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首页> 外文期刊>Fusion Science and Technology >ANISOTROPY IN THE MECHANICAL PROPERTIES OF POTASSIUM AND RHENIUM DOPED TUNGSTEN ALLOY PLATES FOR FUSION REACTOR APPLICATIONS
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ANISOTROPY IN THE MECHANICAL PROPERTIES OF POTASSIUM AND RHENIUM DOPED TUNGSTEN ALLOY PLATES FOR FUSION REACTOR APPLICATIONS

机译:熔融反应器中钾和R掺杂钨合金板的力学性能各向异性

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摘要

The effects of K-bubble dispersion and 3 wt.% Re addition on the tensile properties and their anisotropy in W were investigated in this work. K-doped W and K-doped W-3%Re showed similar to 45 and similar to 65% higher tensile strengths than pure W, respectively. The ultimate tensile strength and its temperature dependence in pure W, K-doped W, and K-doped W-3%Re showed anisotropy. However, the effects of K-bubble dispersion and 3% Re addition on the anisotropic tensile strength were not clearly observed. K-doped W and K-doped W-3%Re showed better deformation abilities than pure W K-doped W-3%Re showed better tensile properties than pure W under non-irradiation conditions used in this work. Since irradiation hardening is suppressed by adding 3% Re, K-doped W-3%Re is expected to be more advantageous as a plasma facing material in a fusion reactor than pure W and K-doped W
机译:在这项工作中研究了K气泡分散液和3 wt。%的Re添加对W的拉伸性能及其各向异性的影响。掺K的W和掺K的W-3%Re的拉伸强度分别比纯W高45和65%。纯W,掺K的W和掺K的W-3%Re的极限抗拉强度及其温度依赖性显示出各向异性。然而,没有清楚地观察到K气泡分散和3%Re添加对各向异性拉伸强度的影响。在此工作中使用的非辐照条件下,掺K的W和掺K的W-3%Re表现出比纯W更好的变形能力掺K的W-3%Re表现出比纯W更好的拉伸性能。由于通过添加3%的Re来抑制辐照硬化,因此,期望K掺杂的W-3%Re比纯W和K掺杂的W在聚变反应堆中作为面向等离子体的材料更具优势。

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