Today 16 , — Inagaki, K. Review of waste glass corrosion and associated radionuclide release as a part of safety assessment of entire disposal system. Bunker, B. Molecular mechanisms for corrosion of silica and silicate glasses. Solids , — Van Iseghem, P. Grambow, B.
Nuclear waste glasses - How durable? Elements 2 , — Parruzot, B. PhD thesis, Univ. Montpellier, Verney-Carron, A. Archaeological analogs and the future of nuclear waste glass. Ferrand, K. The effect of Ordinary Portland Cement on nuclear waste glass dissolution. Procedia Mat. Maeda, T. Corrosion behavior of simulated HLW glass in the presence of magnesium ion.
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Debure, M. Borosilicate glass alteration driven by magnesium carbonates. HLW glass dissolution in the presence of magnesium carbonate: diffusion cell experiment and coupled modeling of diffusion and geochemical interactions. Mineralogy and thermodynamic properties of magnesium phyllosilicates formed during the alteration of a simplified nuclear glass. Michelin, A. Silicate glass alteration enhanced by iron: origin and long-term implications. Rebiscoul, D.
Reactive transport processes occurring during nuclear glass alteration in presence of magnetite. Reiser, J. T et al. Dillmann, P. Effect of natural and synthetic iron corrosion products on silicate glass alteration processes. Acta , — Resumption of nuclear glass alteration: state of the art. Ebert, W. Scientific basis for nuclear waste management XIV.
Abrajano Materials Research Society, Boston, 89— Inagaki, Y. Aqueous alteration of Japanese simulated waste glass P effects of alteration-phase formation on alteration rate and cesium retention.senjouin-kikishiro.com/images/bezuwuwy/2631.php
MT41013: Corrosion And Environmental Degradation Of Materials
Muller, I. SpringerAmpamp; Ayral, A. Protective properties and dissolution ability of the gel formed during nuclear glass alteration. The controversial role of inter-diffusion in glass alteration. Role and properties of the gel formed during nuclear glass alteration: importance of gel formation conditions. Molecular mechanisms for corrosion of silica and silicate-glasses. Valle, N.
Elemental and isotopic Si and O tracing of glass alteration mechanisms. Acta 74 , — Geisler, T. Aqueous corrosion of borosilicate glass under acidic conditions: a new corrosion mechanism. The mechanism of borosilicate glass corrosion revisited. The fate of silicon during glass corrosion under alkaline conditions: a mechanistic and kinetic study with the International Simple Glass.
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Acta , 68—85 Acta , 57—76 Origin and consequences of silicate glass passivation by surface layers. Hellmann, R. Nanometre-scale evidence for interfacial dissolution-reprecipitation control of silicate glass corrosion. Delage, F. A mechanistic model for understanding nuclear waste glass dissolution. First-order dissolution rate law and the role of surface layers in glass performance assessment. Effect of composition on the short-term and long-term dissolution rates of ten borosilicate glasses of increasing complexity from 3 to 30 oxides.
Frugier, P. Jollivet, P. Investigation of gel porosity clogging during glass leaching. Cailleteau, C.
Environmental Degradation of Metals: Corrosion Technology Series/14
Insight into silicate-glass corrosion mechanisms. Contribution of atom-probe tomography to a better understanding of glass alteration mechanisms: application to a nuclear glass specimen altered 25 years in a granitic environment. Why do certain glasses with a high dissolution rate undergo a low degree of corrosion? Gin, S et al.
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Ledieu, A. Leaching of borosilicate glasses. Solids , 3—12 Wild, B. Crovisier, J. Nature and role of natural alteration gels formed on the surface of ancient volcanic glasses Natural analogs of waste containment glasses. Ribet, S. Contribution of zeolite-seeded experiments to the understanding of resumption of glass alteration. Fett, T. Stresses in ion-exchange layers of soda-lime-silicate glass. Fatigue Fract. Barkatt, A. Sang, J. Scientific basis for nuclear waste management XVI. Neill, L. Various effects of magnetite on international simple glass ISG dissolution: implications for the long-term durability of nuclear glasses.
Peuget, S. Specific outcomes of the research on the radiation stability of the French nuclear glass towards alpha decay accumulation. Tribet, M et al. Weber, W. Radiation effects in glasses used for immobilization of high-level waste and plutonium disposition. Radiation and thermal ageing of nuclear waste glass. McGrail, B. Solids , 10—26 Shutthanandan, V et al. Icenhower, J. Origins of deviations from transition-state theory: affects of ion-exchange kinetics in glass. Acta 66 , A—A Kaneko, T.
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