Extension of Stoney's formula to non-uniform temperature distributions in thin film/substrate systems. The case of radial symmetry |
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Authors: | Y Huang |
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Institution: | a Department of Mechanical and Industrial Engineering, University of Illinois, Urbana, IL 61801, USA b Graduate Aeronautical Laboratory, California Institute of Technology, Pasadena, CA 91125, USA |
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Abstract: | Current methodologies used for the inference of thin film stress through curvature measurements are strictly restricted to stress and curvature states which are assumed to remain uniform over the entire film/substrate system. By considering a circular thin film/substrate system subject to non-uniform, but axisymmetric temperature distributions, we derive relations between the film stresses and temperature, and between the plate system's curvatures and the temperature. These relations featured a “local” part which involves a direct dependence of the stress or curvature components on the temperature at the same point, and a “non-local” part which reflects the effect of temperature of other points on the location of scrutiny. Most notably, we also derive relations between the polar components of the film stress and those of system curvatures which allow for the experimental inference of such stresses from full-field curvature measurements in the presence of arbitrary radial non-uniformities. These relations also feature a “non-local” dependence on curvatures making full-field measurements of curvature a necessity for the correct inference of stress. Finally, it is shown that the interfacial shear tractions between the film and the substrate are proportional to the radial gradients of the first curvature invariant and can also be inferred experimentally. |
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Keywords: | Non-uniform film temperatures and stresses Non-uniform substrate curvatures Stress-curvature relations Non-local effects Interfacial shears |
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