A MICROINDENTATION METHOD FOR ESTIMATING INTERFACIAL SHEAR-STRENGTH AND ITS USE IN STUDYING THE INFLUENCE OF TITANIUM TRANSITION LAYERS ON THE INTERFACE STRENGTH OF EPITAXIAL COPPER-FILMS ON SAPPHIRE
G. Dehm et al., A MICROINDENTATION METHOD FOR ESTIMATING INTERFACIAL SHEAR-STRENGTH AND ITS USE IN STUDYING THE INFLUENCE OF TITANIUM TRANSITION LAYERS ON THE INTERFACE STRENGTH OF EPITAXIAL COPPER-FILMS ON SAPPHIRE, Acta materialia, 45(2), 1997, pp. 489-499
Citations number
15
Categorie Soggetti
Material Science","Metallurgy & Metallurigical Engineering
An approximate elastic model is derived that converts measurements of
indentation depth as a function of the applied load in a microindentat
ion experiment, to an estimate of the interfacial yield strength of a
metal film on a ceramic substrate. The analysis is done in two stages.
In the first stage the indenter lies entirely within the overgrowth.
In the second, the indenter pierces through the interface and into the
substrate. The load is predicted to increase as the second power of t
he displacement in Stage I. In Stage II the net load supported in the
film is predicted to increase linearly with the displacement. The coef
ficients for the parabolic and linear functions are related to the eff
ective interfacial shear strength. Experiments conducted on epitaxial
films of (111) copper on (0001) sapphire, show excellent fits with the
Stage I and Stage II models, yielding: self consistent values for the
interfacial hear strength. The technique was used to measure the infl
uence of titanium transitional layers, varying in thickness from 0.7 n
m (similar to 3 monolayers) to 110 nm. Just 0.7 nm thick titanium prod
uced a 40% increase in the interfacial strength of the copper/sapphire
interface, with thicker titanium layers producing only a marginal fur
ther improvement in the interfacial strength. Possible reasons why the
elastic analysis provides a good description of the data, even throug
h the deformation underneath the indenter is plastic, are discussed. C
opyright (C) 1997 Acta Metallurgica Inc.