Nanoindentation study of the mechanical properties of copper-nickel multilayered thin films
- 7 May 1990
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 56 (19), 1862-1864
- https://doi.org/10.1063/1.103070
Abstract
The mechanical properties of multilayered Cu-Ni thin films with bilayer thicknesses of 1.6–12 nm were investigated by a nanoindentation technique. Force-displacement curves generated during loading and unloading of a diamond tip indenter were used to determine the hardness and elastic properties of the films. No enhancement in the elastic properties (supermodulus effect) was seen, but an enhancement in the hardness was observed. It is suggested that the enhancement, which displayed a Hall–Petch-type behavior, can be understood as owing to dislocation pinning at the interfaces analogous to the mechanism of grain boundary hardening.Keywords
This publication has 6 references indexed in Scilit:
- Effects of surface stress on the elastic moduli of thin films and superlatticesPhysical Review Letters, 1989
- Relationship between Interfacial Strain and the Elastic Response of Multilayer Metal FilmsPhysical Review Letters, 1988
- Relationship Between Interfacial Strain and the Elastic Response of Multilayer Metal FilmMRS Proceedings, 1988
- Growth of single-crystal TiN/VN strained-layer superlattices with extremely high mechanical hardnessJournal of Applied Physics, 1987
- A method for interpreting the data from depth-sensing indentation instrumentsJournal of Materials Research, 1986
- Elastic modulus in composition-modulated copper-nickel foilsJournal of Applied Physics, 1983