RADIATION RESISTANCE OF HIGH-DENSITY URANIUM-MOLYBDENUM DISPERSION FUEL FOR NUCLEAR RESEARCH REACTORS

A. V. Vatulin; A. V. Morozov; V. B. Suprun; Yu. I. Petrov; Yu. I. Trifonov

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RADIATION RESISTANCE OF HIGH-DENSITY URANIUM-MOLYBDENUM DISPERSION FUEL FOR NUCLEAR RESEARCH REACTORS

机译：核研究反应堆用高密度铀钼分散燃料的耐辐射性

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The results of radiation tests are discussed and the character of the failure of fuel compositions and the operability of fuel elements is analyzed as a function of the type of fuel and the irradiation conditions. The intense interaction of the fuel with the matrix material is considered as the main factor limiting the operability of fuel elements in power-dense high-flux nuclear reasearch reactors. It is concluded that low-enrichment high-density uranium-molybdenym fuel can provide reliable operation of dispersion fuel elements in low- and medium-power research reactors. Such fuel can be used in power-dense high-flux research reactors if the fuel load is decreased below the maximum admissible amount, the compatibility of the uranium-molybdenum alloy with an aluminum matrix is radically improved, or fuel elements with a different construction, for example, monolithic, are used.

机译：讨论了辐射测试的结果，并根据燃料类型和辐照条件对燃料成分失效的特性和燃料元件的可操作性进行了分析。燃料与基体材料的强烈相互作用被认为是限制功率密集的高通量核研究反应堆中燃料元件可操作性的主要因素。结论是，低浓高密度铀钼燃料可以在中低功率研究堆中提供分散燃料元件的可靠运行。如果燃料负荷降低到最大允许量以下，铀-钼合金与铝基体的相容性得到根本改善，或者燃料结构不同，则此类燃料可用于功率密集型高通量研究堆中。例如，使用单片。

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来源
《Atomic Energy》 |2006年第1期|p.37-46|共10页
作者
A. V. Vatulin; A. V. Morozov; V. B. Suprun; Yu. I. Petrov; Yu. I. Trifonov;
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作者单位

A. A. Bochvar All-Russia Research Institute of Standardization in Machine Engineering;

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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;
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入库时间 2022-08-18 00:41:11

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机译：铝中硅的掺入改善了铀钼钼铝的辐照性能
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机译：用于研究堆的表面工程低浓铀钼燃料：研究堆从使用高浓度核燃料转化为低浓缩核燃料的入库和出厂研究
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机译：铀 - 钼分散燃料的辐照行为：来自RERTR-1和RERTR-2的燃料性能数据

RADIATION RESISTANCE OF HIGH-DENSITY URANIUM-MOLYBDENUM DISPERSION FUEL FOR NUCLEAR RESEARCH REACTORS

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