期刊
ACTA MATERIALIA
卷 48, 期 12, 页码 3261-3269出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/S1359-6454(00)00128-2
关键词
metals; thin films; stress-strain relationship measurements; mechanical properties (elastic); mechanical properties (yield phenomena)
Free standing polycrystalline thin films with a strong (111) texture were tested in uniaxial tension. Studied were electron-beam deposited Ag, Cu and Al films, and Ag/Cu multilayers consisting of alternating Ag and Cu layers of equal thickness, between 1.5 nm and 1.5 mu m (bilayer repeat length, lambda, between 3 nm and 3 mu m). The films had a total thickness of about 3 mu m A thin polymeric two-dimensional diffraction grid was deposited on the film surface by microlithographic techniques. Strains were measured in situ from the relative displacements of two laser spots diffracted from the grid. The average values of the Young's moduli, determined from hundreds of measurements, are 63 GPa for Ag, 102 GPa for Cu, 57 GPa for Al and 87.5 GPa for Ag/Cu multilayers. In all cases, these values are about 20% lower than those calculated from the literature data and, for the Ag/Cu multilayers, are independent of lambda. No supermodulus effect was observed. The 20% reduction in modulus is most likely the result of incomplete cohesion (microcracking) of the grain boundaries. The ductility of the Ag/Cu multilayers decreases when lambda is reduced. For lambda < 80 nm. the films are brittle at room temperature: they break without macroscopic plastic flow. For lambda > 80 nm, the yield stress increases with decreasing lambda according to a Hall-Fetch-type relation. No softening with decreasing grain size was observed even at the lowest values of lambda. (C) 2000 Acta Metallurgica Inc. Published by Elsevier Science Ltd. All rights reserved.
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