Lookup NU author(s): Thomas Malkow,
Dr Isabel Arce-Garcia,
Professor Steve Bull,
Emeritus Professor Trevor Page
Full text for this publication is not currently held within this repository. Alternative links are provided below where available.
Nanoindentation has been used to investigate the mechanical properties of very thin ( < 1 μm) CNx films deposited by IBAD in order to understand the variation of properties with process parameters. The structural features of the films were characterised by EELS, XPS and ERDA. Examining the load-displacement (P-δ) curves in detail revealed a number of film responses such as pure elastic behaviour, densification and elastic-plastic deformation. The film-only hardness was calculated using a recently developed energy based model while the Hertzian contact analysis and laser-acoustic measurements were used to determine the Young's modulus. Generally, the film hardness and modulus exhibit two different regimes depending on the deposition parameters. Films deposited at high temperature contain less nitrogen and have lower hardness and Young's modulus than those deposited at room temperature. All films examined displayed P-δ curves exhibiting unusually large elastic recovery (∼ 80% or more) during unloading. Because of this, resultant indentation sizes always appear to be very small thus apparently producing very high hardnesses. However, our results clearly establish that the film behaviour is better viewed as that of a 'super-hard rubber' in which a large proportion of the contact load is supported elastically. © 2001 Elsevier Science B.V. All rights reserved.
Author(s): Malkow T, Arce-Garcia I, Kolitsch A, Schneider D, Bull SJ, Page TF
Publication type: Article
Publication status: Published
Journal: Diamond and Related Materials
ISSN (print): 0925-9635
Publisher: Elsevier S.A.
Altmetrics provided by Altmetric