Corrosion resistance of ceramic candidates for tritium permeation barriers exposed to molten lithium

Lu Wei; Wang Jing; Pu Wenjing; Li Kaiping; Wang Weihua; He Shengnan; Chu Delin; Yang Jinhong; Zhu Yuhao

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Corrosion resistance of ceramic candidates for tritium permeation barriers exposed to molten lithium

机译：暴露于熔融锂中的per渗透屏障的陶瓷候选材料的耐蚀性

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For the design of liquid lithium first wall in future fusion reactor, chemical compatibility between the tritium permeation barrier (TPB) and liquid lithium should be studied preferentially. The redox reaction is studied from the perspective of thermodynamics at different temperature, which indicates that metallic nitrides and rare earth oxides are predictable to provide higher stability in lithium corrosion situation. Then static compatibilities of Al2O3, AlN, SiC and Er2O3 ceramics with liquid lithium are tested. The surface analysis of TPB and lithium droplets shows that Al2O3 ceramic could react with molten Li, though it is considered as the preferred candidate of TPB for its easy fabrication, low cost, and self-repair ability. However, the other three ceramics did not show any reduction product peak, indicating the high stability with liquid lithium. These results provide meaningful compatibility with liquid Li and valuable reference in engineering design of structural and TPB materials for future fusion device.

机译：对于未来聚变反应堆中液态锂第一壁的设计，应优先研究tri渗透阻挡层（TPB）与液态锂之间的化学相容性。从不同温度下的热力学角度研究了氧化还原反应，这表明金属氮化物和稀土氧化物在锂腐蚀情况下具有较高的稳定性。然后测试了Al2O3，AlN，SiC和Er2O3陶瓷与液态锂的静态相容性。 TPB和锂微滴的表面分析表明，Al2O3陶瓷可以与熔融的Li反应，尽管由于其易于制造，低成本和自修复能力而被认为是TPB的首选。但是，其他三种陶瓷均未显示任何还原产物峰，表明液体锂具有很高的稳定性。这些结果提供了与液态锂的有意义的相容性，并为将来的聚变装置的结构和TPB材料的工程设计提供了有价值的参考。

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来源
《Corrosion science》 |2019年第11期|108172.1-108172.6|共6页
作者
Lu Wei; Wang Jing; Pu Wenjing; Li Kaiping; Wang Weihua; He Shengnan; Chu Delin; Yang Jinhong; Zhu Yuhao;
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作者单位

Anhui Univ Inst Phys Sci Hefei 230601 Anhui Peoples R China|Anhui Univ Inst Informat Technol Hefei 230601 Anhui Peoples R China|Anhui Univ Key Lab Struct & Funct Regulat Hybrid Mat Minist Educ Hefei 230601 Peoples R China;

Anhui Univ Key Lab Struct & Funct Regulat Hybrid Mat Minist Educ Hefei 230601 Peoples R China;

PLA Army Acad Artillery & Air Def Inst Appl Phys Hefei 230031 Anhui Peoples R China;

Anhui Univ Inst Phys Sci Hefei 230601 Anhui Peoples R China|Anhui Univ Inst Informat Technol Hefei 230601 Anhui Peoples R China|PLA Army Acad Artillery & Air Def Inst Appl Phys Hefei 230031 Anhui Peoples R China;

Anhui Univ Inst Phys Sci Hefei 230601 Anhui Peoples R China|Anhui Univ Inst Informat Technol Hefei 230601 Anhui Peoples R China;

Natl Univ Def Technol Coll Aerosp Sci & Engn Changsha 410073 Hunan Peoples R China;

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正文语种 eng
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关键词
Tritium permeation barriers; Liquid lithium; Corrosion; Ceramic;

机译：t渗透屏障;液态锂;腐蚀;陶瓷的;

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3. Experimental investigation of alumina coating as tritium permeation barrier for molten salt nuclear reactors [J] . Zheng Guiqiu, Carpenter David, Dolan Kieran, Nuclear Engineering and Design . 2019,第NOVa期

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8. EXOTIC: Development of ceramic tritium breeding materials for fusion reactor blankets. The behaviour of tritium in: lithium aluminate, lithium oxide, lithium silicates, lithium zirconates [R] . Kwast, H. , Stijkel, H. , Muis, R. , 1995

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Corrosion resistance of ceramic candidates for tritium permeation barriers exposed to molten lithium

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