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THERMOMECHANICAL ANALYSIS OF TUNGSTEN PLASMA-FACING COMPONENTS UNDER TRANSIENT LOADING

机译：瞬态负荷下钨等离子体组件的热机械分析

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The heat loading on plasma facing components provides one of the critical design challenges for the first wall and divertors for fusion power plants. To date, design of these components has focused on steady operating conditions, but the less understood transient edge localized modes and offnormal loading conditions such as plasma disruption must also be considered. In this article, we summarize the current status of the thermomechanical design for divertors and first walls for a fusion nuclear science facility (FNSF). Additionally, predicted transient thermal loads on the plasma facing surfaces are summarized. The thermal responses of the divertor and first wall designs to the transient ELMs and disruption loads are then investigated and the viability of these designs discussed.

机译：等离子体面向组件的热负荷为融合发电厂的第一壁和偏移器提供了一个关键设计挑战之一。迄今为止，这些组件的设计专注于稳定的操作条件，但也必须考虑较少理解的瞬态边缘局部模式和非正规负载条件，例如等离子体中断。在本文中，我们总结了用于融合器和第一墙的热机械设计的现状（FNSF）。另外，总结了等离子体面向表面上的预测瞬态热负载。然后研究了转移器和第一壁设计到瞬态ELM和破坏载荷的热应答，并讨论了这些设计的可行性。

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《IEEE Symposium on Fusion Engineering》|2015年|971p|共6页
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作者
James P. Blanchard; Carl J. Martin;
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中图分类 TL63-53;
关键词
fusion; first wall; divertor; disruption; edge localized modes (ELMs);

机译：融合;第一墙;偏转器;中断;边缘本地化模式（ELMS）;

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1. 强流脉冲离子束作用下超细晶钨的抗瞬态热负荷性能评价 [J] . 谈军, 周张健, 朱小鹏, 中国有色金属学报：英文版 . 2012,第005期
2. Material ejection and surface morphology changes during transient heat loading of tungsten as plasma-facing component in fusion devices [J] . A. Suslova, O. El-Atwani, S.S. Harilal, Nuclear fusion . 2015,第3期

机译：作为聚变装置中面向等离子体的成分的钨的瞬态热加载过程中，材料喷射和表面形态发生变化
3. Thermal damage of tungsten-armored plasma-facing components under high heat flux loads [J] . Shuming Wang, Jiangshan Li, Ye Wang, Scientific reports. . 2020,第1期

机译：高热通量负载下钨橡皮铠装面板的热损坏
4. THERMOMECHANICAL ANALYSIS OF PLASMA-FACING COMPONENTS FOR SST-1 TOKAMAK [J] . PARITOSH CHAUDHURI, P. SANTRA, S. K. S. PARASHAR, Fusion Science and Technology . 2013,第1期

机译：SST-1托卡马克等离子体定位组件的热力学分析
5. THERMOMECHANICAL ANALYSIS OF TUNGSTEN PLASMA-FACING COMPONENTS UNDER TRANSIENT LOADING [C] . James P. Blanchard, Carl J. Martin IEEE Symposium on Fusion Engineering . 2015

机译：瞬态负荷下钨等离子体组件的热机械分析
6. Thermomechanical cohesive zone models for analysis of composites failure under thermal gradients and transients. [D] . Hattiangadi, Ashwin A. 2004

机译：用于分析复合材料在热梯度和瞬变作用下的破坏的热机械内聚力区域模型。
7. Recrystallization and grain growth induced by ELMs-like transient heat loads in deformed tungsten samples [O] . A. Suslova, O. El-Atwani, D. Sagapuram, -1

机译：变形钨样品中类似ELMs的瞬态热负荷引起的再结晶和晶粒长大
8. Thermal damage of tungsten-armored plasma-facing components under high heat flux loads [O] . Shuming Wang, Jiangshan Li, Ye Wang, 2020

机译：高热通量负载下钨橡皮铠装面板的热损坏
9. Evidences of trapping in tungsten and implications for plasma-facing components. [R] . G. R. Longhurst R. A. Anderl D. F. Holland 1990

机译：俘获钨的证据以及对面向等离子体的成分的影响。

THERMOMECHANICAL ANALYSIS OF TUNGSTEN PLASMA-FACING COMPONENTS UNDER TRANSIENT LOADING

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