Abstract

The leaching behavior of simulated Savannah River Plant (SRP) waste glass was studied at elevated pressures and anticipated storage temperatures. An integrated approach, which combined leachate solution analysis with both bulk and surface studies, was used to study the corrosion process. Compositions of leachates were evaluated by colorimetry and atomic absorption. Used in the bulk and surface analyses were optical microscopy, scanning electron microscopy, X-ray energy spectroscopy, wide-angle X-ray diffraction, electron microprobe analysis, infrared reflectance spectroscopy, electron spectroscopy for chemical analysis, and Auger electron spectroscopy. Results from this study show that there is no significant adverse effect of pressure, up to 1500 psi and 90°C, on the chemical durability of simulated SRP waste glass leached for one month in deionized water. In addition, the leached glass surface layer was characterized by an adsorbed film rich in minor constituents from the glass. This film remained on the glass surface even after leaching in relatively alkaline solutions at elevated pressures at 90°C for one month. The sample surface area to volume of leachant ratios ( SA/ V) was 10:1 cm −1 and 1:10 cm −1. The corrosion mechanisms and the subsurface layers produced will be discussed along with the potential importance of these results to repository storage.

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