Performance enhancement of Au-Ge eutectic alloys for high-temperature electronics

2013 IEEE 15th Electronics Packaging Technology Conference (EPTC 2013) Pub Date : 2013-12-01 DOI:10.1109/EPTC.2013.6745713

V. Chidambaram, E. Rong, Gan Chee Lip, M. Rhee

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引用次数: 2

Abstract

Au-Ge eutectic has been used as a high temperature electronics interconnection material up to 250°C due to its favorable characteristics. However, both nano-indentation and shear testing, confirmed the loss of strength of the Au-Ge eutectic at a high temperature of 300°C due to the growth of the (Ge) phase. This coarsening has also resulted in the weakening of the (Au) phase due to the deterioration of the precipitation hardening of the (Au) matrix by the (Ge) dispersed phase. In this paper, various techniques for averting the coarsening of the (Ge) phase have been explored. It has been determined that Sn can dissolve in the Au-Ge and segregate in the (Ge) phase, resulting in restraining the coarsening of the (Ge) phase. The composition of the ternary Au-Ge-Sn alloy has been designed by taking into account; the compliance with the solidification criterion and precipitation of phases in the bulk solder. It has been ensured that no brittle intermetallic compounds (IMCs) precipitate in the matrix of the Au-Ge eutectic bulk solder, as a result of micro-alloying with Sn.

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高温电子用Au-Ge共晶合金的性能增强

由于其良好的特性，Au-Ge共晶已被用作高达250°C的高温电子互连材料。然而，纳米压痕和剪切测试都证实了在300℃高温下，由于(Ge)相的生长，Au-Ge共晶的强度损失。这种粗化还导致(Au)相的弱化，这是由于(Au)基体被(Ge)分散相沉淀硬化的恶化。本文探讨了避免(Ge)相粗化的各种技术。结果表明，Sn在Au-Ge中溶解，在(Ge)相中偏析，抑制了(Ge)相的粗化。在设计三元Au-Ge-Sn合金的成分时，应考虑;符合大块焊料的凝固准则和相析出。通过与锡的微合金化，可以保证在Au-Ge共晶块状焊料基体中不析出脆性金属间化合物(IMCs)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE 15th Electronics Packaging Technology Conference (EPTC 2013)

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