Nondestructive detection of intermetallics in solder joints by high energy X-ray diffraction

2001 Proceedings. 51st Electronic Components and Technology Conference (Cat. No.01CH37220) Pub Date : 2001-05-29 DOI:10.1109/ECTC.2001.927999

T. Siewert, D. Balzar, C. Mccowan

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引用次数: 1

Abstract

X-ray diffraction permits direct and unequivocal identification of crystallographic phases, although conventional low-energy beams penetrate to a depth of only several micrometers. A high-energy X-ray beam (up to 320 keV) easily penetrates through a circuit board and the attached devices, permitting the identification of any intermetallic layers in the interior. Because the diffraction intensity is proportional to the concentration, this method might also assess the relative concentration of the intermetallics and thus develop some estimate of their effect on the package reliability. However, the combination of conventional X-ray diffraction concepts with a high-energy beam has not been utilized to a full extent yet, and so merits further investigation. We have demonstrated the concept on some simple specimens that we prepared in our laboratory. Through the presentation of this report, we hope to contact other researchers who are studying fracture through these intermetallics. We would like to evaluate our testbed system on a range of actual industrial intermetallic specimens over the next few years.

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高能x射线衍射无损检测焊点金属间化合物

x射线衍射允许直接和明确地识别晶体相，尽管传统的低能光束穿透深度只有几微米。高能x射线束(高达320 keV)很容易穿透电路板和连接的设备，允许识别内部的任何金属间层。由于衍射强度与浓度成正比，这种方法也可以评估金属间化合物的相对浓度，从而对它们对封装可靠性的影响作出一些估计。然而，传统的x射线衍射概念与高能光束的结合尚未得到充分利用，因此值得进一步研究。我们已经在实验室准备的一些简单的标本上演示了这个概念。通过这篇报告的介绍，我们希望能联系到其他通过这些金属间化合物研究断裂的研究者。我们希望在未来几年在一系列实际的工业金属间样品上评估我们的试验台系统。

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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2001 Proceedings. 51st Electronic Components and Technology Conference (Cat. No.01CH37220)

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