Emilien Burger scite author profile

Silicate glasses are used as containment matrices for deep geological disposal of nuclear waste arising from spent fuel reprocessing. Understanding the dissolution mechanisms of glasses in contact with iron, an element present in large amounts in the immediate environment (overpack, claystone, etc.) would be a major breakthrough toward predicting radionuclide release in the geosphere after disposal. Two different reacted glass-iron interfaces-a short-term nuclear system and a long-term archeological system-were examined using a multiscale and multianalytical approach including, for the first time on samples of this type, STXM under synchrotron radiation. Comparisons revealed remarkable similarities between the two systems and shed light on Fe-Si interactions, including migration of iron within a porous gel layer and precipitation of Fe-silicates that locally increase short-term glass alteration and are sustainable over the long-term.

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Corrosion at the carbon steel⿿clay borehole water and gas interfaces at 85 °C under anoxic and transient acidic conditions

Necib¹,

Linard²,

Crusset³

et al. 2016

Corrosion Science

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Emilien Burger

Impact of iron on nuclear glass alteration in geological repository conditions: A multiscale approach

Silicate Glass Alteration Enhanced by Iron: Origin and Long-Term Implications

Corrosion at the carbon steel⿿clay borehole water and gas interfaces at 85 °C under anoxic and transient acidic conditions

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