温度循环
材料科学
焊接
可靠性(半导体)
自行车
复合材料
胶粘剂
动力循环
烧结
热的
法律工程学
功率(物理)
图层(电子)
热力学
考古
工程类
物理
历史
作者
Paul Paret,Joshua Major,Douglas DeVoto,Sreekant Narumanchi,Chao Ding,Guo‐Quan Lu
标识
DOI:10.1109/jestpe.2021.3121195
摘要
Although excellent reliability has been reported for sintered silver as a die-attach material under both thermal and power cycling loads in power electronics applications, the promise of this material as a large-area attachment at temperatures beyond 200 °C needs to be investigated. This article presents insights into the thermomechanical behavior and reliability of sintered silver under extreme thermal cycling conditions. In this study, we bonded sintered silver samples and subjected it to a thermal cycling profile of −40 °C to 200 °C with high ramp rates. We periodically monitored samples under thermal cycling to detect the presence of any failure mechanisms using a scanning acoustic microscope. We also included 95Pb5Sn solder in the study to obtain reference data. Results show the occurrence of cracks in sintered silver followed by a rapid rate of crack growth that exceeded the failure criterion in just 50 cycles. The predominant failure mechanism we observed was adhesive failure. As a large-area attachment, solder exhibited a higher reliability than sintered silver but failed within 100 cycles. Finally, we performed thermomechanical modeling to compute strain energy density values and correlated these with the experimentally observed crack growth rates to formulate a lifetime prediction model for sintered silver.
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