Our work on nuclear waste glass addresses the high-temperature dynamics of complex, multiphase glass-forming systems relevant to vitrification processes. We employ calorimetry, viscosity, and electrical conductivity measurements to characterise transport and thermophysical properties at processing temperatures. These experiments are complemented by rheological modelling and theoretical calculations of mass transfer to investigate bubble dynamics. Moreover, crystal-bearing rheology and phase separation phenomena in selected glass families are investigated using experiments and codes with direct implications for process stability and waste immobilisation performance. In this research lines, our group has a strong collaboration with French researchers.
Date of Employment:2025-03-07
Status:Employed
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Honors and Titles:
Pierre Laffitte 3rd prize, supported by the doctoral schools SFA and STIC co-accredited by the University of Côte d'Azur and MINES ParisTech – PSL University 2018-10-01
European Nuclear Education Network PhD award – supported by the European Nuclear Education Network (ENEN) and the Joint Research Centre (JRC) of the European Commission 2021-09-01
Recognition of Merit from Sete Lagoas, Brazil (hometown) – granted by the Municipal Council 2025-06-01
Honourable Mention from Sete Lagoas, Brazil (hometown) – granted by City Hall (June 2025). 2025-06-01
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