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Young’s modulus measurements and grain boundary sliding in free-standing thin metal films

Young’s modulus of free-standing polycrystalline Al, Au, and W films with submicron thickness has been studied using a dynamic bulge-testing technique. For Au and Al films a clear frequency dependence of the modulus is observed at room temperature in the range 1×10−4–0.5 rad/s. The values of the mod...

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Bibliographic Details
Published in:Applied physics letters 2001-04, Vol.78 (18), p.2673-2675
Main Authors: Kalkman, A. J., Verbruggen, A. H., Janssen, G. C. A. M.
Format: Article
Language:English
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Summary:Young’s modulus of free-standing polycrystalline Al, Au, and W films with submicron thickness has been studied using a dynamic bulge-testing technique. For Au and Al films a clear frequency dependence of the modulus is observed at room temperature in the range 1×10−4–0.5 rad/s. The values of the moduli are considerably smaller than the corresponding values of bulk material. The modulus of W films measured under the same conditions does not depend on frequency and is equal to the bulk value. The origin of the behavior found in the Al and Au films is anelastic grain boundary sliding. As a consequence of the relatively small grain size of thin polycrystalline films this phenomenon is observable at room temperature in films with a relatively low melting point.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.1367896