Abstract The present work is aimed at the study of the unirradiated and irradiated MgO ceramics corrosion and mechanical properties in the molten LiCl at 650–750 °C with addition of UCl3… Click to show full abstract
Abstract The present work is aimed at the study of the unirradiated and irradiated MgO ceramics corrosion and mechanical properties in the molten LiCl at 650–750 °C with addition of UCl3 and Li2O(LiCl + nLi2O and LiCl + mUCl3 molten salts with n = 1.0 and 2.0 mol. % and m = 0.25, 0.5 and 1.0 mol. %). MgO ceramics is suggested to be used as one of materials for pyrochemical technology for recycling of spent nuclear fuel. The gravimetric method with the exposure time during 100 h was the primary method of investigation. The investigation of surface and bulk corrosion of MgO samples by scanning electron microscopy (SEM) and X-ray spectroscopy (MRSA) was performed using scanning electron microscope equipped with a x-Act 6 energy-dispersive analytic system for X-rays characteristic (XRС). Determination of corrosion losses and average corrosion rates of MgO samples was based on the assumption that the ejection of the radionuclides 95Zr, 175Hf and 181Hf from the MgO samples. Incorporation of Li2O and UCl3 in molten LiCl result in increase in the rate of MgO ceramic corrosion both at 650 °C and 750 °C and acts on MgO compressive strength (σcs) and on the elemental composition of MgO surface layers. Besides the increasing of UCl3 concentration led to the bulk corrosion of MgO sample grains.Short-term mechanical tests demonstrated the transition of MgO sample destruction pattern depending on the concentration of Li2O and UCl3 additions in LiCl melt. Doping of molten LiCl by 0.5 mol. % of UCl3 at 650 °C and by 0.25 mol. % of UCl3 at 750 °C had no influence on the ultimate compression strength of irradiated and unirradiated MgO samples. Increased UCl3 concentration totaling 0.5 mol. % in the LiCl melts at 750 °C reduced the ultimate compression strength of irradiated MgO ceramic samples by ~15%.
               
Click one of the above tabs to view related content.