通过纳米压痕测试量化TSV的微局部残余应力

Gyujei Lee, H.-Y Son, J. Hong, Kwang-yoo Byun, D. Kwon
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引用次数: 17

摘要

大多数镀铜填充的tsv存在许多可靠性问题。当进行热循环镀工艺时,铜与硅/介电材料之间的CTE(热膨胀系数)失配会产生巨大的界面热应力。此外,在不同的加工条件下,不同生长的铜晶粒的非相干性在晶界处产生显著的残余应力,足以导致分层或界面断裂。目前已经开发了许多测量残余应力的技术,但它们体积太大,无法在TSV微尺度上使用,或者产生的平均结果不适合TSV界面的局部评估。另一方面,纳米压痕测试在利用相同深度下不同残余应力样品之间的载荷差异来表征残余应力方面具有许多优点。本文介绍了一种通过纳米压痕测试来测量TSV界面微局部残余应力的算法。为了验证我们的测量结果,我们观察了TSV的横截面形貌,用于冶金分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantification of micropartial residual stress for mechanical characterization of TSV through nanoinstrumented indentation testing
Most TSVs filled with plated copper offer many reliability problems. When subjected to thermal-cycled plating processes, the very large CTE (coefficient of thermal expansion) mismatch between the copper and the silicon/dielectric generates enormous interfacial thermal stress. In addition, the incoherency of differently grown copper grains plated under various processing conditions produces significant residual stress at grain boundaries that can be high enough to cause delamination or interfacial fracture. Many technologies have been developed for measuring residual stress, but they are too bulky to use at TSV microscales or yield averaged results inappropriate for the local assessment of TSV interfaces. Nanoinstrumented indentation testing, on the other hand, has many advantages in the micropartial characterization of residual stress using the load difference between samples with different residual stresses at the same depth. Here we introduce an algorithm to measure micropartial residual stress of TSV interfaces through nanoinstrumented indentation testing. To verify our measured outputs, we observed cross-sectional TSV morphologies for metallurgical analysis.
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