Leaching behavior of strontium in cementitious materials immobilizing boric acid enriched in B-10 isotope
摘要
Enriched boric acid with Boron-10 (10B-EBA) has recently emerged as an advanced neutron absorber for nuclear reactors, enabling enhanced control over fission processes, while natural boric acid (NBA) remains the traditional choice. The unique geochemical behavior of 10B-EBA, both in solution and solid phase, suggests the development of new cementitious waste forms for immobilizing radioactive waste streams containing 10B-EBA. This study examines how strontium (Sr) leaches from cementitious matrices containing NBA and 10B-EBA, focusing on the effect of boron enrichment on Sr leaching. Study specimens were prepared from Portland cement (PC), demineralized water, and solutions of either NBA or 10B-EBA. The leaching test on study specimens was conducted in accordance with ASTM C1308-08–2017, and Sr levels in leachates were measured by Inductively Coupled Plasma-Atomic Emission Spectroscopy (ICP-AES). The mineralogical analysis of the solidified matrices was conducted using X-ray diffraction (XRD), and the mineral phase development was examined using scanning electron microscopy (SEM). Results showed that 10B-EBA-based specimens had lower Sr leachability than NBA-based specimens. The SEM images reveal that boron enrichment and leaching affect the development of mineral phases in hydration products. Leaching behavior models indicate that Sr release follows first-order reaction kinetics, diffusion, dissolution, or a combination of these processes. These findings are essential for improving the design and long-term stability of cementitious waste forms containing 10B-EBA.