Atom Probe Tomography Investigation of Clustering in Model P2O5-Doped Borosilicate Glasses for Nuclear Waste Vitrification.

IF 2.9 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Microscopy and Microanalysis Pub Date : 2024-07-08 DOI:10.1093/mam/ozae059

Przemyslaw Klupś, Katrina Skerratt-Love, Albert A Kruger, Jaime George, Anthony Martin Thomas Bell, Paul A Bingham, Michael P Moody, Paul A J Bagot

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Abstract

Atom probe tomography (APT) has been utilized to investigate the microstructure of two model borosilicate glasses designed to understand the solubility limits of phosphorous pentoxide (P2O5). This component is found in certain high-level radioactive defence wastes destined for vitrification, where phase separation can potentially lead to a number of issues relating to the processing of the glass and its long-term chemical and structural stability. The development of suitable focused ion beam (FIB)-preparation routes and APT analysis conditions were initially determined for the model glasses, before examining their detailed microstructures. In a 3.0 mol% P2O5-doped glass, both visual inspection and sensitive statistical analysis of the APT data show homogeneous microstructures, while raising the content to 4.0 mol% initiates the formation of phosphorus-enriched nanoscale precipitates. This study confirms the expected inhomogeneities and phase separation of these glasses and offers routes to characterizing these at near-atomic scale resolution using APT.

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用于核废料玻璃化的掺杂 P2O5 的硼硅玻璃模型中的聚类的原子探针断层扫描研究。

原子探针层析成像（APT）被用来研究两种硼硅玻璃模型的微观结构，目的是了解五氧化二磷（P2O5）的溶解极限。五氧化二磷存在于某些要进行玻璃化处理的高放射性国防废料中，相分离可能会导致与玻璃加工及其长期化学和结构稳定性有关的一系列问题。在研究模型玻璃的详细微观结构之前，首先确定了合适的聚焦离子束（FIB）制备路线和 APT 分析条件。在掺杂 3.0 摩尔 P2O5 的玻璃中，肉眼观察和 APT 数据的敏感统计分析均显示出均匀的微观结构，而将含量提高到 4.0 摩尔后，则开始形成富磷纳米级沉淀。这项研究证实了这些玻璃预期的不均匀性和相分离现象，并提供了使用 APT 以接近原子级分辨率表征这些现象的途径。

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来源期刊

Microscopy and Microanalysis 工程技术-材料科学：综合

CiteScore

1.10

自引率

10.70%

发文量

1391

审稿时长

6 months

期刊介绍： Microscopy and Microanalysis publishes original research papers in the fields of microscopy, imaging, and compositional analysis. This distinguished international forum is intended for microscopists in both biology and materials science. The journal provides significant articles that describe new and existing techniques and instrumentation, as well as the applications of these to the imaging and analysis of microstructure. Microscopy and Microanalysis also includes review articles, letters to the editor, and book reviews.