Data di Pubblicazione:
2004
Abstract:
Residual stresses are one of the crucial parameters determining the performances of structural as well as functional materials.
In the case of coatings and films, the substrate and the deposition process may determine very high residual stress fields which
can affect both performances and surface integrity, since adhesion or cracking resistance can be strongly altered. The accurate
and reliable assessment of residual stress is thus mandatory for the evaluation of these materials. In this paper we applied a new
approach to evaluate the residual stress by means of the analysis of a single 2D-diffraction image collected by a laboratory X-ray
microdiffractometer equipped with an image plate detector. The residual stress in thin films of LaCoO3 was calculated and
correlated to cubic-to-rhombohedral phase transformation.
In the case of coatings and films, the substrate and the deposition process may determine very high residual stress fields which
can affect both performances and surface integrity, since adhesion or cracking resistance can be strongly altered. The accurate
and reliable assessment of residual stress is thus mandatory for the evaluation of these materials. In this paper we applied a new
approach to evaluate the residual stress by means of the analysis of a single 2D-diffraction image collected by a laboratory X-ray
microdiffractometer equipped with an image plate detector. The residual stress in thin films of LaCoO3 was calculated and
correlated to cubic-to-rhombohedral phase transformation.
Tipologia CRIS:
1.1 Articolo in rivista
Elenco autori:
Gelfi, Marcello; Bontempi, Elza; Roberti, Roberto; L., Armelao; Depero, Laura Eleonora
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