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Make Leapfrogging Development By Concentrating Resource On Selected Targets
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作者 Chen YiyuVice- President of the Chinese Academy of Sciences 《Bulletin of the Chinese Academy of Sciences》 2001年第1期16-17,共2页
The Chinese Academy of Sci-ences (CAS) has begun introducingthe trial implementation of theKnowledge Innovation Program(KIP)in an all-round manner just as,at the beginning of the new century,the state is about to impl... The Chinese Academy of Sci-ences (CAS) has begun introducingthe trial implementation of theKnowledge Innovation Program(KIP)in an all-round manner just as,at the beginning of the new century,the state is about to implement itsTenth Five-Year Plan for thecountry’s ongoing economic andsocial development. This will 展开更多
关键词 CAS Make Leapfrogging Development By Concentrating Resource On Selected targets Innovation KIP
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Calculation of hydrogen and helium concentrations for CSNS target 被引量:1
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作者 潘冬冬 梁泰然 +1 位作者 殷雯 姚泽恩 《Chinese Physics C》 SCIE CAS CSCD 2016年第3期140-146,共7页
The China Spallation Neutron Source(CSNS) is driven by protons whose energies are about 1.6 GeV.At such high energies, the spallation neutrons lead to the formation of large amounts of helium, hydrogen and new heavi... The China Spallation Neutron Source(CSNS) is driven by protons whose energies are about 1.6 GeV.At such high energies, the spallation neutrons lead to the formation of large amounts of helium, hydrogen and new heavier species in the form of transmutation products. These hydrogen, helium and transmutation products have a critical effect on the mechanical properties on the one hand and exacerbate the displacement radiation damage on the other hand. In this paper, the background hydrogen/helium concentrations and the maximum hydrogen/helium concentrations near cracks in a tungsten target for CSNS have been calculated at temperatures of 100 and 300 by applying a theoretical model. For the CSNS tungsten target plate, we find the maximum hydrogen concentration near the tips of cracks ranges from 3.0×10^(-2)–2×10^(-1), which exceeds the hydrogen background concentration by 1.2–1.8 times; the maximum helium concentration near the tips of cracks ranges from 3.0×10^(-4)- 1.2×10^(-3), which exceeds the helium background concentration by 2- 4 times; the maximum hydrogen/helium concentration increases with the increase of the transfer length across the surfaces of the target and it decreases with the increase of temperature. 展开更多
关键词 CSNS hydrogen concentration helium concentration tungsten target
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