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IF 2.8 2区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Nuclear Materials Pub Date : 2025-03-05 DOI:10.1016/j.jnucmat.2025.155736

Ankit Roy , Krishna Chaitanya Pitike , Christopher Matthews , David A. Andersson , Andrew M. Casella , Ram Devanathan , David J. Senor

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引用次数: 0

摘要

本研究探讨了掺杂镁和镍对 LiAlO2 和 LiAl5O8 陶瓷中氚扩散的影响，这些陶瓷用于氚生成可燃吸收棒 (TPBAR)。我们利用 Centipede 仿真在较宽的温度范围（500 K 至 1250 K）内探索了缺陷动力学、团簇形成和氚迁移率之间的相互作用。在 LiAlO2 中，镁的掺杂通过增加氚的间隙浓度和关键物种的扩散系数，显著提高了氚的扩散性，从而使氚的总体扩散性增加了一倍。掺杂镍虽然将主要缺陷转移到了锂空位上，但由于锂空位-氚复合物的结合能较低，氚的迁移率仍然很高，从而确保了氚的有效迁移。在 LiAl5O8 中，掺入镁和镍会导致关键物种的扩散系数略有降低，但氚间隙浓度的急剧增加起到了补偿作用，从而导致氚扩散性的净小幅增加。研究结果凸显了缺陷在氚传输中的关键作用，以及镁和镍缺陷对这些陶瓷在苛刻核环境中性能的影响。

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Effect of Mg and Ni impurities on tritium diffusion in lithium ceramics through cluster dynamics simulations

This study investigates the impact of Mg and Ni doping on tritium diffusion in LiAlO₂ and LiAl₅O₈ ceramics, that are used in tritium-producing burnable absorber rods (TPBARs). Utilizing Centipede simulations across a broad temperature range (500 K to 1250 K), we explore the interplay between defect dynamics, cluster formation, and tritium mobility. In LiAlO₂, Mg doping significantly enhances tritium diffusivity by increasing tritium interstitial concentrations and diffusion coefficients of key species, thereby doubling the overall tritium diffusivity. Ni doping, while shifting the dominant defect to Li vacancies, maintains high tritium mobility due to the low binding energy of Li vacancy-tritium complexes, which ensures effective tritium migration. In LiAl₅O₈, Mg and Ni doping results in a slight reduction in the diffusion coefficients of key species, yet the dramatic increase in tritium interstitial concentrations compensates, leading to a net small increase in tritium diffusivity. The findings highlight the critical role of defects in tritium transport and the effect of Mg and Ni defects on the performance of these ceramics in demanding nuclear environments.

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来源期刊

Journal of Nuclear Materials 工程技术-材料科学：综合

CiteScore

5.70

自引率

25.80%

发文量

601

审稿时长

63 days

期刊介绍： The Journal of Nuclear Materials publishes high quality papers in materials research for nuclear applications, primarily fission reactors, fusion reactors, and similar environments including radiation areas of charged particle accelerators. Both original research and critical review papers covering experimental, theoretical, and computational aspects of either fundamental or applied nature are welcome. The breadth of the field is such that a wide range of processes and properties in the field of materials science and engineering is of interest to the readership, spanning atom-scale processes, microstructures, thermodynamics, mechanical properties, physical properties, and corrosion, for example. Topics covered by JNM Fission reactor materials, including fuels, cladding, core structures, pressure vessels, coolant interactions with materials, moderator and control components, fission product behavior. Materials aspects of the entire fuel cycle. Materials aspects of the actinides and their compounds. Performance of nuclear waste materials; materials aspects of the immobilization of wastes. Fusion reactor materials, including first walls, blankets, insulators and magnets. Neutron and charged particle radiation effects in materials, including defects, transmutations, microstructures, phase changes and macroscopic properties. Interaction of plasmas, ion beams, electron beams and electromagnetic radiation with materials relevant to nuclear systems.