Exploring Fission–Fusion Synergies to Accelerate Compatibility Understanding

IF 2.1 3区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Oxidation of Metals Pub Date : 2024-08-22 DOI:10.1007/s11085-024-10300-8

B. A. Pint, M. Romedenne, C. De Lamater-Brotherton, R. Pillai

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Abstract

To address the significant commercial interest in fusion energy, it will be necessary to accelerate the compatibility research associated with liquid breeders including Li, eutectic Pb–Li and LiF-BeF₂ (FLiBe) molten salt. Particularly for FLiBe, compatibility understanding is limited especially for fusion relevant materials such as reduced activation ferritic-martensitic steels, SiC and V alloys. The historical knowledge associated with molten salt reactors (MSRs) and recent work to commercialize MSRs can benefit fusion research. Recent experimental and modeling work has improved understanding and this knowledge can be applied to fusion relevant materials. For liquid metals (LMs), the comparisons to Li and Pb–Li are less direct but nevertheless can help guide the pathway toward commercialization. For Pb–Li, Al-rich coatings have been shown to inhibit dissolution and potentially increase operating temperatures. For commercialization, the experience with sensors and on-line cleanup can help guide future developments. Thus, it is worth considering the potential for fission-related research with LMs and molten salts to help accelerate fusion research.

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探索裂变-聚变协同作用，加快对兼容性的理解

为了满足对核聚变能源的巨大商业兴趣，有必要加快与液体增殖器（包括锂、共晶铅锂和 LiF-BeF2 (FLiBe) 熔盐）相关的兼容性研究。特别是对于掺铍锂熔盐，人们对其兼容性的了解十分有限，尤其是对与核聚变相关的材料，如活化度降低的铁素体-马氏体钢、碳化硅和钒合金。与熔盐反应堆（MSR）相关的历史知识以及近期为实现熔盐反应堆商业化而开展的工作都能为聚变研究带来益处。最近的实验和建模工作加深了人们的理解，这些知识可应用于核聚变相关材料。就液态金属（LMs）而言，与锂和铅-锂的比较并不那么直接，但却有助于指导商业化之路。就铅-锂而言，富铝涂层已被证明可抑制溶解，并有可能提高工作温度。就商业化而言，传感器和在线清理方面的经验有助于指导未来的发展。因此，值得考虑利用 LMs 和熔盐进行裂变相关研究的潜力，以帮助加速聚变研究。

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来源期刊

Oxidation of Metals 工程技术-冶金工程

CiteScore

5.10

自引率

9.10%

发文量

审稿时长

2.2 months

期刊介绍： Oxidation of Metals is the premier source for the rapid dissemination of current research on all aspects of the science of gas-solid reactions at temperatures greater than about 400˚C, with primary focus on the high-temperature corrosion of bulk and coated systems. This authoritative bi-monthly publishes original scientific papers on kinetics, mechanisms, studies of scales from structural and morphological viewpoints, transport properties in scales, phase-boundary reactions, and much more. Articles may discuss both theoretical and experimental work related to gas-solid reactions at the surface or near-surface of a material exposed to elevated temperatures, including reactions with oxygen, nitrogen, sulfur, carbon and halogens. In addition, Oxidation of Metals publishes the results of frontier research concerned with deposit-induced attack. Review papers and short technical notes are encouraged.