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Current State of Development and Expected Performance of Copper-Lithium Alloys as an Impurity Control System in Fusion Applications

机译：铜锂合金作为熔融应用中杂质控制系统的发展现状和预期性能

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A new approach to impurity control involves the development of materials displaying both strong surface segregation of a low-Z component and high secondary ion fractions in the sputtering of that component. Key issues that have been studied with particular reference to copper-lithium alloys relate to the completeness of the overlayer, its rate of formation in a reactor environment, lowering of substrate sputtering and self-sputtering yields, durability of the overlayer, and depletion of the bulk alloy in the low-Z component. Other factors that must be considered in the materials selection process relate to response to disruptions, heat transfer, thermal stress, fabricability, radiation damage, activation, and tritium permeation. Copper-lithium alloys have been evaluated as a surface material for the impurity control system of the INTOR reactor. Both the medium-edge temperature limiter regime and the low-edge temperature divertor regime were examined. The analysis used TRIM code data to predict sputtering coefficients for copper-lithium with a 1.5 monolayer coverage of lithium. The REDEP code was used to evaluate the erosion performance for INTOR. Other properties such as fabrication and thermal performance were also briefly assessed. It was found from the standpoint of erosion that copper-lithium is a very good candidate material for the medium-edge temperature regime and also works well in the low-edge temperature regime. For the medium-edge temperature regime, the use of copper-lithium results in an almost negligible erosion rate over the entire surface. (ERA citation 10:025016)

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作者
Brooks, J. N.; Gruen, D. M.; Krauss, A. R.; Mattas, R. F.; DeWald, A. B.;
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年度 1985
页码 p.1-6
总页数 6
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Copper Alloys; Lithium Alloys; Thermonuclear Reactor Materials; Coatings; Control; Fabrication; Impurities; Materials Testing; Permeability; Physical Radiation Effects; Radioactivation; Sputtering; Thermal Stresses; Tritium;

机译：铜合金;锂合金;热核反应堆材料;涂层;控制;制造;杂质;材料测试;渗透性;物理辐射效应;放射性;溅射;热应力;氚;

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8. Current State of Development and Expected Performance of Copper-Lithium Alloys as an Impurity Control System in Fusion Applications [R] . Brooks, J. N., Gruen, D. M., Krauss, A. R., 1985

机译：铜锂合金作为熔融应用中杂质控制系统的发展现状和预期性能

Current State of Development and Expected Performance of Copper-Lithium Alloys as an Impurity Control System in Fusion Applications

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