Owen J. McGann scite author profile

The effect of -radiation on the mechanical properties of model UK intermediate and high level nuclear waste glasses was studied up to a dose of 8 MGy. It was determined thatirradiation up to this dose had no measurable effect upon the Young's modulus, shear modulus, Poisson's ratio, indentation hardness, or indentation fracture toughness. The absence of measurable radiation induced changes in mechanical properties was attributed to redox mediated healing of electron-hole pairs generated by -irradiation by multivalent transition metal ions, in particular the Fe 3+ -Fe 2+ couple.

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Vitrification of an intermediate level Magnox sludge waste

Tan

Kirk

Marshall

et al. 2019

Journal of Nuclear Materials

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A novel iron containing alkali alkaline earth borosilicate glass has been developed that can vitrify up to 30 wt% (dry weight) of a Magnox sludge waste in a homogeneous wasteform at a melting temperature of 1200C. Ce was used as a simulant of the actinide content in the waste. The waste was spiked with 0.5wt% of Cs2O of which 90% was retained in the glass. 60% of the Cl was also retained. Mg content limited the waste loading as loadings in excess of 30wt% led to the formation of forsterite and in some cases CeO2 and MgFe2O4 based spinels. PCT leach testing of the glasses for periods up to 180 days indicated the formation of an amorphous magnesium (alumino-)silicate hydrated layer on the glass surface together with barium rich crystalline precipitates. No Ce was detected in the leachate.

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Owen J. McGann

The effects of γ-radiation on model vitreous wasteforms intended for the disposal of intermediate and high level radioactive wastes in the United Kingdom

Mössbauer studies of materials used to immobilise industrial wastes

The synthesis of graphite–glass composites intended for the immobilisation of waste irradiated graphite

The Effect of γ-radiation on Mechanical Properties of Model UK Nuclear Waste Glasses

Vitrification of an intermediate level Magnox sludge waste

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