Effects of high temperature and high humidity on the reliability of copper/epoxy bond

[Display omitted] •Effects of high temperature and high humidity on copper/epoxy bond were studied in nanoscale.•Experiments and auxiliary molecular dynamics simulations were performed.•The water absorbed in the epoxy caused complex physical and chemical changes at the copper/epoxy interface.•The cr...

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Bibliographic Details
Published in:Applied surface science 2024-07, Vol.660, p.159970, Article 159970
Main Authors: Zhao, Shuaijie, Chen, Chuantong, Nishijima, Masahiko, Okumura, Rieko, Haga, Motoharu, Ueshima, Minoru, Suzuki, Hirose, Takenaka, Hiroto, Suganuma, Katsuaki
Format: Article
Language:English
Subjects:
Copper/epoxy bonding
Copper/epoxy interface
Epoxy encapsulation
High humidity
High temperature
Reliability
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Summary:[Display omitted] •Effects of high temperature and high humidity on copper/epoxy bond were studied in nanoscale.•Experiments and auxiliary molecular dynamics simulations were performed.•The water absorbed in the epoxy caused complex physical and chemical changes at the copper/epoxy interface.•The crystal orientation of cuprous oxide significantly influenced its bonding with epoxy.•The higher bonding strength is not equal to the higher reliability. Epoxy encapsulation is a promising technique to reduce the size of the power module. Its reliability is a key aspect. Many previous studies developed new epoxy materials or new surface treatment methods to improve reliability. However, reliability mechanisms are still not well understood. This study focused on the reliability of copper/epoxy bonds under high temperature and high humidity conditions because previous studies did not reach a unified conclusion on this issue. The copper/epoxy bonds are fabricated by compression molding. Then, these copper/epoxy bonds are placed in the 85 ℃/85 %RH reliability test for 1000 h. The bonding strength change was measured. Surprisingly, the bonding strength between copper and epoxy increased after the 85 ℃/85 %RH reliability test. The possible reason was investigated by observing the fracture surface and bonding interface in a nanoscale. In addition, molecular dynamics simulations were performed to better understand the experimental results. The results showed that the water absorbed in the epoxy caused complex physical and chemical changes at the copper/epoxy interface. The formation of a new cuprous oxidation layer with aligned crystal orientation is supposed to be the reason for the bonding strength increase. Our findings will provide a better understanding of copper/epoxy bonds.
ISSN:0169-4332
DOI:10.1016/j.apsusc.2024.159970