Tensile property of low activation vanadium alloy after liquid lithium exposure

Takuya Nagasaka; Takeo Muroga; Meimei Li; David T. Hoelzer; Steven J. Zinkle; Martin L. Grossbeck; Hideki Matsui

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Tensile property of low activation vanadium alloy after liquid lithium exposure

机译：液态锂暴露后低活化钒合金的拉伸性能

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摘要

A candidate low activation vanadium (V) alloy, V-4Cr-4Ti (NIFS-HEAT-2), was exposed to liquid lithium (Li) at 973 and 1073 K for up to 1963 h. Contamination by carbon (C) and nitrogen (N) from the Li on the order of thousands of wppm were observed. Oxygen (O) levels were reduced to the several 10 wppm level by Li exposure at 1073 K, but not at 973 K. The Li exposure caused strength degradation as measured by tensile tests at 973 and 1073 K. On the other hand, good ductility was demonstrated after the Li exposure even with the significant contamination of C and N. From microstructural observations, C and N are likely to be scavenged by Ti-C-N type precipitates. Reduction of O was attributed to disappearance of Ti-C-O type precipitates.

机译：候选低活化钒（V）合金V-4Cr-4Ti（NIFS-HEAT-2）在973和1073 K下暴露于液态锂（Li）中长达1963 h。观察到来自锂的碳（C）和氮（N）的污染约为数千wppm。通过在1073 K下而不是在973 K下暴露于Li，氧气（O）含量降低到几个10 wppm的水平。通过在973和1073 K下进行拉伸测试，Li暴露导致强度下降。另一方面，良好的延展性在暴露于Li后，即使C和N受到明显污染也证明了这一点。从微观结构观察，Ti-CN型沉淀物可能清除了C和N。 O的减少归因于Ti-C-O型沉淀物的消失。

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来源
《Fusion Engineering and Design》 |2006年第7期|p.307-313|共7页
作者
Takuya Nagasaka; Takeo Muroga; Meimei Li; David T. Hoelzer; Steven J. Zinkle; Martin L. Grossbeck; Hideki Matsui;
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作者单位

National Institute for Fusion Science, Oroshi 322-6, Toki, Gifu 509-5292, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子能技术;
关键词
first wall/blanket materials; impurity effect; mechanical property;

机译：第一壁/毛毯材料;杂质效应;机械性能;

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1. Effect of impurities on mechanical properties of vanadium alloys under liquid-lithium environment during neutron irradiation at HFIR [J] . Fukumoto K., Kuroyanagi Y., Kuroiwa H., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2011,第1a3期

机译：HFIR中子辐照液锂环境下杂质对钒合金力学性能的影响
2. IMPACT PROPERTIES OF LOW ACTIVATION VANADIUM ALLOY AFTER LOW-TEMPERATURE NEUTRON IRRADIATION AT 450 ℃ AND BELOW [J] . Takuya Nagasaka, Takeo Muroga, Takeshi Miyazawa, Fusion technology . 2011,第1期

机译：450℃及以下低温中子辐照后低活化钒合金的冲击性能
3. High-temperature creep properties of NIFS- HEAT-2 high-purity low-activation vanadium alloy [J] . Nagasaka T., Muroga T., Tanaka T., Nuclear fusion . 2019,第9期

机译：NIFS- HEAT-2高纯度低活化钒合金的高温蠕变性能
4. Tensile property of low activation vanadium alloy after liquid lithium exposure [C] . Takuya Nagasaka, Takeo Muroga, Meimei Li, International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.A . 2006

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5. A study of the hydrogen effects on the microstructure and tensile properties of (alpha(2)+B2) titanium-25 percent aluminum-10 percent niobium-3 percent vanadium-1 percent molybdenum titanium aluminide alloy. [D] . Pierron, Xavier. 1995

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7. Tensile Properties of Low Activation Vanadium Alloy after Liquid Lithium Exposure [O] . T. Nagasaka, T. Muroga, M. Li, 100

机译：液态锂暴露后低活化钒合金的拉伸性能
8. The Effect of Titanium and Vanadium on the Mechanical Properties and Weldability of Experimental Low-Alloy High-Tensile Steel [R] . Luther, G. G., Hartbower, C. E., Roach, D. B. 1948

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Tensile property of low activation vanadium alloy after liquid lithium exposure

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