni-P与Sn3.5Ag膏体在250℃回流2min后易导致IMC剥落，而在电镀Sri或Sn3.5Ag回流10min后IMC会粘附在Ni-P层上。Sn3.5Ag预铸体的IMC剥落是中度的。随着Ni-P层P含量的增加，剥落现象增加。Ni/sub - 3/Sn/sub - 4/金属间化合物在早期以针状形态形成，随后转变为块状。针状化合物比块状化合物更容易从Ni-P层脱落，这是因为熔融焊料可以很容易地渗透到针状imc和富p层之间的界面。穿透的Sn与富p层发生反应形成NiSnP层。Ni/sub - 3/Sn/sub - 4/化合物与NiSnP层粘附不良是由于IMC剥落所致。然而，即使在大多数imc剥落后，也没有发生NiSnP层的焊料脱湿。

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Spalling behaviors of intermetallic compounds during the wetting reaction of Sn(3.5Ag) on electroless Ni-P metallization

Intermetallic compound (IMC) spalling from electroless Ni-P film was investigated with lead-free solders (Sn-3.5 wt.% Ag and pure Sn) in terms of solder deposition method (electroplating, solder paste and solder preform) and P content in Ni-P layer (4.6, 9, and 13 wt.% P). The reaction of Ni-P with Sn3.5Ag paste easily led to IMC spalling after 2min reflow at 250 /spl deg/C while IMCs adhered to the Ni-P layer after 10min reflow with electroplated Sri or Sn3.5Ag. The IMC spalling in Sn3.5Ag preform was moderate. The spalling increased with P content in the Ni-P layer. Ni/sub 3/Sn/sub 4/ intermetallics formed as a needle-shaped morphology in an early stage and changed into a chunky shape. Needle-shaped compounds exhibited a higher propensity for spalling from the Ni-P layer than the chunky shaped because a molten solder can easily penetrate into the interface between the needle-shaped IMCs and the P-rich layer. A reaction between the penetrated Sn and the P-rich layer formed a NiSnP layer. The poor adhesion between the Ni/sub 3/Sn/sub 4/ compound and the NiSnP layer is attributed to the IMC spalling. Dewetting of solder from the NiSnP layer, however, didn't occur even after spalling of most IMCs.

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2004 International IEEE Conference on the Asian Green Electronics (AGEC). Proceedings of

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