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Micro-Brillouin spectroscopy mapping of the residual density field induced by Vickers indentation in a soda-lime silicate glass

High-resolution Brillouin scattering is used to achieve 3-dimensional maps of the longitudinal acoustic mode frequency shift in soda-lime silicate glasses subject to Vickers indentations. Assuming that residual stress-induced effects are simply proportional to density changes, residual densification fields are obtained. The density gradient is nearly isotropic, confirming earlier optical observations made on a similar glass. The results show that Brillouin micro-spectroscopy opens the way to a fully quantitative comparison of experimental data with predictions of mechanical models for the identification of a constitutive law.

preprint2012arXivOpen access
H. TranS. ClémentR. ViallaD. VandembroucqB. Rufflé
cond-mat.mtrl-scicond-mat.dis-nn
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H. TranS. ClémentR. ViallaD. VandembroucqB. Rufflé

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