Thermo-mechanical reliability in advanced electronic packaging requires new materials testing approaches. The necessary understanding of the impact of very local material stressing on component reliability leads to the need of materials testing and characterization on microscopic scale. For example, defect initiation and propagation in multilayer structures as in WLP and flip chip technology, the influence of material migration to mechanical behavior or defect development in ultra-thin silicon dies often are not well understood. A key for micro materials testing and characterization is the measurement of strains and displacements inside microscopic regions. Correlation techniques (e.g., microDAC, nanoDAC) are one of the promising tools for that purpose. Their application potentials to micro testing for electronic packaging materials are demonstrated in the paper. More in detail, CTE measurement and crack testing are discussed. First attempts for testing under AFM conditions and their results are considered.
Determination of Packaging Material Properties Utilizing Image Correlation Techniques
Contributed by the Electronic and Photonic Packaging Division and presented at Poly 2000, London, United Kingdom, December 4–5, 2000. Manuscript received at ASME Headquarters, May 2002. Guest Editor: Bernd Michel.
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Vogel, D., Ku¨hnert, R., Dost, M., and Michel, B. (December 12, 2002). "Determination of Packaging Material Properties Utilizing Image Correlation Techniques ." ASME. J. Electron. Packag. December 2002; 124(4): 345–351. https://doi.org/10.1115/1.1506698
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