Artículos de revistas
Finite element and dimensional analysis algorithm for the prediction of mechanical properties of bulk materials and thin films
Date
2010Registration in:
SURFACE & COATINGS TECHNOLOGY, v.205, n.5, p.1386-1392, 2010
0257-8972
10.1016/j.surfcoat.2010.07.039
Author
PULECIO, Sara Aida Rodriguez
FARIAS, Maria Cristina More
SOUZA, Roberto Martins
Institutions
Abstract
In this work, the applicability of a new algorithm for the estimation of mechanical properties from instrumented indentation data was studied for thin films. The applicability was analyzed with the aid of both three-dimensional finite element simulations and experimental indentation tests. The numerical approach allowed studying the effect of the substrate on the estimation of mechanical properties of the film, which was conducted based on the ratio h(max)/l between maximum indentation depth and film thickness. For the experimental analysis, indentation tests were conducted on AISI H13 tool steel specimens, plasma nitrated and coated with TiN thin films. Results have indicated that, for the conditions analyzed in this work, the elastic deformation of the substrate limited the extraction of mechanical properties of the film/substrate system. This limitation occurred even at low h(max)/l ratios and especially for the estimation of the values of yield strength and strain hardening exponent. At indentation depths lower than 4% of the film thickness, the proposed algorithm estimated the mechanical properties of the film with accuracy. Particularly for hardness, precise values were estimated at h(max)/l lower than 0.1, i.e. 10% of film thickness. (C) 2010 Published by Elsevier B.V.